Results for:
Species: Pantoea vagans

Propylbenzene

Compound Details

Synonymous names
Propylbenzene
N-PROPYLBENZENE
103-65-1
1-Phenylpropane
Phenylpropane
Isocumene
Benzene, propyl-
1-Propylbenzene
n-Propyl benzene
Propylbenzene, n-
propyl benzene
Propyl-benzene
NSC 16941
HSDB 5353
UNII-0WR86ZHG2Z
EINECS 203-132-9
0WR86ZHG2Z
DTXSID3042219
CHEBI:42630
AI3-23862
NSC-16941
CHEMBL286062
DTXCID1022219
Propylbenzene, analytical standard
UN2364
Propylbenzene (all isomers)
benzene, propyl
3H0
Benzene, n-propyl-
PRPH
Propylbenzene, 98%
BENZENE,PROPYL
PROPYLBENZENE [MI]
PHENYLPROPANE [INCI]
WLN: 3R
N-PROPYLBENZENE [HSDB]
Propylbenzene, >=99.0% (GC)
NSC16941
Tox21_300567
BDBM50167945
MFCD00009377
AKOS000120950
MCULE-1436126757
UN 2364
NCGC00248093-01
NCGC00254532-01
CAS-103-65-1
n-Propylbenzene 100 microg/mL in Methanol
NS00006753
P0523
S0656
EN300-20607
n-Propyl benzene [UN2364] [Flammable liquid]
A800778
Q288806
J-001016
J-523764
Z104479154
InChI=1/C9H12/c1-2-6-9-7-4-3-5-8-9/h3-5,7-8H,2,6H2,1H
Microorganism:

Yes

IUPAC namepropylbenzene
SMILESCCCC1=CC=CC=C1
InchiInChI=1S/C9H12/c1-2-6-9-7-4-3-5-8-9/h3-5,7-8H,2,6H2,1H3
FormulaC9H12
PubChem ID7668
Molweight120.19
LogP3.7
Atoms9
Bonds2
H-bond Acceptor0
H-bond Donor0
Chemical Classificationaromatic compounds alkylbenzenes benzenoids
CHEBI-ID42630
Supernatural-IDSN0262461

mVOC Specific Details

Boiling Point
DegreeReference
159.2 °C peer reviewed
Volatilization
The Henry's Law constant for n-propylbenzene is 1.05X10-2 atm-cu m/mole(1). This Henry's Law constant indicates that n-propylbenzene is expected to volatilize rapidly from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as 1 hour(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as 4 days(SRC). Results of mesocosm studies simulating the Narragansett Bay indicate that volatilization is the major removal process from seawater(3); volatilization half-lives of 1.3-19 days were estimated for summer, spring and winter seasons(5). n-Propylbenzene's Henry's Law constant(1) indicates that volatilization from moist soil surfaces may occur(SRC). The potential for volatilization of n-propylbenzene from dry soil surfaces may exist(SRC) based upon it's vapor pressure of 3.42 mm Hg(4).
Soil Adsorption
A Koc of 725 was measured for n-propylbenzene using a surface sediment collected from the Tamar estuary(1). A similar Koc of 676 was measured in a humic acid column via HPLC(2). Adsorption percentages ranging from 0.16 to 5.58% were measured in soil column studies using three different soil types and a sludge sample(3). Using a structure estimation method based on molecular connectivity indices(4), the Koc for n-propylbenzene can be estimated to be 955(SRC). According to a classification scheme(5), these estimated and measured Koc values suggest that n-propylbenzene is expected to have low mobility in soil.
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaAspergillus NigerNANACosta et al. 2016
EukaryotaCandida AlbicansNANACosta et al. 2016
EukaryotaPenicillium ChrysogenumNANACosta et al. 2016
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
Meyerozyma GuilliermondiiXiong et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaAspergillus NigerYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaCandida AlbicansYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaPenicillium ChrysogenumYeast Glucose ChloramphenicolSPME/GCxGC-MSno
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno


2-phenylethanol

Mass-Spectra

Compound Details

Synonymous names
2-PHENYLETHANOL
Phenethyl alcohol
Phenylethyl alcohol
60-12-8
Benzeneethanol
Phenylethanol
Benzyl carbinol
Phenethanol
2-Phenylethyl alcohol
2-PHENYL-ETHANOL
beta-Phenylethanol
2-Phenethyl alcohol
Benzylmethanol
2-Phenylethan-1-Ol
Benzylcarbinol
Methanol, benzyl-
2-Hydroxyethylbenzene
1-Phenyl-2-ethanol
Ethanol, 2-phenyl-
FEMA No. 2858
2-PEA
Benzenethanol
Phenethylalcohol
Phenyl ethyl alcohol
beta-PEA
beta-Phenylethyl alcohol
beta-Hydroxyethylbenzene
Caswell No. 655C
beta-Fenylethanol
FEMA Number 2858
1321-27-3
beta-Fenethylalkohol
Phenethyl alcohol (natural)
beta-Phenethyl alcohol
HSDB 5002
2-Phenethanol
.beta.-Hydroxyethylbenzene
.beta.-Phenylethyl alcohol
Hydroxyethylbenzene
EINECS 200-456-2
UNII-ML9LGA7468
MFCD00002886
PhenethylAlcohol-d5
EPA Pesticide Chemical Code 001503
NSC 406252
NSC-406252
BRN 1905732
.beta.-Phenylethanol
ML9LGA7468
.beta.-PEA
DTXSID9026342
CHEBI:49000
AI3-00744
(2-Hydroxyethyl)benzene
.beta.-Phenethyl alcohol
Phenylethyl alcohol [USP]
.beta.-(hydroxyethyl)benzene
DTXCID206342
EC 200-456-2
4-06-00-03067 (Beilstein Handbook Reference)
NSC406252
NCGC00166215-02
Phenylethyl alcohol (USP)
Ethanol, phenyl-
PHENYLETHYL ALCOHOL (II)
PHENYLETHYL ALCOHOL [II]
PHENETHYL ALCOHOL (MART.)
PHENETHYL ALCOHOL [MART.]
Phenyl Ethanol(Natural)
2 Phenylethanol
PHENYLETHYL ALCOHOL (USP-RS)
PHENYLETHYL ALCOHOL [USP-RS]
beta-Fenylethanol [Czech]
2-phenyl ethanol
Carbinol, Benzyl
beta Phenylethanol
CAS-60-12-8
Alcohol, Phenethyl
beta-Fenethylalkohol [Czech]
PEL
SMR000059156
PHENYLETHYL ALCOHOL (USP MONOGRAPH)
PHENYLETHYL ALCOHOL [USP MONOGRAPH]
Alcohol, Phenylethyl
benzene-ethanol
Mellol
phenyl-ethanol
Benzyl-Methanol
2-PhenyIethanol
phenylethyl-alcohol
.beta.-Phenethanol
HY1
.beta.-Fenylethanol
b-Hydroxyethylbenzene
Benzyl ethyl alcohol
2-phenyl-1-ethanol
Benzeneethanol, 9CI
2-phenylethane-1-ol
betaphenylethyl alcohol
.beta.-Fenethylalkohol
2-Phenylethanol, USP
METHANOL, BENZYL
A-PEA
beta -hydroxyethylbenzene
2-Phenylethanol, 99%
.beta.-P.E.A.
(BETA-PEA)
Phenylethyl alcohol, USAN
bmse000659
Phenylethyl, beta- alcohol
2-(2-Hydroxyethyl)benzene
SCHEMBL1838
WLN: Q2R
MLS001066349
MLS001336026
FEMA NUMBER 2858.
PHENETHYL ALCOHOL [MI]
Phenethyl alcohol, 8CI, BAN
CHEMBL448500
beta-(HYDROXYETHYL)BENZENE
PHENETHYL ALCOHOL [FCC]
PHENYLETHYL, B- ALCOHOL
PHENETHYL ALCOHOL [INCI]
BDBM85807
FEMA 2858
HMS2093H05
HMS2233H06
HMS3374P04
Pharmakon1600-01505398
PHENYLETHYL ALCOHOL [FHFI]
PHENYLETHYL ALCOHOL [HSDB]
PHENETHYL ALCOHOL [WHO-DD]
BCP32115
CS-B1821
HY-B1290
NSC_6054
Tox21_113544
Tox21_201322
Tox21_303383
BBL036905
NSC759116
s3703
STL281950
2-Phenylethanol, >=99.0% (GC)
AKOS000249688
Tox21_113544_1
CCG-213419
DB02192
MCULE-8439044075
NSC-759116
CAS_60-12-8
Phenethyl alcohol, >=99%, FCC, FG
NCGC00166215-01
NCGC00166215-03
NCGC00166215-05
NCGC00257347-01
NCGC00258874-01
AC-18484
SBI-0206858.P001
NS00004212
P0084
EN300-19347
C05853
D00192
D70868
Phenethyl alcohol, natural, >=99%, FCC, FG
AB00698274_05
A832606
Q209463
SR-01000763553
Phenylethyl alcohol;Phenethyl alcohol;Benzeneethanol
Q-200318
SR-01000763553-2
0DE4CADC-AB8A-4038-BD6F-EBD009885652
F0001-1575
Z104473586
2-phenylethanol;2-Phenylethyl alcohol;Benzeneethanol;Phenylethanol
InChI=1/C8H10O/c9-7-6-8-4-2-1-3-5-8/h1-5,9H,6-7H
Phenylethyl alcohol, United States Pharmacopeia (USP) Reference Standard
Phenylethyl Alcohol, Pharmaceutical Secondary Standard; Certified Reference Material
19601-20-8
Microorganism:

Yes

IUPAC name2-phenylethanol
SMILESC1=CC=C(C=C1)CCO
InchiInChI=1S/C8H10O/c9-7-6-8-4-2-1-3-5-8/h1-5,9H,6-7H2
FormulaC8H10O
PubChem ID6054
Molweight122.16
LogP1.4
Atoms9
Bonds2
H-bond Acceptor1
H-bond Donor1
Chemical Classificationaromatic alcohols alcohols aromatic compounds benzenoids
CHEBI-ID49000
Supernatural-IDSN0418058

mVOC Specific Details

Boiling Point
DegreeReference
218.2 °C peer reviewed
Volatilization
The Henry's Law constant for 2-phenylethanol estimated from its vapor pressure, 0.0868 mm Hg at 25 deg C(1), and water solubility, 16,000 mg/L(2), is 1.5X10-7 atm-cu m/mol(SRC). Using this value for the Henry's Law constant, one can estimate a volatilization half-life of 2-phenylethanol in a model river 1 m deep flowing at 1 m/s with a wind speed of 3 m/s is 46.5 days(3,SRC). 2-Phenylethanol's relatively low Henry's Law constant and vapor pressure suggest that volatilization from moist and dry soil surfaces will be minimal(SRC).
Literature: (1) Daubert TE, Danner RP; Data Compilation Tables of Properties of Pure Compounds NY, NY: Amer Inst for Phys Prop Data (1989) (2) Valvani SC et al; J Pharm Sci 70: 502-7 (1981) (3) Lyman WJ et al; Handbook of Chemical Property Estimation Methods, NY: McGraw-Hill Chapt 15 (1982)
Soil Adsorption
Using an estimation method based on molecular connectivity indices(1), the Koc for 2-phenylethanol is estimated to be 29(SRC). According to a suggested classification scheme(2), this Koc value suggests that 2-phenylethanol will have very high mobility in soil(SRC).
Literature: (1) Meylan WM et al; Environ Sci Technol 28: 459-65 (1992) (2) Swann RL et al; Res Rev 85: 23 (1983)
Vapor Pressure
PressureReference
8.68X10-2 mm Hg @ 25 deg C /from experimentally derived coefficients/Daubert, T.E., R.P. Danner. Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, D.C.: Taylor and Francis, 1989.
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaKlebsiella PneumoniaeNANAAhmed et al. 2023
ProkaryotaStaphylococcus AureusNANAAhmed et al. 2023
ProkaryotaStaphylococcus AureusNANAAhmed et al. 2023
EukaryotaCandida DubliniensisNANAMartins et al. 2007
EukaryotaCandida AlbicansNANAMartins et al. 2007
EukaryotaCandida ParapsilosisNANAFitzgerald et al. 2022
EukaryotaCandida AlbicansNANAFitzgerald et al. 2022
ProkaryotaEscherichia ColiNANAFitzgerald et al. 2021
EukaryotaAspergillus NigerNANACosta et al. 2016
EukaryotaCandida AlbicansNANACosta et al. 2016
EukaryotaPenicillium ChrysogenumNANACosta et al. 2016
ProkaryotaEscherichia ColiNANADevaraj et al. 2018
ProkaryotaEscherichia ColiNANADixon et al. 2022
EukaryotaCandida AlbicansNANAPerl et al. 2011
ProkaryotaProteus MirabilisNANAJünger et al. 2012
ProkaryotaStreptococcus AgalactiaeNANAJünger et al. 2012
ProkaryotaMycobacterium BovisNANAMcNerney et al. 2012
ProkaryotaEnterobacter CloacaeNALawal et al. 2018
EukaryotaPythium OligandrumN/APythium oligandrum GAQ1 strain was isolated from soil from a field where infected ginger was growing in Laiwu district, Jinan City, Shandong Province, China. China General Microbiological Culture Collection Center (CGMCC) deposit number No. 17470.Sheikh et al. 2023
ProkaryotaCorynebacterium Accolensclinical isolateLemfack et al. 2016
ProkaryotaCorynebacterium Jeikeiumclinical isolateLemfack et al. 2016
ProkaryotaCorynebacterium Minutissimumclinical isolate,trunk of adult femaleLemfack et al. 2016
ProkaryotaCorynebacterium Striatumclinical isolateLemfack et al. 2016
ProkaryotaStaphylococcus Schleifericlinical isolateLemfack et al. 2016
ProkaryotaStaphylococcus SciuriSouthernflying squirrel skinLemfack et al. 2016
ProkaryotaStaphylococcus Sciuriclinical isolateLemfack et al. 2016
ProkaryotaErwinia AmylovoraNACellini et al. 2018
ProkaryotaBacillus AcidicelerNAMéndez-Bravo et al. 2018
EukaryotaFusarium CulmorumNASchmidt et al. 2018
EukaryotaHypoxylon InvadensNADickschat et al. 2018
EukaryotaSaccharomyces CerevisiaeNACaballero Ortiz et al. 2018
ProkaryotaShigella SonneiChina Center of Industrial Culture collectionWang et al. 2018
ProkaryotaVibrio ParahaemolyticusChina Center of Industrial Culture collectionWang et al. 2018
EukaryotaAspergillus FischeriNADickschat et al. 2018
EukaryotaHypoxylon AnthochroumNAMacías-Rubalcava et al. 2018
EukaryotaFusarium Oxysporum0NALi et al. 2018
EukaryotaTrichoderma Harzianum0NALi et al. 2018
ProkaryotaBacillus Sp.antifungal activity against Fusarium solaniRhizosphere soil of avocadoGuevara-Avendaño et al. 2019
EukaryotaAureobasidium PullulansNAContarino et al. 2019
EukaryotaMetschnikowia PulcherrimaNAContarino et al. 2019
EukaryotaSaccharomyces CerevisiaeNAContarino et al. 2019
EukaryotaWickerhamomyces AnomalusNAContarino et al. 2019
EukaryotaCandida SakeKing George Island, South Shetland Islands, AntarcticaArrarte et al. 2017
EukaryotaFusarium OxysporumNALi et al. 2018
EukaryotaTrichoderma HarzianumNALi et al. 2018
ProkaryotaProteus Vulgarisrhizosphere of lahophyte plant, Glasswort (Salicornia herbacea L.)Yu et al. 2013
ProkaryotaBacillus SubtilisZhang et al. 2021
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
ProkaryotaPseudomonas Pseudoalcaligenespromotes the growth of Zea mays L. and confer the resistance to drought stress in this maizeApplied Microbiology and Biotechnology lab, Department of Biosciences, Comsats University IslamabadYasmin et al. 2021
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaEscherichia ColiLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaStenotrophomonas Maltophiliaantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)shoots of tomato plants (Elpida F1, Enza Zaden)López et al. 2021
ProkaryotaStaphylococcus Pasteuriantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)fruits of tomato plants (Elpida F1, Enza Zaden)López et al. 2021
ProkaryotaArthrobacter Ureafaciensantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaPantoea Vagansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaArthrobacter Phenanthrenivoransantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)shoots of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaRahnella Aquatilisantifungal activity on the mycelial growth of Colletotrichum gloeosporioidesisolate from the rhizosphere soil of a 28-year-old Pinus massoniana in Nanning, Guangxi; stored in the typical Culture Preservation Center of ChinaKong et al. 2020
EukaryotaGrosmannia ClavigeraNorthern Forestry Centre Culture Collection (Edmonton, Alberta), originally cultured from the phloem of MPB-infested lodgepole pine trees near Banff, AlbertaWang et al. 2020
EukaryotaOphiostoma Ipsisolated from bark beetle galleries in lodgepole pineWang et al. 2020
ProkaryotaStreptomyces Philanthiantifungal activity against Aspergillus parasiticus TISTR 3276 and Aspergillus flavus PSRDC-4NABoukaew and Prasertsan 2020
ProkaryotaCoraliitalea Coraliiisolate from the algal Chromera velia CCAP 1602/1Koteska et al. 2023
EukaryotaMalassezia GlobosaFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
EukaryotaMalassezia RestrictaFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
EukaryotaMalassezia SympodialisFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
ProkaryotaBacillus Cereuspromote fungal hypocrellin A production in Shiraia sp. S9isolate and deposite at the China General Microbiological Culture Collection Center (CGMCC)Xu et al. 2022
EukaryotaMetschnikowia Reukaufiiinhibitory and promoting effects on the growth of different microorganismsisolate from Aconitum piepunense, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaDebaryomyces Hanseniiinhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaMrakia Blollopisinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaTausonia Pullulansinhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystofilobasidium Sp.inhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystofilobasidium Capitatuminhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaGoffeauzyma Gilvescensinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaRhodotorula Mucilaginosainhibitory and promoting effects on the growth of different microorganismsisolate from Dryas octopetala, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaSporidiobolus Salmonicolorinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystobasidium Laryngisinhibitory and promoting effects on the growth of different microorganismsisolate from Cerasticum arcticum, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
ProkaryotaStaphylococcus AureusNational collection of type cultures (NCTC) UKTait et al. 2014
ProkaryotaStaphylococcus Aureusn/aNAPreti et al. 2009
EukaryotaHypoxylon AnthochroumNAUlloa-Benítez et al. 2016
EukaryotaFusarium Sp.NATakeuchi et al. 2012
EukaryotaAspergillus Sp.NASeifert and King 1982
EukaryotaPenicillium Sp.NABrock and Dickschat 2013
EukaryotaTrichoderma Sp.NAStoppacher et al. 2010
EukaryotaChaetomium GlobosumNAKikuchi et al. 1983
EukaryotaLasiodiplodia TheobromaeNAMatsumoto and Nago 1994
EukaryotaTuber Sp.NASplivallo et al. 2007
ProkaryotaMyxobacterium Sp.n/aNASchulz and Dickschat 2007
ProkaryotaRoseobacter Claden/aNASchulz and Dickschat 2007
ProkaryotaStaphylococcus Xylosusn/aNASchulz and Dickschat 2007
ProkaryotaStreptomyces Sp.n/aNASchulz and Dickschat 2007
ProkaryotaCitrobacter Sp.n/aNASchulz and Dickschat 2007
ProkaryotaEnterobacter Sp.n/aNASchulz and Dickschat 2007
ProkaryotaEscherichia Sp.n/aNASchulz and Dickschat 2007
ProkaryotaKlebsiella Sp.n/aNASchulz and Dickschat 2007
ProkaryotaArctic Bacteriumn/aNASchulz and Dickschat 2007
ProkaryotaStreptomyces Albidoflavusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Sp.n/aNASchöller et al. 2002
ProkaryotaStreptomyces Antibioticusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Diastatochromogenesn/aNASchöller et al. 2002
ProkaryotaStreptomyces Griseusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Hirsutusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Hygroscopicusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Murinusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Olivaceusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Thermoviolaceusn/aNASchöller et al. 2002
ProkaryotaStreptomycetes Sp.n/aNAStritzke et al. 2004
ProkaryotaStreptomyces Sp.n/aNADickschat et al. 2005_2
ProkaryotaChondromyces Crocatusn/aNASchulz et al. 2004
ProkaryotaCytophaga-Flavobacterium-Bacteroidesn/aNADickschat et al. 2005_3
ProkaryotaLoktanella Sp.n/aNADickschat et al. 2005_4
ProkaryotaDinoroseobacter Shibaen/aNADickschat et al. 2005_4
ProkaryotaNannocystis Exedensn/aNADickschat et al. 2007
ProkaryotaStigmatella Aurantiacan/aNADickschat et al. 2005_5
ProkaryotaLactobacillus Casein/aNATracey and Britz 1989
ProkaryotaLactobacillus Plantarumn/aNATracey and Britz 1989
ProkaryotaPediococcus Damnosusn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Cremorisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Dextranicumn/aNATracey and Britz 1989
ProkaryotaLactococcus Lactisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Mesenteroidesn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Paramesenteroidesn/aNATracey and Britz 1989
ProkaryotaOenococcus Oenin/aNATracey and Britz 1989
ProkaryotaSerratia Plymuthican/aNAWeise et al. 2014
ProkaryotaSerratia Proteamaculansn/aNAWeise et al. 2014
ProkaryotaSerratia Marcescensn/aNAWeise et al. 2014
ProkaryotaSerratia Odoriferan/aNAWeise et al. 2014
EukaryotaTuber Mesentericumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Aestivumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber BorchiiInhibit the development of Arabidopsis thaliana and modify its oxidative metabolismNASplivallo et al. 2007
ProkaryotaBacillus Cereusn/aNABlom et al. 2011
ProkaryotaBurkholderia Andropogonisn/aNABlom et al. 2011
ProkaryotaCellulomonas Udan/aNABlom et al. 2011
ProkaryotaEscherichia Colin/aNABlom et al. 2011
ProkaryotaPseudomonas Fluorescensn/aNABlom et al. 2011
ProkaryotaSerratia Entomophilan/aNABlom et al. 2011
ProkaryotaSerratia Marcescensn/aNABlom et al. 2011
ProkaryotaSerratia Plymuthican/aNABlom et al. 2011
ProkaryotaSerratia Proteamaculansn/aNABlom et al. 2011
ProkaryotaStenotrophomonas Rhizophilan/aNABlom et al. 2011
ProkaryotaBurkholderia Caledonican/aNABlom et al. 2011
ProkaryotaBurkholderia Caribensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Caryophyllin/aNABlom et al. 2011
ProkaryotaBurkholderia Cepacian/aNABlom et al. 2011
ProkaryotaBurkholderia Fungorumn/aNABlom et al. 2011
ProkaryotaBurkholderia Gladiolin/aNABlom et al. 2011
ProkaryotaBurkholderia Glumaen/aNABlom et al. 2011
ProkaryotaBurkholderia Graminisn/aNABlom et al. 2011
ProkaryotaBurkholderia Hospitan/aNABlom et al. 2011
ProkaryotaBurkholderia Kururiensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Latan/aNABlom et al. 2011
ProkaryotaBurkholderia Phenaziniumn/aNABlom et al. 2011
ProkaryotaBurkholderia Phenoliruptrixn/aNABlom et al. 2011
ProkaryotaBurkholderia Phytofirmansn/aNABlom et al. 2011
ProkaryotaBurkholderia Pyrrocinian/aNABlom et al. 2011
ProkaryotaBurkholderia Saccharin/aNABlom et al. 2011
ProkaryotaBurkholderia Sordidicolan/aNABlom et al. 2011
ProkaryotaBurkholderia Terricolan/aNABlom et al. 2011
ProkaryotaBurkholderia Thailandensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Xenovoransn/aNABlom et al. 2011
ProkaryotaXanthomonas Campestrisn/aNAWeise et al. 2012
EukaryotaTuber MelanosporumInhibit the development of Arabidopsis thaliana and modify its oxidative metabolismNASplivallo et al. 2007
EukaryotaTuber IndicumInhibit the development of Arabidopsis thaliana and modify its oxidative metabolismNASplivallo et al. 2007
EukaryotaSaccharomyces Cerevisiaecontrol citrus black spot disease fermentation processesToffano et al. 2017
ProkaryotaEscherichia ColiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
EukaryotaAureobasidium PullulansapplesDavis et al. 2012
ProkaryotaCitrobacter FreundiiAmerican Type Culture Collection Robacker and Bartelt 1997
ProkaryotaKlebsiella PneumoniaeAmerican Type Culture Collection Robacker and Bartelt 1997
ProkaryotaEnterobacter AgglomeransNARobacker and Lauzon 2002
EukaryotaPenicillium CorymbiferumNAPierce et al. 1991
EukaryotaScopulariopsis BrevicaulisNAPierce et al. 1991
EukaryotaFusarium Sp.NAPierce et al. 1991
EukaryotaSaccharomyces Cerevisiaegrape vineBecher et al. 2012
ProkaryotaSalinispora Tropicanamarine sedimentGroenhagen et al. 2016
EukaryotaAureobasidium Pullulansattracts waspsisolated from apples (with lepidopteran orchard pests)Davis et al. 2012
EukaryotaPenicillium Polonicumnawater damaged buildings, BelgiumPolizzi et al. 2012
EukaryotaAspergillus Ustusnawater damaged buildings, BelgiumPolizzi et al. 2012
EukaryotaPericonia Britannicanawater damaged buildings, BelgiumPolizzi et al. 2012
EukaryotaTrichoderma Atroviridenawater damaged buildings, BelgiumPolizzi et al. 2012
ProkaryotaBurkholderia CepaciaRhizosphereBlom et al. 2011
ProkaryotaBurkholderia KururiensisRhizosphereBlom et al. 2011
ProkaryotaStreptococcus PneumoniaeclinicPreti et al. 2009
ProkaryotaBranhamella CatarrhalisclinicPreti et al. 2009
ProkaryotaStenotrophomonas MaltophiliaclinicPreti et al. 2009
EukaryotaHansenula Holstiiwhole beetles, beetle guts, loblolly pineBrand et al. 1977
EukaryotaPhoma Sp.n/aNAStrobel et al. 2011
ProkaryotaStaphylococcus Sciurinafrom the gut flora of pea aphid Acyrthosiphon pisum honeydewLeroy et al. 2011
ProkaryotaPseudomonas Simiaenarhizosphere of a soybean field in the province of Rajasthan, IndiaVaishnav et al. 2016
EukaryotaPhomopsis Sp.naendophyte of Odontoglossum sp.Singh et al. 2011
EukaryotaTuber Aestivumn/aT. melanosporum was from the cultivated truffle zones in the province and T. aestivum from the natural truffle zones in the same regionCullere et al. 2010
EukaryotaTuber Melanosporumn/aT. melanosporum was from the cultivated truffle zones in the province and T. aestivum from the natural truffle zones in the same regionCullere et al. 2010
ProkaryotaSerratia Plymuthican/aNAKai et al. 2007
ProkaryotaStaphylococcus Epidermidisn/aNAKai et al. 2007
ProkaryotaStenotrophomonas Rhizophilan/aNAKai et al. 2007
ProkaryotaEnterobacter Cloacaen/aNAArnold and Senter 1998
ProkaryotaPseudomonas Aeruginosan/aNAArnold and Senter 1998
ProkaryotaProteus HauseriNematicidal activitycow dungXU et al. 2015
ProkaryotaWautersiella FalseniiNematicidal activitycow dungXU et al. 2015
EukaryotaPhellinus Sp.n/aNAStotzky and Schenck 1976
EukaryotaTuber Aestivumn/aAgricultural Centre of Castilla and León Community (Monasterio de la Santa Espina, Valladolid, Spain) and Navaleno (Soria, Spain).Diaz et al. 2003
EukaryotaTuber Melanosporumn/aAgricultural Centre of Castilla and León Community (Monasterio de la Santa Espina, Valladolid, Spain) and Navaleno (Soria, Spain).Diaz et al. 2003
EukaryotaSaccharomyces Cerevisiaen/aNABruce et al. 2004
EukaryotaMuscodor Albusn/aNACorcuff et al. 2011
EukaryotaAscocoryne Sarcoidesn/aNAMallette et al.  2012
EukaryotaTrichoderma Atroviriden/aNAStoppacher et al. 2010
ProkaryotaAzospirillum Brasilensepromotion of performance of Chlorella sorokiniana Shihculture collection DSMZ 1843Amavizca et al. 2017
ProkaryotaBacillus Pumiluspromotion of performance of Chlorella sorokiniana ShihNAAmavizca et al. 2017
ProkaryotaEscherichia Colipromotion of performance of Chlorella sorokiniana ShihNAAmavizca et al. 2017
EukaryotaTrichoderma VirensNACrutcher et al. 2013
EukaryotaTrichoderma AtrovirideNACrutcher et al. 2013
EukaryotaTrichoderma ReeseiNACrutcher et al. 2013
EukaryotaPhoma Sp.nanaNaznin et al. 2014
EukaryotaAmpelomyces Sp.nanaNaznin et al. 2014
EukaryotaHypoxylon Anthochroumnaendophytic in Bursera lancifoliaUlloa-Benítez et al. 2016
EukaryotaXylaria Sp.naHaematoxylon brasiletto, Morelos, MexicoSánchez-Ortiz et al. 2016
EukaryotaVerticillium Longisporumcollection TU GrazRybakova et al. 2017
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaCryptococcus NemorosusNANALjunggren et al. 2019
EukaryotaMetschnikowia AndauensisNANALjunggren et al. 2019
EukaryotaMetschnikowia SaccharicolaNANALjunggren et al. 2019
EukaryotaZygosaccharomyces RouxiiNANAPei et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAGe et al. 2021
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
ProkaryotaAchromobacter Sp.NANAAlmeida et al. 2022
ProkaryotaSerratia Sp.NANAAlmeida et al. 2022
ProkaryotaEnterobacter Sp.NANAAlmeida et al. 2022
ProkaryotaEscherichia ColiNANAAlmeida et al. 2022
EukaryotaSaccharomyces EubayanusNANAMardones et al. 2022
EukaryotaAureobasidium PullulansNANAMozūraitis et al. 2022
EukaryotaCryptococcus WieringaeNANAMozūraitis et al. 2022
EukaryotaHanseniaspora UvarumNANAMozūraitis et al. 2022
EukaryotaPichia KudriavzeviiNANAMozūraitis et al. 2022
EukaryotaPichia FermentansNANAMozūraitis et al. 2022
EukaryotaPichia KluyveriNANAMozūraitis et al. 2022
EukaryotaPichia MembranifaciensNANAMozūraitis et al. 2022
EukaryotaSaccharomyces ParadoxusNANAMozūraitis et al. 2022
EukaryotaTorulaspora DelbrueckiiNANAMozūraitis et al. 2022
EukaryotaPichia AnomalaNANAMozūraitis et al. 2022
EukaryotaMetschnikowia PulcherrimaNANAMozūraitis et al. 2022
ProkaryotaStaphylococcus EquorumNANAToral et al. 2021
ProkaryotaBacillus AtrophaeusNANAToral et al. 2021
ProkaryotaPeribacillus Sp.NANAToral et al. 2021
EukaryotaWickerhamomyces AnomalusNANAShi et al. 2022
ProkaryotaBacillus SubtilisNANALee et al. 2023
EukaryotaSaccharomyces EubayanusNANAUrbina et al. 2020
EukaryotaSaccharomyces EubayanusNANAMardones et al. 2020
EukaryotaMeyerozyma GuilliermondiiNANAZhao et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAZhao et al. 2022
EukaryotaSaccharomycopsis ViniNANAZhao et al. 2022
EukaryotaSaturnispora DiversaNANAZhao et al. 2022
EukaryotaWickerhamomyces AnomalusNANAZhao et al. 2022
EukaryotaHanseniaspora ValbyensisNANATran et al. 2022
EukaryotaPhytophthora CinnamomiN/APhytophthora cinnamomiQiu R et al. 2014
EukaryotaPhytophthora RamorumN/APhytophthora ramorumLoulier et al. 2020
Meyerozyma GuilliermondiiXiong et al. 2023
Kluyveromyces MarxianusJi et al. 2024
Saccharomyces CerevisiaeJi et al. 2024
Cyberlindnera FabianiiMa et al. 2023
Debaryomyces HanseniiLi et al. 2023
Citrobacter FreundiiTallon et al. 2023
Enterobacter AgglomeransTallon et al. 2023
Enterobacter CloacaeTallon et al. 2023
Klebsiella OxytocaTallon et al. 2023
Pediococcus AcidilacticiMockus et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaKlebsiella PneumoniaeNBTD/GC-MSno
ProkaryotaStaphylococcus AureusDMEMTD/GC-MSno
ProkaryotaStaphylococcus AureusNBTD/GC-MSno
EukaryotaCandida DubliniensisRPMISPME/GC-MSno
EukaryotaCandida AlbicansRPMISPME/GC-MSno
EukaryotaCandida ParapsilosisTSBSPME/GC-MSno
EukaryotaCandida AlbicansYPDSPME/GC-MSno
EukaryotaCandida ParapsilosisYPDSPME/GC-MSno
EukaryotaCandida AlbicansTSBSPME/GC-MSno
ProkaryotaEscherichia ColiLBSPME/GC-MSno
ProkaryotaEscherichia ColiTSBSPME/GC-MSno
ProkaryotaEscherichia ColiBHISPME/GC-MSno
EukaryotaAspergillus NigerYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaCandida AlbicansYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaPenicillium ChrysogenumYeast Glucose ChloramphenicolSPME/GCxGC-MSno
ProkaryotaEscherichia ColiTSATD/GC-MSno
ProkaryotaEscherichia ColiLBTD/GC-MSno
EukaryotaCandida AlbicansColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaProteus MirabilisColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaStreptococcus AgalactiaeColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaMycobacterium BovisLG + glycerolTD/GC-MS and SIFT-MSno
ProkaryotaEnterobacter CloacaeLevine EMB agar (LEA) (Fluka Analytical, UK)GC-MSno
EukaryotaPythium OligandrumV8 juice agarSPME/GC-MS/MSyes
ProkaryotaCorynebacterium Accolensbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaCorynebacterium Jeikeiumbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaCorynebacterium Minutissimumbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaCorynebacterium Striatumbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaStaphylococcus Schleiferibrain heart infusion mediumPorapak / GC/MSno
ProkaryotaStaphylococcus Sciuribrain heart infusion mediumPorapak / GC/MSno
ProkaryotaErwinia AmylovoraLuria-Bertani (LB)PTR-MS / SPME / GC-MSno
ProkaryotaBacillus AcidicelerLB agarSPME / GS-MSno
EukaryotaFusarium CulmorumKing`s B agarUPLC-MSno
EukaryotaHypoxylon InvadensYMG mediumCSLA-GCMSyes
EukaryotaSaccharomyces Cerevisiaemedium malt extract agar ± SucroseHS-SPME, GC-MSno
ProkaryotaShigella SonneiSodium chloride brothSPME, GC-MSno
ProkaryotaVibrio ParahaemolyticusSodium chloride brothSPME, GC-MSno
EukaryotaAspergillus Fischerimedium 129CLSA-GCMSyes
EukaryotaHypoxylon Anthochroumrice medium (RM, 300g of rice and 300ml of water)SPME, GC-MSyes
EukaryotaFusarium OxysporumPDA plateSPME-GC-MSno
EukaryotaTrichoderma HarzianumPDA plateSPME-GC-MSno
ProkaryotaBacillus Sp.LB agarSPME-GC-MSno
EukaryotaAureobasidium PullulansYPDA(HS)-SPME/GC-MSno
EukaryotaMetschnikowia PulcherrimaYPDA(HS)-SPME/GC-MSno
EukaryotaSaccharomyces CerevisiaeYPDA(HS)-SPME/GC-MSno
EukaryotaWickerhamomyces AnomalusYPDA(HS)-SPME/GC-MSno
EukaryotaCandida SakeYeast Nitrogen base with 1% pectinSPME / GCMSno
EukaryotaFusarium Oxysporumpotato dextrose agarSPME, GC-MSno
EukaryotaTrichoderma Harzianumpotato dextrose agarSPME, GC-MSno
ProkaryotaProteus VulgarisLB agarSPME, GC-MSno
ProkaryotaBacillus SubtilisLB mediaHS-SPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaHS-SPME/GC-MSno
ProkaryotaPseudomonas PseudoalcaligenesLB mediaSPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaEscherichia ColiTSB mediaHS-SPME/GC-MSno
ProkaryotaStenotrophomonas MaltophiliaTYB mediaGC-MSno
ProkaryotaStaphylococcus PasteuriTYB mediaGC-MSno
ProkaryotaArthrobacter UreafaciensTYB mediaGC-MSno
ProkaryotaPantoea VagansTYB mediaGC-MSno
ProkaryotaArthrobacter PhenanthrenivoransTYB mediaGC-MSno
ProkaryotaRahnella AquatilisLB mediaHS-SPME/GC-MSyes
EukaryotaGrosmannia ClavigeraPDA mediaGC-MSno
EukaryotaOphiostoma IpsPDA mediaGC-MSno
ProkaryotaStreptomyces Philanthisterile wheat seedsGC-MSno
ProkaryotaCoraliitalea Coraliimarine broth agarOSSA/GC-MSno
EukaryotaMalassezia Globosamodified Dixon agarHS-SPME/GC-MSno
EukaryotaMalassezia Restrictamodified Dixon agarHS-SPME/GC-MSno
EukaryotaMalassezia Sympodialismodified Dixon agarHS-SPME/GC-MSno
ProkaryotaBacillus CereusLB agarHS-SPME/GC-MSyes
ProkaryotaBacillus CereusLB agarHS-SPME/GC-MSno
EukaryotaMetschnikowia Reukaufiiartificial nectar mediaGC-MSno
EukaryotaDebaryomyces Hanseniiartificial nectar mediaGC-MSno
EukaryotaMrakia Blollopisartificial nectar mediaGC-MSno
EukaryotaTausonia Pullulansartificial nectar mediaGC-MSno
EukaryotaCystofilobasidium Sp.artificial nectar mediaGC-MSno
EukaryotaCystofilobasidium Capitatumartificial nectar mediaGC-MSno
EukaryotaGoffeauzyma Gilvescensartificial nectar mediaGC-MSno
EukaryotaRhodotorula Mucilaginosaartificial nectar mediaGC-MSno
EukaryotaSporidiobolus Salmonicolorartificial nectar mediaGC-MSno
EukaryotaCystobasidium Laryngisartificial nectar mediaGC-MSno
ProkaryotaStaphylococcus Aureusblood/choclate agarGC-Ms flame photometric detectorno
ProkaryotaStaphylococcus AureusBlood agar/chocolate blood agaHS-SPME/GC-MS no
EukaryotaHypoxylon Anthochroumno
EukaryotaFusarium Sp.no
EukaryotaAspergillus Sp.no
EukaryotaPenicillium Sp.no
EukaryotaTrichoderma Sp.no
EukaryotaChaetomium Globosumno
EukaryotaLasiodiplodia Theobromaeno
EukaryotaTuber Sp.no
ProkaryotaMyxobacterium Sp.n/an/ano
ProkaryotaRoseobacter Claden/an/ano
ProkaryotaStaphylococcus Xylosusn/an/ano
ProkaryotaStreptomyces Sp.n/an/ano
ProkaryotaCitrobacter Sp.n/an/ano
ProkaryotaEnterobacter Sp.n/an/ano
ProkaryotaEscherichia Sp.n/an/ano
ProkaryotaKlebsiella Sp.n/an/ano
ProkaryotaArctic Bacteriumn/an/ano
ProkaryotaStreptomyces Albidoflavusn/an/ano
ProkaryotaStreptomyces Antibioticusn/an/ano
ProkaryotaStreptomyces Diastatochromogenesn/an/ano
ProkaryotaStreptomyces Griseusn/an/ano
ProkaryotaStreptomyces Hirsutusn/an/ano
ProkaryotaStreptomyces Hygroscopicusn/an/ano
ProkaryotaStreptomyces Murinusn/an/ano
ProkaryotaStreptomyces Olivaceusn/an/ano
ProkaryotaStreptomyces Thermoviolaceusn/an/ano
ProkaryotaStreptomycetes Sp.n/an/ano
ProkaryotaChondromyces Crocatusn/an/ano
ProkaryotaCytophaga-Flavobacterium-Bacteroidesn/an/ano
ProkaryotaLoktanella Sp.n/an/ano
ProkaryotaDinoroseobacter Shibaen/an/ano
ProkaryotaNannocystis Exedensn/an/ano
ProkaryotaStigmatella Aurantiacan/an/ano
ProkaryotaLactobacillus Casein/an/ano
ProkaryotaLactobacillus Plantarumn/an/ano
ProkaryotaPediococcus Damnosusn/an/ano
ProkaryotaLeuconostoc Cremorisn/an/ano
ProkaryotaLeuconostoc Dextranicumn/an/ano
ProkaryotaLactococcus Lactisn/an/ano
ProkaryotaLeuconostoc Mesenteroidesn/an/ano
ProkaryotaLeuconostoc Paramesenteroidesn/an/ano
ProkaryotaOenococcus Oenin/an/ano
ProkaryotaSerratia PlymuthicaNBIIHeadspace trapping/ GC-MSno
ProkaryotaSerratia ProteamaculansNBIIHeadspace trapping/ GC-MSno
ProkaryotaSerratia MarcescensNBIIHeadspace trapping/ GC-MSno
ProkaryotaSerratia OdoriferaNBIIHeadspace trapping/ GC-MSno
EukaryotaTuber Mesentericumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Aestivumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Borchiin/an/ano
ProkaryotaBacillus CereusLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia AndropogonisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaCellulomonas UdaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaEscherichia ColiLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas FluorescensMR-VP Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia EntomophilaLB, MR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia MarcescensLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia PlymuthicaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia PlymuthicaMR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia ProteamaculansLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaStenotrophomonas RhizophilaLB, MR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaledonicaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaribensisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaryophylliLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CepaciaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia FungorumMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GladioliMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GlumaeLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GraminisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia HospitaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia KururiensisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia LataMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenaziniumLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenoliruptrixLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhytofirmansLBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PyrrociniaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SacchariLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SordidicolaAngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia TerricolaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia ThailandensisMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia XenovoransMS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaXanthomonas CampestrisNBIIClosed airflow-system/GC-MS and PTR-MSno
EukaryotaTuber Melanosporumn/an/ano
EukaryotaTuber Indicumn/an/ano
EukaryotaSaccharomyces CerevisiaeYEPDAGC/MSno
ProkaryotaEscherichia ColiTS brothGC-MS Super Qno
EukaryotaAureobasidium PullulansSabouraud dextrose agarGC-MSyes
ProkaryotaCitrobacter Freundiitryptic soy broth SPME, GC-MSyes
ProkaryotaKlebsiella Pneumoniaetryptic soy broth SPME, GC-MSyes
ProkaryotaEnterobacter Agglomeransno
EukaryotaPenicillium CorymbiferumGC-FIDyes
EukaryotaScopulariopsis BrevicaulisGC-FIDyes
EukaryotaFusarium Sp.GC-FIDyes
EukaryotaSaccharomyces Cerevisiaesynthetic minimal mediumGC-MS, EIyes
ProkaryotaSalinispora Tropicaseawater-based A1GC/MSno
EukaryotaAureobasidium PullulansSabouraud Dextrose AgarGC/FIDyes
EukaryotaPenicillium Polonicummalt extract agar; potato dextrose agar; water agar; yeast extract agar; Czapek agarSPME-GC/MSno
EukaryotaAspergillus Ustusmalt extract agar; potato dextrose agar; water agar; yeast extract agar; Czapek agarSPME-GC/MSno
EukaryotaPericonia Britannicamalt extract agar; potato dextrose agar; water agar; yeast extract agar; Czapek agarSPME-GC/MSno
EukaryotaTrichoderma Atroviridemalt extract agar; potato dextrose agar; water agar; yeast extract agar; Czapek agarSPME-GC/MSno
ProkaryotaBurkholderia CepaciaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)yes
ProkaryotaBurkholderia KururiensisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)yes
ProkaryotaStreptococcus PneumoniaeBlood agar/chocolate blood agaHS-SPME/GC-MS no
ProkaryotaBranhamella CatarrhalisBlood agar/chocolate blood agaHS-SPME/GC-MS no
ProkaryotaStenotrophomonas MaltophiliaBlood agar/chocolate blood agaHS-SPME/GC-MS no
EukaryotaHansenula HolstiiPYGGC-MSno
EukaryotaPhoma Sp.n/aSolid phase microextraction (SPME)no
ProkaryotaStaphylococcus Sciuri877 liquid mediumSPME-GC/MSno
ProkaryotaPseudomonas SimiaeNutrient broth; King's B agarGC/MSno
EukaryotaPhomopsis Sp.PDA mediumSPME-GC/MSyes
EukaryotaTuber Aestivumn/aGas chromatography-olfactometry (GC-O)no
EukaryotaTuber Melanosporumn/aGas chromatography-olfactometry (GC-O)no
ProkaryotaSerratia Plymuthican/an/ano
ProkaryotaStaphylococcus Epidermidisn/an/ano
ProkaryotaStenotrophomonas Rhizophilan/an/ano
ProkaryotaEnterobacter CloacaeHS-SPME/GC-MS no
ProkaryotaPseudomonas AeruginosaHS-SPME/GC-MS no
ProkaryotaProteus HauseriLB liquidSPME-GC/MSno
ProkaryotaWautersiella FalseniiLB liquidSPME-GC/MSno
EukaryotaPhellinus Sp.n/an/ano
EukaryotaTuber Aestivumn/an/ano
EukaryotaSaccharomyces Cerevisiaen/an/ano
EukaryotaMuscodor Albusn/aHeadspace sampler/GC-MSno
EukaryotaAscocoryne SarcoidesMinimal mediumPTR-MS and SPME GC-MSno
EukaryotaTrichoderma AtroviridePotato dextrose agarHS-SPME/GC-MS no
ProkaryotaAzospirillum BrasilenseTSASPME-GCno
ProkaryotaBacillus PumilusTSASPME-GCno
ProkaryotaEscherichia ColiTSASPME-GCno
EukaryotaTrichoderma VirensPotato dextrose agarHS-SPME/GC-MS no
EukaryotaTrichoderma AtroviridePotato dextrose agarHS-SPME/GC-MS no
EukaryotaTrichoderma ReeseiPotato dextrose agarHS-SPME/GC-MS no
EukaryotaPhoma Sp.naSPME-GC/MSno
EukaryotaAmpelomyces Sp.naSPME-GC/MSno
EukaryotaHypoxylon AnthochroumPDA/WA + 500 mg l^-1 ChloramphenicolSPME-GC/MSyes
EukaryotaXylaria Sp.PDA mediumSPME-GC/MSyes
EukaryotaVerticillium Longisporumpotato dextrose agar (PDA), Czapek Dox liquid cultureGC-MS / SPMEno
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaCryptococcus Nemorosusliquid YPD mediumGC-MSno
EukaryotaMetschnikowia Andauensisliquid YPD mediumGC-MSno
EukaryotaMetschnikowia Saccharicolaliquid YPD mediumGC-MSno
EukaryotaZygosaccharomyces RouxiiYPD mediumGC-MSno
EukaryotaSaccharomyces Cerevisiaegrape juiceLC-15C HPLCno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
ProkaryotaAchromobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaSerratia Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaEnterobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaEscherichia ColiLB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
EukaryotaSaccharomyces EubayanusYPD agar media (yeast extract 1%, peptone 2%, glucose 2% and agar 2%)HS‐SPME‐GC‐MSno
EukaryotaAureobasidium PullulansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaCryptococcus WieringaeYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaHanseniaspora UvarumYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KudriavzeviiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia FermentansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KluyveriYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia MembranifaciensYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaSaccharomyces ParadoxusYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaTorulaspora DelbrueckiiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia AnomalaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaMetschnikowia PulcherrimaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
ProkaryotaStaphylococcus EquorumSchaeffer’s growth (SG) mediumHS-SPME-GC/MSno
ProkaryotaStaphylococcus Equorumtryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
ProkaryotaBacillus AtrophaeusMOLPHS-SPME-GC/MSno
ProkaryotaPeribacillus Sp.MOLPHS-SPME-GC/MSno
EukaryotaWickerhamomyces Anomalusmedium consisted of glucose (20 g/l), peptone (5 g/l), agar (20 g/l) and amoxicillin (1 g/l)SPME with GC-MSno
ProkaryotaBacillus SubtilisTryptone soy broth (TSB)HPLCno
EukaryotaSaccharomyces Eubayanusbeer wortHS-SPME-GC-MSno
EukaryotaSaccharomyces Eubayanusbeer wortHS‐GC‐FIDno
EukaryotaMeyerozyma Guilliermondiisynthetic grape juiceHS-SPMEno
EukaryotaSaccharomyces Cerevisiaesynthetic grape juiceHS-SPMEno
EukaryotaSaccharomycopsis Vinisynthetic grape juiceHS-SPMEno
EukaryotaSaturnispora Diversasynthetic grape juiceHS-SPMEno
EukaryotaWickerhamomyces Anomalussynthetic grape juiceHS-SPMEno
EukaryotaHanseniaspora Valbyensissugared green and black teaHS-SPME-GC/MSno
EukaryotaPhytophthora CinnamomiPotato Dextrose Agar,V8 juice agarSPME/GC-MS/MSno
EukaryotaPhytophthora RamorumPotato Dextrose AgarSPME/GC-MS/MSstandard
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno
Kluyveromyces MarxianusSauce Meat during StorageSPME–GC–MSno
Saccharomyces CerevisiaeSauce Meat during StorageSPME–GC–MSno
Cyberlindnera Fabianiituna cooking liquidHS-SPME-GC/MSno
Debaryomyces Hanseniimeat with pork lardGC-MSno
Citrobacter Freundiitryptone soya broth (TSB) mediaSPME/GC/MSno
Enterobacter Agglomeranstryptone soya broth (TSB) mediaSPME/GC/MSno
Enterobacter Cloacaetryptone soya broth (TSB) mediaSPME/GC/MSno
Klebsiella Oxytocatryptone soya broth (TSB) mediaSPME/GC/MSno
Citrobacter Freundiitryptone soya broth (TSB) mediaTenax/GC/MSno
Pediococcus Acidilacticilentils (Lens culinaris)SPME/ICP-MSno


Compound Details

Synonymous names
octane
n-octane
111-65-9
Oktan
Oktanen
Ottani
n-Oktan
Oktanen [Dutch]
Oktan [Polish]
Ottani [Italian]
HSDB 108
UNII-X1RV0B2FJV
X1RV0B2FJV
NSC 9822
EINECS 203-892-1
DTXSID0026882
CHEBI:17590
AI3-28789
NSC-9822
MFCD00009556
DTXCID406882
CH3-[CH2]6-CH3
EC 203-892-1
Heptane, methyl-
Octane, all isomers
CH3-(CH2)6-CH3
octano
Normal octane
normal-Octane
octan
Octanes
Octil
MG8
OTTANE
OCTANE [INCI]
N-OCTANE [HSDB]
OCTANE [MI]
bmse000480
Octane, analytical standard
WLN: 8H
Octane, anhydrous, >=99%
Octane, reagent grade, 98%
n-C8H18
Octane, p.a., 99.0%
CHEMBL134886
NSC9822
Octane; NSC 9822; n-Octane
Tox21_202452
c0044
LMFA11000002
AKOS015904009
MCULE-3248084959
NCGC00249228-01
NCGC00260001-01
CAS-111-65-9
LS-13532
NS00006444
O0022
O0118
O0151
Octane, puriss. p.a., >=99.0% (GC)
C01387
Q150681
J-002613
F0001-0244
EEE64B73-0375-4303-AFD5-0795361807FF
InChI=1/C8H18/c1-3-5-7-8-6-4-2/h3-8H2,1-2H
Octane, electronic grade, >=99.999% metals basis, >=99% (CP)
31372-91-5
9065-92-3
Microorganism:

Yes

IUPAC nameoctane
SMILESCCCCCCCC
InchiInChI=1S/C8H18/c1-3-5-7-8-6-4-2/h3-8H2,1-2H3
FormulaC8H18
PubChem ID356
Molweight114.23
LogP3.9
Atoms8
Bonds5
H-bond Acceptor0
H-bond Donor0
Chemical Classificationalkanes aliphatics aliphatic compounds saturated unsaturated hydrocarbons
CHEBI-ID17590
Supernatural-IDSN0361143

mVOC Specific Details

Boiling Point
DegreeReference
125.62 °C peer reviewed
Volatilization
The Henry's Law constant for n-octane is estimated as 3.2 atm-cu m/mole(SRC) derived from its vapor pressure, 14.1 mm Hg(1), and water solubility, 0.66 mg/L(2). This Henry's Law constant indicates that n-octane is expected to volatilize rapidly from water surfaces(3). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(3) is estimated as 3 hours(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(3) is estimated as 4.2 days(SRC). Volatilization from water surfaces may be attenuated by adsorption to suspended solids and sediment in the water column(SRC). The estimated volatilization half-life from a model pond is 11 months if adsorption is considered(4). However, in a study using a jet fuel mixture and sterile freshwater controls from the Escambia River (Florida), a 99% loss of n-octane was attributed to evaporation at 25 deg C(5). n-Octane's estimated Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). The disappearance of n-octane was rapid in soil/water mixture (concentration of soil, 25 g/150 mL)(6); an initial concentration of 0.177 ug/mL n-octane disappeared completely in 5 days using a sterile sandy loam soil with an organic matter content of 5.1%(6). The potential for volatilization of n-octane from dry soil surfaces may exist(SRC) based upon its vapor pressure(1).
Literature: (1) Yaws CL; Handbook of Vapor Pressure. Houston, TX: Gulf Pub Co. 3: 78 (1994) (2) Yalkowsky SH, He Y, eds; Handbook of aqueous solubility data. Boca Raton, FL: CRC Press p. 536 (2003) (3) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (4) US EPA; EXAMS II Computer Simulation (1987) (5) Spain JC et al; Degrad of Jet Fuel Hydrocarbons by Aquatic Microbial Communities. Tyndall AFB, FL: Air Force Eng Serv Ctr. AFESC/ESL-TR-83-26 (NTIS AD-A139791/8) p 226 (1983) (6) Dean-Ross D; Bull Environ Contam Toxicol 51: 596-99 (1993)
Soil Adsorption
The Koc of n-octane is estimated as 3.1X10+4(SRC), using a log Kow of 5.18(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that n-octane is expected to be immobile in soil. Freundlich absorption coefficients of log 4.04 and log 3.49 were measured in Oberlausitz lignite (11.1% moisture content; 53.5 wt% carbon content; 0.6 wt % nitrogen content) and Pahokee peat soil (10.2% moisture content; 46.1 wt% carbon content; 3.3 wt % nitrogen content), respectively(4). Gaseous transport of volatile n-octane in unsaturated porous media was shown to be influenced by air-water interfacial adsorption and water-partitioning(5). Sorption of n-octane from air to snow was measured, resulting in a sorption coefficient of log -4.41 cu m/sq m at -6.8 deg C(6).
Literature: (1) Miller MM et al; Environ Sci Technol 19:522-9 (1985) (2) US EPA; Estimation Program Interface (EPI) Suite. Ver. 4.1. Nov, 2012. Available from, as of Oct 30, 2013: http://www.epa.gov/oppt/exposure/pubs/episuitedl.htm (3) Swann RL et al; Res Rev 85: 17-28 (1983) (4) Endo S et al; Environ Sci Technol 42): 5897-5903 (2008) (5) Kim H et al; Environ Sci Technol 35: 4457-62 (2001) (6) Roth CM et al; Environ Sci Technol 38: 4078-84 (2004)
Vapor Pressure
PressureReference
14.1 mm Hg at 25 deg CYaws CL; Handbook of Vapor Pressure. Vol 3: C8-C28 Compounds. Houston, TX: Gulf Pub Co, p. 78 (1994)
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaMycobacterium BovisNANAKüntzel et al. 2018
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBrevibacillus Agristimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaAneurinibacillus Aneurinilyticusstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
EukaryotaAspergillus FlavusITEM collection of CNR-ISPA (Research National Council of Italy - Institute of Sciences of Food Production) in Bari, ItalyJosselin et al. 2021
ProkaryotaXanthomonas Campestrisn/aNAWeise et al. 2012
ProkaryotaStreptococcus Mutans as a biomarker for a breath test for detection of cariesNAHertel et al. 2016
ProkaryotaPropionibacterium Acidifaciens as a biomarker for a breath test for detection of cariesNAHertel et al. 2016
EukaryotaLaccaria Bicolorn/aNAMueller et al. 2013
EukaryotaPaxillus Involutusn/aNAMueller et al. 2013
EukaryotaArmillaria Mellean/aNAMueller et al. 2013
EukaryotaPholiota Squarrosan/aNAMueller et al. 2013
EukaryotaVerticillium Longisporumn/aNAMueller et al. 2013
EukaryotaTrichoderma Viriden/aNAWheatley et al. 1997
EukaryotaTrichoderma Pseudokoningiin/aNAWheatley et al. 1997
EukaryotaPaecilomyces Variotiinacompost, soils, food productsSunesson et al. 1995
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
Fusarium GraminearumBallot et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaMycobacterium BovisHEYMNTD/GC-MSno
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaSPME/GC-MSno
ProkaryotaBacillus Sp.LB mediaSPME/GC-MSno
ProkaryotaBrevibacillus AgriLB mediaSPME/GC-MSno
ProkaryotaAneurinibacillus AneurinilyticusLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
EukaryotaAspergillus FlavusSNA mediaSPME/GC-MSno
ProkaryotaXanthomonas CampestrisNBIIClosed airflow-system/GC-MS and PTR-MSno
ProkaryotaStreptococcus MutansBrain-Heart-Infusion agarTenax-trap/GC-MSno
ProkaryotaPropionibacterium AcidifaciensBrain-Heart-Infusion agarTenax-trap/GC-MSno
EukaryotaLaccaria BicolorMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPaxillus InvolutusMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaArmillaria MelleaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPholiota SquarrosaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaVerticillium LongisporumMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaTrichoderma VirideMalt extract/Low mediumGC/MSno
EukaryotaTrichoderma PseudokoningiiMalt extract/Low mediumGC/MSno
EukaryotaPaecilomyces VariotiiDG18,MEAGC/MSno
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
Fusarium Graminearumtryptone soy (TS medium; Carl Roth, Karlsruhe, Germany)GC-QQQ-MSno


Decanoic Acid

Mass-Spectra

Compound Details

Synonymous names
Decanoic acid
CAPRIC ACID
334-48-5
n-Decanoic acid
n-Capric acid
Decoic acid
Decylic acid
Caprinic acid
n-Decylic acid
1-Nonanecarboxylic acid
Caprynic acid
n-Decoic acid
Hexacid 1095
Econosan Acid Sanitizer
NSC 5025
Decanoic acid (natural)
FEMA No. 2364
C10:0
Dekansaeure
Emery 659
Kaprinsaeure
CCRIS 4610
HSDB 2751
EINECS 206-376-4
UNII-4G9EDB6V73
EPA Pesticide Chemical Code 128955
BRN 1754556
4G9EDB6V73
DTXSID9021554
Prifac 296
CHEBI:30813
AI3-04453
Prifac 2906
NSC-5025
MFCD00004441
Lunac 10-95
Lunac 10-98
PRIFAC-2906
DTXCID201554
PALMAC-99-10
NSC5025
caprynate
decoate
decylate
4-02-00-01041 (Beilstein Handbook Reference)
n-caprate
n-decoate
n-decylate
Lead caprate
NCGC00091320-02
1-nonanecarboxylate
Decanoic acid anion
DKA
CH3-(CH2)8-COOH
CH3-[CH2]8-COOH
Versatic 10
CAS-334-48-5
caprinsaure
decansaure
Decansaeure
Docansaure
Decatoic acid
1-decanoic acid
nonanecarboxylic acid
fatty acid 10:0
Prifrac 296
Prifrac 2906
Acid C10
Decanoic acid, 96%
Decansaeure (Altstoff)
Nonane-1-carboxylic acid
DECANsaure (ALTSTOFF)
bmse000370
CAPRIC ACID [INCI]
SCHEMBL2682
WLN: QV9
DECANOIC ACID [FCC]
Decanoic acid (Capric acid)
N-CAPRIC ACID [MI]
DECANOIC ACID [FHFI]
DECANOIC ACID [HSDB]
Decanoic acid, >=98.0%
MLS002415724
IS_D19-DECANOIC ACID
(1(1)(3)C)Decanoic acid
CHEMBL107498
GTPL5532
1-NONANE CARBOXYLIC ACID
N-CAPRIC ACID [WHO-DD]
Decanoic acid, lead (2+) salt
NAA 102
Decanoic acid, analytical standard
HMS2267B15
Decanoic acid, >=98.0% (GC)
Tox21_113533
Tox21_202209
Tox21_300366
LMFA01010010
s6906
STL445666
Decanoic acid, >=98%, FCC, FG
AKOS000119623
CS-W016025
DB03600
FA 10:0
HY-W015309
MCULE-3914949169
USEPA/OPP Pesticide Code: 128955
NCGC00091320-01
NCGC00091320-03
NCGC00091320-04
NCGC00091320-05
NCGC00254437-01
NCGC00259758-01
AS-14704
BP-27911
FA(10:0)
SMR001252255
SY061635
D0017
Decanoic acid, natural, >=98%, FCC, FG
NS00005224
EN300-19724
C-1095
C01571
D70225
A875289
CAPRIC ACID (CONSTITUENT OF SAW PALMETTO)
Q422613
W-202368
CAPRIC ACID (CONSTITUENT OF SAW PALMETTO) [DSC]
Z104474944
98230577-0D20-4F70-B532-00AC60132CFE
InChI=1/C10H20O2/c1-2-3-4-5-6-7-8-9-10(11)12/h2-9H2,1H3,(H,11,12
1-(S)- cis 9-Aminooctahydro-10-oxo-6H-pyridazino[1,2-a][1,2]diazepine-1-carboxylic acid, t-butyl ester
Microorganism:

Yes

IUPAC namedecanoic acid
SMILESCCCCCCCCCC(=O)O
InchiInChI=1S/C10H20O2/c1-2-3-4-5-6-7-8-9-10(11)12/h2-9H2,1H3,(H,11,12)
FormulaC10H20O2
PubChem ID2969
Molweight172.26
LogP4.1
Atoms12
Bonds8
H-bond Acceptor2
H-bond Donor1
Chemical Classificationacids carboxylic acids organic acids
CHEBI-ID30813
Supernatural-IDSN0106142

mVOC Specific Details

Boiling Point
DegreeReference
268.7 °C peer reviewed
Volatilization
A pKa of 4.90(1) indicates decanoic acid will exist almost entirely in the anion form at pH values of 5 to 9 and therefore volatilization from water surfaces and moist soil is not expected to be an important fate process(2). Decanoic acid is not expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 3.66X10-4 mm Hg(3).
Literature: (1) Barratt MD; Toxicol In Vitro 10:85-94 (1996) (2) Doucette WJ; pp. 141-188 in Handbook of Property Estimation Methods for Chemicals. Boethling RS, Mackay D, eds. Boca Raton, FL: Lewis Publ (2000) (3) Baccanari DP et al; Trans Faraday Soc 64: 1201-5 (1968)
Soil Adsorption
The Koc of undissociated decanoic acid is estimated as 4,000 forthe free acid Kow of 4.09(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that undissociated decanoic acid is expected to have slight mobility in soil. The pKa of decanoic acid is 4.90(4), indicating that this compound will exist almost entirely in anion form in the environment and anions generally do not adsorb more strongly to soils containing organic carbon and clay than their neutral counterparts(5).
Literature: (1) Hansch C et al; Exploring QSAR. Hydrophobic, Electronic, and Steric Constants. ACS Prof Ref Book. Heller SR, consult. ed., Washington, DC: Amer Chem Soc p. 81 (1995) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 4-9 (1990) (3) Swann RL et al; Res Rev 85: 17-28 (1983) (4) Barratt MD; Toxicol In Vitro 10:85-94 (1996) (5) Doucette WJ; pp. 141-188 in Handbook of Property Estimation Methods for Chemicals. Boethling RS, Mackay D, eds. Boca Raton, FL: Lewis Publ (2000)
Vapor Pressure
PressureReference
3.66X10-4 mm Hg at 25 deg CBaccanari DP et al; Trans Faraday Soc 64: 1201-5 (1968)
MS-Links
MS-MS Spectrum 735 - Quattro_QQQ 25V Positive delivery=Flow_Injection analyzer=Triple_Quad
MS-MS Spectrum 734 - Quattro_QQQ 10V Positive delivery=Flow_Injection analyzer=Triple_Quad
MS-MS Spectrum 4140 - LC-ESI-QQ (API3000, Applied Biosystems) 30V Negative
MS-MS Spectrum 21914
MS-MS Spectrum 201631
MS-MS Spectrum 8107
MS-MS Spectrum 8106
MS-MS Spectrum 4139 - LC-ESI-QQ (API3000, Applied Biosystems) 20V Negative
MS-MS Spectrum 201633
MS-MS Spectrum 201634
MS-MS Spectrum 14779
MS-MS Spectrum 20364
MS-MS Spectrum 201632
MS-MS Spectrum 14777
MS-MS Spectrum 14778
MS-MS Spectrum 4142 - LC-ESI-QQ (API3000, Applied Biosystems) 50V Negative
MS-MS Spectrum 4137 - EI-B (HITACHI M-80B) Positive
MS-MS Spectrum 21915
MS-MS Spectrum 8105
MS-MS Spectrum 4141 - LC-ESI-QQ (API3000, Applied Biosystems) 40V Negative
MS-MS Spectrum 20365
MS-MS Spectrum 21916
MS-MS Spectrum 4138 - LC-ESI-QQ (API3000, Applied Biosystems) 10V Negative
MS-MS Spectrum 736 - Quattro_QQQ 40V Positive delivery=Flow_Injection analyzer=Triple_Quad
MS-MS Spectrum 20363
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaSaccharomyces CerevisiaeNATejero Rioseras et al. 2017
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaPantoea Vagansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaLactobacillus Casein/aNATracey and Britz 1989
ProkaryotaLactobacillus Plantarumn/aNATracey and Britz 1989
ProkaryotaPediococcus Damnosusn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Cremorisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Dextranicumn/aNATracey and Britz 1989
ProkaryotaLactococcus Lactisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Mesenteroidesn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Paramesenteroidesn/aNATracey and Britz 1989
ProkaryotaOenococcus Oenin/aNATracey and Britz 1989
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaZygosaccharomyces RouxiiNANAPei et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAGe et al. 2021
EukaryotaSaccharomyces EubayanusNANAMardones et al. 2022
ProkaryotaPeribacillus Sp.NANAToral et al. 2021
EukaryotaSaccharomyces EubayanusNANAUrbina et al. 2020
EukaryotaSaccharomyces CerevisiaeNANAZhao et al. 2022
EukaryotaSaturnispora DiversaNANAZhao et al. 2022
Lactiplantibacillus PlantarumChen et al. 2023
Bacillus ToyonensisKoilybayeva et al. 2023
Bacillus CereusKoilybayeva et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaSaccharomyces Cerevisiaeyeast nitrogen base, 2% glucoseSESI-HRMSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaPantoea VagansTYB mediaGC-MSno
ProkaryotaLactobacillus Casein/an/ano
ProkaryotaLactobacillus Plantarumn/an/ano
ProkaryotaPediococcus Damnosusn/an/ano
ProkaryotaLeuconostoc Cremorisn/an/ano
ProkaryotaLeuconostoc Dextranicumn/an/ano
ProkaryotaLactococcus Lactisn/an/ano
ProkaryotaLeuconostoc Mesenteroidesn/an/ano
ProkaryotaLeuconostoc Paramesenteroidesn/an/ano
ProkaryotaOenococcus Oenin/an/ano
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaZygosaccharomyces RouxiiYPD mediumGC-MSno
EukaryotaSaccharomyces Cerevisiaegrape juiceLC-15C HPLCno
EukaryotaSaccharomyces EubayanusYPD agar media (yeast extract 1%, peptone 2%, glucose 2% and agar 2%)HS‐SPME‐GC‐MSno
ProkaryotaPeribacillus Sp.MOLPHS-SPME-GC/MSno
EukaryotaSaccharomyces Eubayanusbeer wortHS-SPME-GC-MSno
EukaryotaSaccharomyces Cerevisiaesynthetic grape juiceHS-SPMEno
EukaryotaSaturnispora Diversasynthetic grape juiceHS-SPMEno
Lactiplantibacillus Plantarumfermentation of ginkgo kernel juiceGC-IMSno
Bacillus Toyonensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Cereusbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno


Octanoic Acid

Mass-Spectra

Compound Details

Synonymous names
octanoic acid
caprylic acid
124-07-2
n-octanoic acid
Octylic acid
n-caprylic acid
octoic acid
n-octylic acid
n-Octoic acid
1-heptanecarboxylic acid
Enantic acid
Octic acid
C-8 acid
Caprylsaeure
Kaprylsaeure
Acido octanoico
Hexacid 898
FEMA No. 2799
Acide octanoique
Acidum octanocium
Kyselina kaprylova
Octansaeure
1-octanoic acid
C8:0
Caprylic acid (natural)
capryloate
NSC 5024
NSC-5024
Kortacid-0899
octylate
OCTANOIC ACID (CAPRYLIC ACID)
Emery 657
CCRIS 4689
HSDB 821
Prifac 2901
Prifac-2901
CHEBI:28837
Lunac 8-95
acidum octanoicum
Acidum octanocium [Latin]
EDENOR C 8-98-100
EINECS 204-677-5
UNII-OBL58JN025
Acid C8
BRN 1747180
OBL58JN025
Kortacid 0899
DTXSID3021645
n-octic acid
AI3-04162
Lunac 8-98
Caprylic acid-8-13C
Octanoic acid-7-13C
MFCD00004429
CH3-[CH2]6-COOH
DTXCID501645
NSC5024
EC 204-677-5
4-02-00-00982 (Beilstein Handbook Reference)
n-caprylate
n-octoate
n-octylate
Caprylic acid (NF)
287111-08-4
287111-23-3
NCGC00090957-01
Octanoic acid (USAN)
0ctanoic acid
1-heptanecarboxylate
Acidum octanocium (Latin)
CAPRYLIC ACID [NF]
OCTANOIC ACID (II)
OCTANOIC ACID [II]
OCTANOIC ACID [USAN]
68937-74-6
CH3-(CH2)6-COOH
OCTANOIC ACID (MART.)
OCTANOIC ACID [MART.]
CAPRYLIC ACID (USP-RS)
CAPRYLIC ACID [USP-RS]
CAPRYLIC ACID (EP IMPURITY)
CAPRYLIC ACID [EP IMPURITY]
CAPRYLIC ACID (EP MONOGRAPH)
CAPRYLIC ACID [EP MONOGRAPH]
Acide octanoique [French]
Acido octanoico [Spanish]
Kyselina kaprylova [Czech]
Octanoic acid [USAN:INN]
CAS-124-07-2
287111-06-2
caprylsaure
caprylic-acid
n-octanoicacid
octanic acid
Copper as octanoate
fatty acid 8:0
n-heptanecarboxylic acid
Octanoic acid, ?99%
Heptane-1-carboxylic acid
Octanoic acid, >=98%
Octanoic acid, >=99%
bmse000502
CAPRYLIC ACID [MI]
SCHEMBL3933
WLN: QV7
NCIOpen2_002902
NCIOpen2_009358
Octanoic acid (USAN/INN)
OCTANOIC ACID [INN]
CAPRYLIC ACID [INCI]
OCTANOIC ACID [FHFI]
OCTANOIC ACID [HSDB]
MLS002415762
Octanoic acid, >=96.0%
caprylic acid (octanoic acid)
CAPRYLIC ACID [VANDF]
IS_D15-OCTANOIC ACID
CHEMBL324846
GTPL4585
NAA 82
Octanoic acid, >=98%, FG
QSPL 011
QSPL 184
OCTANOIC ACID [WHO-DD]
HMS2270A23
Octanoic acid, analytical standard
STR10050
Tox21_111045
Tox21_201279
Tox21_300345
BDBM50485608
FA 8:0
LMFA01010008
s6296
STL282742
AKOS000118802
Octanoic acid, natural, >=98%, FG
USEPA/OPP Pesticide Code:128919
DB04519
FA(8:0)
MCULE-5193957469
Octanoic acid, for synthesis, 99.5%
NCGC00090957-02
NCGC00090957-03
NCGC00090957-04
NCGC00090957-05
NCGC00254446-01
NCGC00258831-01
BP-27909
HY-41417
SMR001252279
CS-0016549
NS00008861
O0027
EN300-21305
C06423
D05220
Q409564
SR-01000865607
CAPRYLIC ACID (CONSTITUENT OF SAW PALMETTO)
J-005040
SR-01000865607-2
BRD-K35170555-001-07-9
Z104495238
CAPRYLIC ACID (CONSTITUENT OF SAW PALMETTO) [DSC]
Octanoic acid, certified reference material, TraceCERT(R)
43FDA9D7-2300-41E7-A373-A34F25B81553
Caprylic acid, European Pharmacopoeia (EP) Reference Standard
Caprylic acid, United States Pharmacopeia (USP) Reference Standard
Caprylic Acid (Octanoic Acid), Pharmaceutical Secondary Standard; Certified Reference Material
Microorganism:

Yes

IUPAC nameoctanoic acid
SMILESCCCCCCCC(=O)O
InchiInChI=1S/C8H16O2/c1-2-3-4-5-6-7-8(9)10/h2-7H2,1H3,(H,9,10)
FormulaC8H16O2
PubChem ID379
Molweight144.21
LogP3
Atoms10
Bonds6
H-bond Acceptor2
H-bond Donor1
Chemical Classificationacids carboxylic acids organic acids
CHEBI-ID28837
Supernatural-IDSN0422278

mVOC Specific Details

Boiling Point
DegreeReference
239 °C peer reviewed
Volatilization
A pKa of 4.89(1) indicates octanoic acid will exist almost entirely in the anion form at pH values of 5 to 9 and therefore volatilization from water surfaces and moist soil is not expected to be an important fate process(2). Octanoic acid is not expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 3.71X10-3 mm Hg(3).
Literature: (1) Dean JA; Handbook of Organic Chemistry, NY, NY: McGraw-Hill, Inc p. 8-45 (1987) (2) Doucette WJ; pp. 141-188 in Handbook of Property Estimation Methods for Chemicals. Boethling RS, Mackay D, eds. Boca Raton, FL: Lewis Publ (2000) (3) Daubert TE, Danner RP; Physical and thermodynamic properties of pure chemicals: data compilation. Design Inst Phys Prop Data, Amer Inst Chem Eng., Washington, DC: Taylor & Francis, Vol 4 (1995)
Soil Adsorption
The Koc of undissociated octanoic acid is estimated as 1,100 for the free acid(SRC), using a log Kow of 3.05(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that undissociated octanoic acid is expected to have low mobility in soil. The pKa of octanoic acid is 4.89(4), indicating that this compound will exist almost entirely in the anion form in the environment and anions generally do not adsorb more strongly to soils containing organic carbon and clay than their neutral counterparts(5).
Literature: (1) Hansch C et al; Exploring QSAR. Hydrophobic, Electronic, and Steric Constants. ACS Prof Ref Book. Heller SR, consult. ed., Washington, DC: Amer Chem Soc p. 49 (1995) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 4-9 (1990) (3) Swann RL et al; Res Rev 85: 17-28 (1983) (4) Dean JA; Handbook of Organic Chemistry, NY, NY: McGraw-Hill, Inc p. 8-45 (1987) (5) Doucette WJ; pp. 141-188 in Handbook of Property Estimation Methods for Chemicals. Boethling RS, Mackay D, eds. Boca Raton, FL: Lewis Publ (2000)
Vapor Pressure
PressureReference
3.71X10-3 mm Hg at 25 deg CDaubert, T.E., R.P. Danner. Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, D.C.: Taylor and Francis, 1989.
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaStreptococcus PneumoniaeNANAKaeslin et al. 2021
EukaryotaSaccharomyces CerevisiaeNATejero Rioseras et al. 2017
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaPantoea Vagansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaChromobacterium Vacciniiantifungal activity against Trichoderma sp. MWU14-9201, Phoma sp. MWU-UMCS9302, Colletotrichum sp. MWU-UMCS9301, Coleophoma sp. MWU-UMCS9305 and Phytophthora cinnamomi R001isolate from cultivated cranberry bog soils in Massachusetts (USA)Ebadzadsahrai et al. 2020
ProkaryotaAzospirillum Brasilensepromotion of performance of Chlorella sorokiniana Shihculture collection DSMZ 1843Amavizca et al. 2017
ProkaryotaBacillus Pumiluspromotion of performance of Chlorella sorokiniana ShihNAAmavizca et al. 2017
ProkaryotaEscherichia Colipromotion of performance of Chlorella sorokiniana ShihNAAmavizca et al. 2017
EukaryotaGanoderma Lucidumnasaprophytic on deciduous treesCampos Ziegenbein et al. 2006
EukaryotaSpongiporus Leucomallellusnasaprophytic mostly on wet, old pinesCampos Ziegenbein et al. 2006
ProkaryotaLactobacillus Casein/aNATracey and Britz 1989
ProkaryotaLactobacillus Plantarumn/aNATracey and Britz 1989
ProkaryotaPediococcus Damnosusn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Cremorisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Dextranicumn/aNATracey and Britz 1989
ProkaryotaLactococcus Lactisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Mesenteroidesn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Paramesenteroidesn/aNATracey and Britz 1989
ProkaryotaOenococcus Oenin/aNATracey and Britz 1989
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
EukaryotaSaccharomyces EubayanusNANAMardones et al. 2022
EukaryotaAureobasidium PullulansNANAMozūraitis et al. 2022
EukaryotaHanseniaspora UvarumNANAMozūraitis et al. 2022
EukaryotaPichia KudriavzeviiNANAMozūraitis et al. 2022
EukaryotaPichia MembranifaciensNANAMozūraitis et al. 2022
EukaryotaSaccharomyces ParadoxusNANAMozūraitis et al. 2022
ProkaryotaStaphylococcus EquorumNANAToral et al. 2021
ProkaryotaPeribacillus Sp.NANAToral et al. 2021
EukaryotaWickerhamomyces AnomalusNANAShi et al. 2022
ProkaryotaBacillus SubtilisNANALee et al. 2023
EukaryotaSaccharomyces EubayanusNANAUrbina et al. 2020
EukaryotaSaccharomyces CerevisiaeNANAZhao et al. 2022
EukaryotaSaturnispora DiversaNANAZhao et al. 2022
Bacillus ThuringiensisKoilybayeva et al. 2023
Bacillus ToyonensisKoilybayeva et al. 2023
Bacillus CereusKoilybayeva et al. 2023
Bacillus SafensisKoilybayeva et al. 2023
Saccharomyces CerevisiaePeng et al. 2023
Pediococcus AcidilacticiMockus et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaStreptococcus PneumoniaeBHISESI-MSno
EukaryotaSaccharomyces Cerevisiaeyeast nitrogen base, 2% glucoseSESI-HRMSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaPantoea VagansTYB mediaGC-MSno
ProkaryotaChromobacterium VacciniiKing media B (KMB)SBSE-TD-GC×GC-TOF-MSno
ProkaryotaAzospirillum BrasilenseTSASPME-GCno
ProkaryotaBacillus PumilusTSASPME-GCno
ProkaryotaEscherichia ColiTSASPME-GCno
EukaryotaGanoderma LucidumnaGC/MSno
EukaryotaSpongiporus LeucomallellusnaGC/MSno
ProkaryotaLactobacillus Casein/an/ano
ProkaryotaLactobacillus Plantarumn/an/ano
ProkaryotaPediococcus Damnosusn/an/ano
ProkaryotaLeuconostoc Cremorisn/an/ano
ProkaryotaLeuconostoc Dextranicumn/an/ano
ProkaryotaLactococcus Lactisn/an/ano
ProkaryotaLeuconostoc Mesenteroidesn/an/ano
ProkaryotaLeuconostoc Paramesenteroidesn/an/ano
ProkaryotaOenococcus Oenin/an/ano
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
EukaryotaSaccharomyces EubayanusYPD agar media (yeast extract 1%, peptone 2%, glucose 2% and agar 2%)HS‐SPME‐GC‐MSno
EukaryotaAureobasidium PullulansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaHanseniaspora UvarumYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KudriavzeviiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia MembranifaciensYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaSaccharomyces ParadoxusYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
ProkaryotaStaphylococcus EquorumMOLPHS-SPME-GC/MSno
ProkaryotaPeribacillus Sp.MOLPHS-SPME-GC/MSno
EukaryotaWickerhamomyces Anomalusmedium consisted of glucose (20 g/l), peptone (5 g/l), agar (20 g/l) and amoxicillin (1 g/l)SPME with GC-MSno
EukaryotaWickerhamomyces Anomalussolid-state fermentation starter culture DaquSPME coupled with GC-MSno
ProkaryotaBacillus SubtilisTryptone soy broth (TSB)HPLCno
EukaryotaSaccharomyces Eubayanusbeer wortHS-SPME-GC-MSno
EukaryotaSaccharomyces Cerevisiaesynthetic grape juiceHS-SPMEno
EukaryotaSaturnispora Diversasynthetic grape juiceHS-SPMEno
Bacillus Thuringiensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Toyonensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Cereusbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Safensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Saccharomyces Cerevisiaesea buckthorn juiceHS-SPME-GC–MS/UHPLC–MSno
Pediococcus Acidilacticilentils (Lens culinaris)SPME/ICP-MSno


Butane-2,3-diol

Mass-Spectra

Compound Details

Synonymous names
2,3-butanediol
513-85-9
Butane-2,3-diol
2,3-butylene glycol
2,3-Dihydroxybutane
Dimethylene glycol
Dimethylethylene glycol
Pseudobutylene glycol
Sym-dimethylethylene glycol
DL-2,3-Butanediol
123513-85-9
MFCD00004523
DTXSID8041321
CHEBI:62064
(2S,3S)-(+)2,3-Butanediol
NISTC6982258
2,3-Butanediol, (R*,R*)-(.+/-.)-
2,3-butanodiol
35007-63-7
Butan-2,3-diol
CCRIS 5501
HSDB 1505
EINECS 208-173-6
BRN 0969165
2,3-Butanediol; >98%
UNII-45427ZB5IJ
(+/-)-2,3-BUTANEDIOL
NSC-249246
2.3-butanediol
2,3-butane diol
butane 2,3-diol
2,3-Butandiol
a 2,3-butanediol
2d-Pharmalyte(9ci)
a butane-2,3-diol
dimethyl ethyleneglycol
2,3-dihydroxy butane
2,3-dihydroxy-butane
D-2,3-Butane diol
dimethyl ethylene glycol
levo-butane-2,3-diol
meso-2,3-butane diol
a 2,3-butylene glycol
2,3-Butanediol (DL)
2,3-Butanediol, 98%
DL-2,3-BUTANDIOL
EC 208-173-6
4-01-00-02524 (Beilstein Handbook Reference)
CHEMBL2312529
DTXCID6021321
45427ZB5IJ
(2R,3R)-(-)2,3-Butanediol
Tox21_300789
NSC249246
AKOS009031391
SB44226
SB44692
NCGC00248169-01
NCGC00254693-01
CAS-513-85-9
SY047189
SY057405
DB-027533
DB-243178
DB-335823
HY-128387
B0681
CS-0099502
NS00077458
S6040
EN300-19321
F14836
2,3-Butanediol, Vetec(TM) reagent grade, 98%
Q209157
METHYL5-ACETYL-3-ETHYLISOXAZOLE-4-CARBOXYLATE
F0001-1337
Z104473532
InChI=1/C4H10O2/c1-3(5)4(2)6/h3-6H,1-2H
Microorganism:

Yes

IUPAC namebutane-2,3-diol
SMILESCC(C(C)O)O
InchiInChI=1S/C4H10O2/c1-3(5)4(2)6/h3-6H,1-2H3
FormulaC4H10O2
PubChem ID262
Molweight90.12
LogP-0.9
Atoms6
Bonds1
H-bond Acceptor2
H-bond Donor2
Chemical Classificationalcohols diols
CHEBI-ID62064
Supernatural-IDSN0276724

mVOC Specific Details

Boiling Point
DegreeReference
182 deg C at 1 atmRiddick, J.A., W.B. Bunger, Sakano T.K. Techniques of Chemistry 4th ed., Volume II. Organic Solvents. New York, NY: John Wiley and Sons., 1985., p. 270
Volatilization
The Henry's Law constant for 2,3-butanediol is estimated as 2.9X10-8 atm-cu m/mole(SRC) derived from its vapor pressure, 0.24 mm Hg(1), and an assigned value for water solubility of 1.0X10+6 mg/L (miscible)(2). This Henry's Law constant indicates that 2,3-butanediol is expected to be essentially nonvolatile from water surfaces(3). 2,3-Butanediol is not expected to volatilize from dry soil surfaces(SRC) based upon its vapor pressure of 0.24 mm Hg(1).
Literature: (1) NIST; Chemistry WebBook. National Institute of Standards and Technology Standard Reference Database Number 69 - March 2003 Release, Available from the query page at http://webbook.nist.gov/chemistry as of Mar 3, 2005. (2) Riddick JA et al; Techniques of Chemistry. 4th ed. Vol II. Organic Solvents. NY, NY: John Wiley and Sons p. 270 (1985) (3) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990)
Soil Adsorption
The Koc of 2,3-butanediol is estimated as 7.5(SRC), using a log Kow of -0.92(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that 2,3-butanediol is expected to have very high mobility in soil.
Literature: (1) Hansch C et al; Exploring QSAR. Hydrophobic, Electronic, and Steric Constants. ACS Prof Ref Book. Heller SR, consult. ed., Washington, DC: Amer Chem Soc p. 10 (1995) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 4-9 (1990) (3) Swann RL et al; Res Rev 85: 17-28 (1983)
Vapor Pressure
PressureReference
0.243 mm Hg at 25 deg CNIST; Chemistry WebBook. National Institute of Standards and Technology Standard Reference Database Number 69 - March 2003 Release, Available from the query page at http://webbook.nist.gov/chemistry
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaCandida AlbicansNANAFitzgerald et al. 2022
EukaryotaCandida ParapsilosisNANAFitzgerald et al. 2022
ProkaryotaStaphylococcus Saccharolyticusclinical isolateLemfack et al. 2016
ProkaryotaStaphylococcus Warnericlinical isolate,human skinLemfack et al. 2016
ProkaryotaErwinia AmylovoraNACellini et al. 2018
ProkaryotaBacillus Sp.KX395632.1Fincheira et al. 2017
ProkaryotaBacillus AmyloliquefaciensInhibition of fusarium oxysporum f.sp. Niveum; fresh weight of Arabidopsis seedlings increasedrhizosphere soils of watermelon plantsWu et al. 2019
ProkaryotaBacillus Amyloliquefaciens0rhizosphere soils of watermelon plantsWu et al. 2019
ProkaryotaPaenibacillus PolymyxaNAMülner et al. 2021
EukaryotaAspergillus FlavusITEM collection of CNR-ISPA (Research National Council of Italy - Institute of Sciences of Food Production) in Bari, ItalyJosselin et al. 2021
ProkaryotaBacillus Amyloliquefaciensstimulate growth of Solanum tuberosumcommercial strainHeenan-Daly et al. 2021
ProkaryotaBacillus Toyonensisstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaBacillus Mycoidesstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaSerratia Myotisisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaPseudomonas Pseudoalcaligenespromotes the growth of Zea mays L. and confer the resistance to drought stress in this maizeApplied Microbiology and Biotechnology lab, Department of Biosciences, Comsats University IslamabadYasmin et al. 2021
ProkaryotaPantoea Vagansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaBacillus Sp.antifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)NALópez et al. 2021
ProkaryotaPaenibacillus Polymyxaantifungal effects against Rhizopus stoloniferisolated from an ancient tree Cryptomeria fortune and deposited in China General Microbiological Culture Collection Center (CGMCC No. 15733)Wu et al. 2020
ProkaryotaBacillus Velezensisinhibite the growth of Botrytis cinerea VG1, Monilinia fructicola VG 104, Monilinia laxa VG 105, Penicillium digitatum VG 20, Penicillium expansum CECT 20140, Penicillium italicum VG 107NACalvo et al. 2020
ProkaryotaBacillus Velezensisinhibite the growth of Botrytis cinerea VG1, Monilinia fructicola VG 104, Monilinia laxa VG 105, Penicillium digitatum VG 20, Penicillium expansum CECT 20140, Penicillium italicum VG 117NACalvo et al. 2020
ProkaryotaBacillus VelezensisNARiu et al. 2022
EukaryotaMrakia Blollopisinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaTausonia Pullulansinhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystofilobasidium Sp.inhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystofilobasidium Capitatuminhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
ProkaryotaBacillus SubtilisInduce growth promotion (leaf surface area), systemic resistance (ISR) and regulate auxin homeostasis in Arabidopsis thaliana.NARyu et al. 2003
ProkaryotaBacillus AmyloliquefaciensInduce growth promotion (leaf surface area), systemic resistance (ISR) and regulate auxin homeostasis in Arabidopsis thaliana.NARyu et al. 2003
ProkaryotaClostridium Sp.n/aNAStotzky and Schenck 1976
EukaryotaTuber Borchiin/aNASplivallo et al. 2007
EukaryotaTuber Melanosporumn/aNASplivallo et al. 2007
EukaryotaTuber Mesentericumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Aestivumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
ProkaryotaChromobacterium Violaceumn/aNABlom et al. 2011
ProkaryotaSerratia Proteamaculansn/aNABlom et al. 2011
ProkaryotaStenotrophomonas Rhizophilan/aNABlom et al. 2011
ProkaryotaBurkholderia Thailandensisn/aNABlom et al. 2011
ProkaryotaBacillus Amyloliquefaciensn/aNALee et al. 2012
ProkaryotaBacillus Subtilisn/aNALee et al. 2012
ProkaryotaPaenibacillus Polymyxan/aNALee et al. 2012
ProkaryotaAzospirillum Brasilensepromotion of performance of Chlorella sorokiniana Shihculture collection DSMZ 1843Amavizca et al. 2017
ProkaryotaBacillus Pumiluspromotion of performance of Chlorella sorokiniana ShihNAAmavizca et al. 2017
ProkaryotaEscherichia Colipromotion of performance of Chlorella sorokiniana ShihNAAmavizca et al. 2017
EukaryotaSaccharomyces Cerevisiaegrape vineBecher et al. 2012
ProkaryotaBacillus Subtilistriggers induced systemic resistance (ISR) in ArabidopsisnaRyu et al. 2004
ProkaryotaBacillus Subtilistrigger induced systemic resistance (ISR)NARyu et al. 2004
ProkaryotaBacillus Amyloliquefacienstrigger induced systemic resistance (ISR)NARyu et al. 2004
EukaryotaTuber Sp.NASplivallo et al. 2007
ProkaryotaStreptomyces Sp.n/aNASchulz and Dickschat 2007
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaZygosaccharomyces RouxiiNANAPei et al. 2022
ProkaryotaBacillus AtrophaeusNANAToral et al. 2021
ProkaryotaBacillus VelezensisNANAToral et al. 2021
Meyerozyma GuilliermondiiXiong et al. 2023
Lentinula EdodesGeng et al. 2024
Bacillus SafensisKoilybayeva et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaCandida AlbicansYPDSPME/GC-MSno
EukaryotaCandida ParapsilosisYPDSPME/GC-MSno
ProkaryotaStaphylococcus Saccharolyticusbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaStaphylococcus Warneribrain heart infusion mediumPorapak / GC/MSno
ProkaryotaErwinia AmylovoraLuria-Bertani (LB)PTR-MS / SPME / GC-MSno
ProkaryotaBacillus Sp.Plate Count agar (PCA)GC–MSyes
ProkaryotaBacillus Sp.Methyl Red & Voges Proskauer broth (MRVP-B)SPME, GC-MSyes
ProkaryotaBacillus Amyloliquefaciensmodified Murashige-Skoog (MS) culture mediumSPME-GC-MSno
ProkaryotaPaenibacillus PolymyxaLandy mediaHS-SPME/GC-MSno
EukaryotaAspergillus FlavusSNA mediaSPME/GC-MSno
ProkaryotaBacillus AmyloliquefaciensTSB media, MR-VP (Methyl Red-Vogos Proskeur) mediaSPME/GC-MSno
ProkaryotaBacillus ToyonensisTSB media, MR-VP (Methyl Red-Vogos Proskeur) mediaSPME/GC-MSno
ProkaryotaBacillus MycoidesTSB media, MR-VP (Methyl Red-Vogos Proskeur) mediaSPME/GC-MSno
ProkaryotaSerratia MyotisTSB mediaSPME/GC-MSno
ProkaryotaPseudomonas PseudoalcaligenesLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansTYB mediaGC-MSno
ProkaryotaBacillus Sp.TYB mediaGC-MSno
ProkaryotaPaenibacillus PolymyxaLB agar and M49 (minimal) mediaSPME/GC-MSyes
ProkaryotaBacillus VelezensisMOLP mediaSPME/GC-MSyes
ProkaryotaBacillus VelezensisTSA mediaSPME/GC-MSno
EukaryotaMrakia Blollopisartificial nectar mediaGC-MSno
EukaryotaTausonia Pullulansartificial nectar mediaGC-MSno
EukaryotaCystofilobasidium Sp.artificial nectar mediaGC-MSno
EukaryotaCystofilobasidium Capitatumartificial nectar mediaGC-MSno
ProkaryotaBacillus Subtilisn/an/ano
ProkaryotaBacillus Amyloliquefaciensn/an/ano
ProkaryotaClostridium Sp.n/an/ano
EukaryotaTuber Borchiin/an/ano
EukaryotaTuber Melanosporumn/an/ano
EukaryotaTuber Mesentericumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Aestivumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
ProkaryotaChromobacterium ViolaceumMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia ProteamaculansMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaStenotrophomonas RhizophilaMS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia ThailandensisAngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBacillus AmyloliquefaciensTryptic soy agarSPME coupled with GC-MSno
ProkaryotaBacillus SubtilisTryptic soy agarSPME coupled with GC-MSno
ProkaryotaPaenibacillus PolymyxaTryptic soy agarSPME coupled with GC-MSno
ProkaryotaAzospirillum BrasilenseTSASPME-GCno
ProkaryotaBacillus PumilusTSASPME-GCno
ProkaryotaEscherichia ColiTSASPME-GCno
EukaryotaSaccharomyces Cerevisiaesynthetic minimal mediumGC-MS, EIyes
ProkaryotaBacillus SubtilisMurashige and Skoog mediumcapillary GC;GC/MSyes
ProkaryotaBacillus SubtilisMurashige & Skoog medium containing 1.5% (w/v) agar, 1.5% (w/v) Suc, and 0.4% (w/v) TSASuper-Q adsorbent trap/GC-FID or GC-MSyes
ProkaryotaBacillus AmyloliquefaciensMurashige & Skoog medium containing 1.5% (w/v) agar, 1.5% (w/v) Suc, and 0.4% (w/v) TSASuper-Q adsorbent trap/GC-FID or GC-MSyes
EukaryotaTuber Sp.no
ProkaryotaStreptomyces Sp.n/an/ano
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaZygosaccharomyces RouxiiYPD mediumGC-MSno
ProkaryotaBacillus AtrophaeusMOLPHS-SPME-GC/MSno
ProkaryotaBacillus VelezensisMOLPHS-SPME-GC/MSno
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno
Lentinula EdodesJiuqu (traditional wheat Qu)GC-IMSno
Bacillus Safensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno


Undec-1-ene

Mass-Spectra

Compound Details

Synonymous names
1-UNDECENE
821-95-4
Undec-1-ene
n-1-Undecene
1-Hendecene
Undecene
alpha-Undecene
alpha-Undecylene
alpha-Nonylethylene
Undecene-1
CCRIS 5720
HSDB 1090
.alpha.-Undecene
EINECS 212-483-7
NSC 73983
UNII-1446756A8F
NSC-73983
1446756A8F
DTXSID5061168
CHEBI:77444
MFCD00008956
Hendecene
68526-57-8
1-Undecene, 97%
N-NONYLETHYLENE
?1-UNDECENE
.ALPHA.-UNDECYLENE
1-UNDECENE [HSDB]
3,4-dichlorophenethylalcohol
.ALPHA.-NONYLETHYLENE
DTXCID0048268
NSC73983
EINECS 271-214-1
LMFA11000332
STL453737
AKOS009156849
MCULE-8437878932
LS-14020
DB-056580
NS00038169
U0025
U0052
D92764
EC 271-214-1
Q14745306
Microorganism:

Yes

IUPAC nameundec-1-ene
SMILESCCCCCCCCCC=C
InchiInChI=1S/C11H22/c1-3-5-7-9-11-10-8-6-4-2/h3H,1,4-11H2,2H3
FormulaC11H22
PubChem ID13190
Molweight154.29
LogP6.2
Atoms11
Bonds8
H-bond Acceptor0
H-bond Donor0
Chemical Classificationunsaturated hydrocarbons alkenes
CHEBI-ID77444
Supernatural-IDSN0062300

mVOC Specific Details

Boiling Point
DegreeReference
192.7 °C peer reviewed
Volatilization
The Henry's Law constant for 1-undecene is estimated as 1.48 atm-cu m/mole(SRC) using a fragment constant estimation method(1). This Henry's Law constant indicates that 1-undecene is expected to volatilize rapidly from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as 1 hr(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as 5 days(SRC). However, the volatilization half-life does not take into account the effects of adsorption. This is apparent from the results of two EXAMS model runs, one in which the effect of adsorption was considered, yielding an estimated half-life of 21 days in a model pond 2 m deep, and one in which the effect of adsorption was ignored, yielding an estimated half-life of 42 hrs in a model pond 2 m deep(3). 1-Undecene's Henry's Law constant(1) indicates that volatilization from moist soil surfaces may occur(SRC). 1-Undecene is not expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 0.493 mm Hg(4).
Literature: (1) Meylan WM, Howard PH; Environ Toxicol Chem 10: 1283-93 (1991) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) USEPA; EXAMS II Computer Simulation (1987) (4) Daubert TE, Danner RP; Physical and Thermodynamic Properties of Pure Chemicals: Data Compilation. Design Inst Phys Prop Data, Amer Inst Chem Eng NY, NY: Hemisphere Pub Corp 5 Vol (1989)
Solubility
Sol in ether, chloroform, ligroin; insol in water
Literature: Lide, D.R. (ed.). CRC Handbook of Chemistry and Physics. 79th ed. Boca Raton, FL: CRC Press Inc., 1998-1999., p. 3-327
Soil Adsorption
Using a structure estimation method based on molecular connectivity indices(1), the Koc for 1-undecene can be estimated to be about 3180(SRC). According to a classification scheme(2), this estimated Koc value suggests that 1-undecene is expected to have slight mobility in soil.
Literature: (1) Meylan WM et al; Environ Sci Technol 26: 1560-67 (1992) (2) Swann RL et al; Res Rev 85: 17-28 (1983)
Vapor Pressure
PressureReference
0.493 mm Hg @ 25 deg CDaubert, T.E., R.P. Danner. Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, D.C.: Taylor and Francis, 1989.
MS-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaPseudomonas AeruginosaNANAAhmed et al. 2023
ProkaryotaAcinetobacter BaumanniiNANAGao et al. 2016
ProkaryotaPseudomonas AeruginosaNANAFitzgerald et al. 2021
ProkaryotaPseudomonas AeruginosaNANAZechman et al. 1986
ProkaryotaPseudomonas AeruginosaNANANeerincx et al. 2016
ProkaryotaPseudomonas AeruginosaNANABoots et al. 2014
ProkaryotaPseudomonas AeruginosaNANALawal et al. 2018a
ProkaryotaPseudomonas AeruginosaNANANA
ProkaryotaPseudomonas PutidaNANANA
ProkaryotaPseudomonas FluorescensNANANA
ProkaryotaPseudomonas AeruginosaNANAFilipiak et al. 2012
ProkaryotaShewanella PutrefaciensNANANA
ProkaryotaStenotrophomonas MaltophiliaNANANA
ProkaryotaPseudomonas AeruginosaNANAJünger et al. 2012
ProkaryotaPseudomonas AeruginosaNALawal et al. 2018
EukaryotaPythium OligandrumN/APythium oligandrum GAQ1 strain was isolated from soil from a field where infected ginger was growing in Laiwu district, Jinan City, Shandong Province, China. China General Microbiological Culture Collection Center (CGMCC) deposit number No. 17470.Sheikh et al. 2023
ProkaryotaPseudomonas AeruginosaNATimm et al. 2018
ProkaryotaPseudomonas Fluorescensantibacterial activity against growth of Ralstonia solanacearumPlant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New DelhiKashyap et al. 2022
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaAneurinibacillus Aneurinilyticusstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Palleronianaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Azotoformansstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaPseudomonas AeruginosaLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaBacillus Amyloliquefaciensn/aNALee et al. 2012
ProkaryotaBacillus Subtilisn/aNALee et al. 2012
ProkaryotaPaenibacillus Polymyxan/aNALee et al. 2012
ProkaryotaPseudomonas Sp.n/aNASchulz and Dickschat 2007
ProkaryotaShewanella Sp.n/aNASchulz and Dickschat 2007
ProkaryotaPseudomonas Fluorescensn/aNAFernando et al. 2005
ProkaryotaPseudomonas Corrugatan/aNAFernando et al. 2005
ProkaryotaPseudomonas Chlororaphisn/aNAFernando et al. 2005
ProkaryotaPseudomonas Aurantiacan/aNAFernando et al. 2005
EukaryotaTuber Mesentericumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
ProkaryotaBurkholderia Andropogonisn/aNABlom et al. 2011
ProkaryotaBurkholderia Anthinan/aNABlom et al. 2011
ProkaryotaBurkholderia Caledonican/aNABlom et al. 2011
ProkaryotaBurkholderia Caribensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Caryophyllin/aNABlom et al. 2011
ProkaryotaBurkholderia Cepacian/aNABlom et al. 2011
ProkaryotaBurkholderia Fungorumn/aNABlom et al. 2011
ProkaryotaBurkholderia Gladiolin/aNABlom et al. 2011
ProkaryotaBurkholderia Glathein/aNABlom et al. 2011
ProkaryotaBurkholderia Glumaen/aNABlom et al. 2011
ProkaryotaBurkholderia Graminisn/aNABlom et al. 2011
ProkaryotaBurkholderia Latan/aNABlom et al. 2011
ProkaryotaBurkholderia Phenaziniumn/aNABlom et al. 2011
ProkaryotaBurkholderia Phenoliruptrixn/aNABlom et al. 2011
ProkaryotaBurkholderia Phytofirmansn/aNABlom et al. 2011
ProkaryotaBurkholderia Pyrrocinian/aNABlom et al. 2011
ProkaryotaBurkholderia Saccharin/aNABlom et al. 2011
ProkaryotaBurkholderia Terricolan/aNABlom et al. 2011
ProkaryotaBurkholderia Thailandensisn/aNABlom et al. 2011
ProkaryotaCellulomonas Udan/aNABlom et al. 2011
ProkaryotaChromobacterium Violaceumn/aNABlom et al. 2011
ProkaryotaEscherichia Colin/aNABlom et al. 2011
ProkaryotaLimnobacter Thiooxidansn/aNABlom et al. 2011
ProkaryotaPseudomonas Aeruginosan/aNABlom et al. 2011
ProkaryotaPseudomonas Fluorescensn/aNABlom et al. 2011
ProkaryotaPseudomonas Putidan/aNABlom et al. 2011
ProkaryotaSerratia Plymuthican/aNABlom et al. 2011
ProkaryotaKlebsiella Pneumoniaen/aNAElgaali et al. 2002
ProkaryotaShewanella PutrefaciensAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaCitrobacter FreundiiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaEnterobacter AerogenesAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaEnterobacter CloacaeAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaEscherichia ColiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaShigella SonneiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaAcinetobacter JohnsoniiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaPseudomonas FluorescensAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaLactobacillus LactisAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaStreptococcus ThermophilusAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaPseudomonas FluorescensNACheng et al. 2016
ProkaryotaPseudomonas PutidananaSchöller et al. 1997
ProkaryotaPseudomonas Fluorescensnasoil, water, plantsSchöller et al. 1997
ProkaryotaPseudomonas Aeruginosanasoil, water, skin floraSchöller et al. 1997
ProkaryotaPseudomonas TolaasiinanaLo Cantore et al. 2015
ProkaryotaPseudomonas Brassicacearumlyses red blood cellsrhizosphere of bean plants, southern ItalyGiorgio et al. 2015
ProkaryotaPseudomonas Putidalyses red blood cellsrhizosphere of bean plants, southern ItalyGiorgio et al. 2015
ProkaryotaPseudomonas Vranovensisinhibits the mycelial growth of P. infestans and changes its sporulation behaviorrhizosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas Veroniiinhibits the mycelial growth of P. infestans and changes its sporulation behaviorrhizosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas Chlororaphisinhibits the mycelial growth of P. infestans and changes its sporulation behaviorrhizosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas Fluorescensinhibits the mycelial growth of P. infestans and changes its sporulation behaviorrhizosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas Frederiksbergensisinhibits the mycelial growth of P. infestans and changes its sporulation behaviorphyllosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas AeruginosananaBriard et al. 2016
ProkaryotaPseudomonas Chlororaphisinhibits nematode developmentRhizosphere of maize, Kiev region, UkrainePopova et al. 2014
ProkaryotaPseudomonas Putidanablack pepper rootSheoran et al. 2015
ProkaryotaPseudomonas Putidapositive influence of the plant root growth and protection against soil-borne pathogensNASheoran et al. 2015
ProkaryotaPseudomonas Aeruginosacan be used as biomarker for detection of this bacteriaNAYusuf et al. 2015
ProkaryotaBurkholderia CepaciaRhizosphereBlom et al. 2011
ProkaryotaPseudomonas Trivialisn/aNAKai et al. 2007
ProkaryotaPseudomonas Fluorescensn/aNAKai et al. 2007
ProkaryotaPseudomonas Fragin/aNAErcolini et al. 2009
ProkaryotaPseudomonas AeruginosaclinicPreti et al. 2009
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaPseudomonas AeruginosaNBTD/GC-MSno
ProkaryotaAcinetobacter BaumanniiBacT/ALERT SASPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaBHISPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLBSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBTD/GC-MSno
ProkaryotaPseudomonas AeruginosaBrain Heart InfusionTD/GC-MSno
ProkaryotaPseudomonas AeruginosaMueller–HintonTD/GC-MSno
ProkaryotaPseudomonas AeruginosaASMTD/GC-MSno
ProkaryotaPseudomonas Aeruginosatrypticase soy agarTD/GC-MSno
ProkaryotaPseudomonas Putidatrypticase soy agarTD/GC-MSno
ProkaryotaPseudomonas Fluorescenstrypticase soy agarTD/GC-MSno
ProkaryotaPseudomonas Aeruginosatryptic soy brothTD/GC-MSno
ProkaryotaShewanella Putrefacienstrypticase soy agarTD/GC-MSno
ProkaryotaStenotrophomonas Maltophiliatrypticase soy agarTD/GC-MSno
ProkaryotaPseudomonas AeruginosaColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaPseudomonas AeruginosaLevine EMB agar (LEA) (Fluka Analytical, UK)GC-MSno
EukaryotaPythium OligandrumV8 juice agarSPME/GC-MS/MSno
ProkaryotaPseudomonas AeruginosaMOPS glucoseSPME, GC-MSyes
ProkaryotaPseudomonas FluorescensLB agarGC-MSno
ProkaryotaPseudomonas Sp.LB media, DYGS media, ANGLE mediaHS-SPME/GC-MSyes
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaBacillus Sp.LB mediaSPME/GC-MSno
ProkaryotaAneurinibacillus AneurinilyticusLB mediaSPME/GC-MSno
ProkaryotaPseudomonas PalleronianaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaPseudomonas AzotoformansTSB media, MR-VP (Methyl Red-Vogos Proskeur) media, M+S (Murashige and Skoog) mediaSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSB mediaHS-SPME/GC-MSno
ProkaryotaBacillus AmyloliquefaciensTryptic soy agarSPME coupled with GC-MSno
ProkaryotaBacillus SubtilisTryptic soy agarSPME coupled with GC-MSno
ProkaryotaPaenibacillus PolymyxaTryptic soy agarSPME coupled with GC-MSno
ProkaryotaPseudomonas Sp.n/an/ano
ProkaryotaShewanella Sp.n/an/ano
ProkaryotaPseudomonas Fluorescensn/an/ano
ProkaryotaPseudomonas Corrugatan/an/ano
ProkaryotaPseudomonas Chlororaphisn/an/ano
ProkaryotaPseudomonas Aurantiacan/an/ano
EukaryotaTuber Mesentericumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
ProkaryotaBurkholderia AndropogonisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia AnthinaLB and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaledonicaAngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaribensisAngle and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaryophylliLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CepaciaAngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia FungorumLB and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GladioliLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GlatheiLB and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GlumaeLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GraminisMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia LataLB and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia LataMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenaziniumLB and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenoliruptrixLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhytofirmansLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PyrrociniaLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SacchariLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia TerricolaLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia ThailandensisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaCellulomonas UdaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaChromobacterium ViolaceumMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaEscherichia ColiLB and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaLimnobacter ThiooxidansLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas Aeruginosa LB, MR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas FluorescensLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas PutidaLB, MS and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia PlymuthicaLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaKlebsiella PneumoniaeTS brothHS-SPME/GC-MS no
ProkaryotaShewanella PutrefaciensTS brothGC-MS Super Qno
ProkaryotaCitrobacter FreundiiTS brothGC-MS SPMEyes
ProkaryotaEnterobacter AerogenesTS brothGC-MS SPMEyes
ProkaryotaEnterobacter CloacaeTS brothGC-MS SPMEyes
ProkaryotaEscherichia ColiTS brothGC-MS SPMEyes
ProkaryotaShigella SonneiTS brothGC-MS SPMEyes
ProkaryotaAcinetobacter JohnsoniiTS brothGC-MS SPMEyes
ProkaryotaPseudomonas FluorescensTS brothGC-MS SPMEyes
ProkaryotaShewanella PutrefaciensTS brothGC-MS SPMEyes
ProkaryotaLactobacillus LactisTS brothGC-MS SPMEyes
ProkaryotaStreptococcus ThermophilusTS brothGC-MS SPMEyes
ProkaryotaPseudomonas FluorescensKings B + rif,+kann; PDA GC-Q-TOF-MSno
ProkaryotaPseudomonas PutidaAB medium + 1% citrate or 0,02% citrate or 1% glucose +1% casaminoacid GC-FID,GC/MSno
ProkaryotaPseudomonas FluorescensAB medium + 1% citrateGC-FID,GC/MSno
ProkaryotaPseudomonas AeruginosaAB medium + 1% citrateGC-FID,GC/MSno
ProkaryotaPseudomonas TolaasiiKBSPME-GCno
ProkaryotaPseudomonas BrassicacearumKing's B AgarSPME-GC/MSno
ProkaryotaPseudomonas PutidaKing's B AgarSPME-GC/MSno
ProkaryotaPseudomonas VranovensisLB mediumGC/MSyes
ProkaryotaPseudomonas VeroniiLB mediumGC/MSyes
ProkaryotaPseudomonas ChlororaphisLB mediumGC/MSyes
ProkaryotaPseudomonas FluorescensLB mediumGC/MSyes
ProkaryotaPseudomonas FrederiksbergensisLB mediumGC/MSyes
ProkaryotaPseudomonas Aeruginosaminimal medium/ Brian mediumSPME-GC/MSno
ProkaryotaPseudomonas ChlororaphisLB mediumSPME-GC/MSno
ProkaryotaPseudomonas PutidaLuria Bertani AgarHeadspace GC/MSno
ProkaryotaPseudomonas PutidaTSBPropak Q adsorbent trap/GC-MSno
ProkaryotaPseudomonas Aeruginosablood agar base (TSBA)SPME/GC-MS no
ProkaryotaBurkholderia CepaciaAngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)yes
ProkaryotaPseudomonas Trivialisn/an/ano
ProkaryotaPseudomonas Fragin/an/ano
ProkaryotaPseudomonas AeruginosaBlood agar/chocolate blood agaHS-SPME/GC-MS no
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno


Tridecan-1-ol

Compound Details

Synonymous names
1-TRIDECANOL
Tridecanol
112-70-9
Tridecan-1-ol
Tridecyl alcohol
26248-42-0
n-Tridecan-1-ol
n-Tridecanol
n-Tridecyl alcohol
80206-82-2
1-Hydroxytridecane
MFCD00004756
DTXSID2021947
CHEBI:34123
NSC-5252
8I9428H868
DTXCID901947
N-TRIDECYL-D27 ALCOHOL
CAS-112-70-9
CCRIS 8591
HSDB 5574
NSC 5252
EINECS 203-998-8
BRN 1739991
AI3-35264
UNII-8I9428H868
EINECS 279-420-3
1-Tridecanol, 97%
Maybridge1_004320
SCHEMBL20879
1-TRIDECANOL [HSDB]
BIDD:ER0306
CHEMBL24832
WLN: Q13
TRIDECYL ALCOHOL [INCI]
HMS553M10
AMY5938
NSC5252
BBA24842
Tox21_202208
Tox21_300138
LMFA05000171
STL287936
AKOS005267216
CS-W004293
HY-W004293
MCULE-4385103550
NCGC00164019-01
NCGC00164019-02
NCGC00164019-03
NCGC00254162-01
NCGC00259757-01
1-Tridecanol, purum, >=98.0% (GC)
BP-28084
BS-14333
SY049489
NS00007712
T0803
H10847
EN300-1841776
A894533
Q161684
J-002821
J-016351
85AD1334-FDF8-446D-BF63-A7EE6B26FE07
F0001-0261
Microorganism:

Yes

IUPAC nametridecan-1-ol
SMILESCCCCCCCCCCCCCO
InchiInChI=1S/C13H28O/c1-2-3-4-5-6-7-8-9-10-11-12-13-14/h14H,2-13H2,1H3
FormulaC13H28O
PubChem ID8207
Molweight200.36
LogP5.7
Atoms14
Bonds11
H-bond Acceptor1
H-bond Donor1
Chemical Classificationalcohols
CHEBI-ID34123
Supernatural-IDSN0428927

mVOC Specific Details

Boiling Point
DegreeReference
152 °C peer reviewed
Volatilization
The Henry's Law constant for 1-tridecanol is estimated as 1.3X10-4 atm-cu m/mole(SRC) using a fragment constant estimation method(1). This Henry's Law constant indicates that 1-tridecanol is expected to volatilize from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as 14 hours(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as 8.5 days(SRC).However, volatilization from water surfaces is expected to be attenuated by adsorption to suspended solids and sediment in the water column. The volatilization half-life from a model pond is about 16 years when adsorption is considered(3). 1-Tridecanol's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). 1-Tridecanol is not expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 4.36X10-4 mm Hg(4).
Soil Adsorption
The Koc of 1-tridecanol is estimated as 35,000(SRC), using a log Kow of 5.82(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that 1-tridecanol is expected to be immobile in soil.
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaEscherichia ColiNANAFitzgerald et al. 2021
EukaryotaCandida AlbicansNAKarami et al. 2017
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBrevibacillus Agristimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaAneurinibacillus Aneurinilyticusstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Palleronianaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Mycoidesstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaEscherichia ColiSwedish Institute for Communicable Disease Control (SMI), Stockholm, SwedenSousa et al. 2023
Cyberlindnera FabianiiMa et al. 2023
Lactobacillus PlantarumMa et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaEscherichia ColiLBSPME/GC-MSno
ProkaryotaEscherichia ColiTSBSPME/GC-MSno
EukaryotaCandida AlbicansMueller Hinton broth (MB), tryptic soy broth (TSB)SPME, DVB/CAR/PDMS, GC-MSno
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaSPME/GC-MSno
ProkaryotaBacillus Sp.LB mediaSPME/GC-MSno
ProkaryotaBrevibacillus AgriLB mediaSPME/GC-MSno
ProkaryotaAneurinibacillus AneurinilyticusLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
ProkaryotaPseudomonas PalleronianaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaBacillus MycoidesMR-VP (Methyl Red-Vogos Proskeur) mediaSPME/GC-MSno
ProkaryotaEscherichia ColiLB mediaHS-SPME/GC-MSno
Cyberlindnera Fabianiituna cooking liquidHS-SPME-GC/MSno
Lactobacillus Plantarumtuna cooking liquidHS-SPME-GC/MSno


2-methylbutan-1-ol

Mass-Spectra

Compound Details

Synonymous names
2-METHYL-1-BUTANOL
2-Methylbutan-1-ol
137-32-6
Active amyl alcohol
1-Butanol, 2-methyl-
sec-Butylcarbinol
2-Methylbutanol
DL-2-Methyl-1-butanol
2-Methyl-n-butanol
2-Methylbutyl alcohol
Primary active amyl alcohol
2-Methyl butanol-1
Active primary amyl alcohol
dl-sec-Butyl carbinol
(+/-)-2-Methyl-1-butanol
Methyl-2-butan-1-ol
NSC 8431
34713-94-5
sec-Butyl carbinol
(1)-2-Methylbutan-1-ol
CH3CH2CH(CH3)CH2OH
7VTJ239ASU
L-2-Methyl-1-butanol
DTXSID5027069
CHEBI:48945
NSC-8431
DTXCID107069
(-)-2-methylbutanol
CAS-137-32-6
HSDB 5626
2-Methyl-Butan-1-Ol
EINECS 205-289-9
EINECS 252-163-4
UNII-7VTJ239ASU
BRN 1718810
AI3-24190
CCRIS 8805
D-2-METHYL-1-BUTANOL
2-methyl-butanol
( inverted exclamation markA)-2-Methyl-1-butanol
MFCD00004743
DL-sec-Butylcarbinol
(-)2-methylbutanol
2-methyl 1-butanol
Butanol, 2-methyl-
DL-2-METHYL-1-BUTANOL, PRACT
3-Methyl iso-butanol
(+)-2-methylbutanol
EC 205-289-9
(RS)-2-methyl-1-butanol
2-Methyl-(S)-1-Butanol
4-01-00-01666 (Beilstein Handbook Reference)
2-Methyl-(2S)-1-Butanol
CHEMBL451923
FEMA NO. 3998
2-Methyl-1-butanol, >=99%
NSC8431
2-METHYL-1-BUTANOL [MI]
WLN: Q1Y2 & 1
2-Methyl-(.+/-.)-1-Butanol
2-METHYL-1-BUTANOL [HSDB]
Tox21_201558
Tox21_303200
LMFA05000104
STL185573
2-Methyl-1-butanol, >=99%, FG
AKOS009159118
MCULE-6521026296
2-Methyl-1-butanol, analytical standard
2-METHYL-1-BUTANOL,(+/-)-
NCGC00249069-01
NCGC00256976-01
NCGC00259107-01
2-Methyl-1-butanol, natural, 99%, FG
DB-003288
M0175
NS00010145
(+/-)-2-METHYL-1-BUTANOL [FHFI]
EN300-126214
Q209425
(+/-)-2-Methyl-1-butanol, >=98.0% (GC)
J-510045
F0001-0469
Microorganism:

Yes

IUPAC name2-methylbutan-1-ol
SMILESCCC(C)CO
InchiInChI=1S/C5H12O/c1-3-5(2)4-6/h5-6H,3-4H2,1-2H3
FormulaC5H12O
PubChem ID8723
Molweight88.15
LogP1.2
Atoms6
Bonds2
H-bond Acceptor1
H-bond Donor1
Chemical Classificationalcohols
CHEBI-ID48945
Supernatural-IDSN0311840

mVOC Specific Details

Boiling Point
DegreeReference
128 °C peer reviewed
Volatilization
2-Methyl-1-butanol has an experimentally measured Henry's Law constant of 1.41X10-5 atm-cu m/mole at 25 deg C(1). This value of Henry's Law constant indicates that volatilization from environmental waters is slow, but may be significant from shallow rivers(3). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep flowing 1 m/sec with a wind velocity of 3 m/sec) can be estimated to be about 61 hr(2,SRC). Volatilization half-life from an model environmental pond can be estimated to be about 28 days(3,SRC).
Literature: (1) Hine J, Mookerjee PK; J Org Chem 40: 292-8 (1975) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods NY: McGraw-Hill pp. 15-15 to 15-29 (1982) (3) US EPA; EXAMS II Computer Simulation (1987)
Soil Adsorption
Based upon a water solubility of 30,000 mg/l at 25 deg C(1), the Koc for 2-methyl-1-butanol can be estimated to be 15 from a regression-derived equation(2,SRC). Based upon a measured log Kow of 1.29(3), the Koc for 2-methyl-1-butanol can be estimated to be 120 from a regression-derived equation(2,SRC). These BCF values suggest that 2-methyl-1-butanol has high to very high soil mobility(4).
Literature: (1) Barton AFM; Alcohols With Water. International Union of Pure and Applied Chemistry. Solubility Data Series. Vol 15 (1984) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods NY: McGraw-Hill p. 4-9 (1982) (3) Valvani SC et al; J Pharm Sci 70: 502-7 (1981) (4) Swann RL et al; Res Rev 85: 23 (1983)
Vapor Pressure
PressureReference
3.13 mm Hg at 25 deg CDaubert TE; Danner RP; Physical and Thermodynamic Properties of Pure Chemicals: Data Compilation, NY: Hemisphere Pub Corp (1989)
MS-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaStenotrophomonas RhizophilaNANAShestivska et al. 2015
ProkaryotaStenotrophomonas MaltophiliaNANAShestivska et al. 2015
EukaryotaCandida KruseiNANAHertel et al. 2016a
EukaryotaCandida GlabrataNANAHertel et al. 2016a
EukaryotaCandida TropicalisNANAHertel et al. 2016a
EukaryotaCandida AlbicansNANAHertel et al. 2016a
ProkaryotaMycobacterium BovisNANAMcNerney et al. 2012
EukaryotaAspergillus Versicolorwild strainsSchleibinger et al. 2005
EukaryotaChaetomium Globosumwild strainsSchleibinger et al. 2005
EukaryotaEurotium Amstelodamiwild strainsSchleibinger et al. 2005
EukaryotaPenicillium Brevicompactumwild strainsSchleibinger et al. 2005
EukaryotaAlternaria AlternataNAWeikl et al. 2016
EukaryotaFusarium OxysporumNAWeikl et al. 2016
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
ProkaryotaPaenibacillus PolymyxaNAMülner et al. 2021
EukaryotaAspergillus FlavusITEM collection of CNR-ISPA (Research National Council of Italy - Institute of Sciences of Food Production) in Bari, ItalyJosselin et al. 2021
ProkaryotaBacillus Mycoidesstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaSerratia Fonticolastimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaStenotrophomonas Maltophiliaantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)shoots of tomato plants (Elpida F1, Enza Zaden)López et al. 2021
ProkaryotaPantoea Vagansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaBacillus LicheniformisLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHMülner et al. 2020
ProkaryotaBacillus LicheniformisNAMülner et al. 2020
EukaryotaTrichoderma VirideNAMoisan et al. 2021
ProkaryotaBacillus Wiedmanniiantifungal activity against Fusarium solaniEnvironmental Biotechnology Laboratory of CIATEJ, Guadalajara (state of Jalisco), Mexico; isolated in from agricultural soilGutiérrez-Santa Ana et al. 2020
EukaryotaGrosmannia ClavigeraNorthern Forestry Centre Culture Collection (Edmonton, Alberta), originally cultured from the phloem of MPB-infested lodgepole pine trees near Banff, AlbertaWang et al. 2020
EukaryotaOphiostoma Ipsisolated from bark beetle galleries in lodgepole pineWang et al. 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
EukaryotaMalassezia GlobosaFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
EukaryotaMalassezia RestrictaFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
EukaryotaMalassezia SympodialisFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
EukaryotaTrichoderma VirideNAHung et al. 2013
ProkaryotaBacillus Amyloliquefaciensn/aNALee et al. 2012
ProkaryotaBacillus Subtilisn/aNALee et al. 2012
ProkaryotaPaenibacillus Polymyxan/aNALee et al. 2012
EukaryotaTuber Aestivumn/aAyme Truffe of Grignan, 26230 FranceMarch et al. 2006
EukaryotaTuber Brumalen/aAyme Truffe of Grignan, 26230 FranceMarch et al. 2006
EukaryotaTuber Melanosporumn/aAyme Truffe of Grignan, 26230 FranceMarch et al. 2006
EukaryotaTuber Mesentericumn/aAyme Truffe of Grignan, 26230 FranceMarch et al. 2006
EukaryotaTuber Rufumn/aAyme Truffe of Grignan, 26230 FranceMarch et al. 2006
EukaryotaMuscodor Albusn/aNACorcuff et al. 2011
ProkaryotaStreptomyces Albidoflavusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Sp.n/aNASchöller et al. 2002
ProkaryotaStreptomyces Rishiriensisn/aNASchöller et al. 2002
ProkaryotaStreptomyces Albusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Antibioticusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Aureofaciensn/aNASchöller et al. 2002
ProkaryotaStreptomyces Coelicolorn/aNASchöller et al. 2002
ProkaryotaStreptomyces Diastatochromogenesn/aNASchöller et al. 2002
ProkaryotaStreptomyces Griseusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Hirsutusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Hygroscopicusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Murinusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Olivaceusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Thermoviolaceusn/aNASchöller et al. 2002
ProkaryotaEscherichia Colin/aNABunge et al. 2008
ProkaryotaShigella Flexnerin/aNABunge et al. 2008
ProkaryotaSalmonella Enterican/aNABunge et al. 2008
EukaryotaCandida Tropicalisn/aNABunge et al. 2008
EukaryotaTuber Excavatumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Borchiin/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Aestivumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Brumalen/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Melanosporumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaPenicillium Chrysogenumn/aNAMeruva et al. 2004
EukaryotaRhizopus Stolonifern/aNAMeruva et al. 2004
EukaryotaLaccaria Bicolorn/aNAMueller et al. 2013
EukaryotaPaxillus Involutusn/aNAMueller et al. 2013
EukaryotaArmillaria Mellean/aNAMueller et al. 2013
EukaryotaPholiota Squarrosan/aNAMueller et al. 2013
EukaryotaVerticillium Longisporumn/aNAMueller et al. 2013
EukaryotaStropharia Rugosoannulatan/aNAMueller et al. 2013
EukaryotaAspergillus Ornatusn/aNAMeruva et al. 2004
EukaryotaTrichoderma Viriden/aNAWheatley et al. 1997
EukaryotaTrichoderma Pseudokoningiin/aNAWheatley et al. 1997
EukaryotaSaccharomyces Cerevisiaecontrol citrus black spot disease fermentation processesToffano et al. 2017
EukaryotaAspergillus Candiduscompost Fischer et al. 1999
EukaryotaAspergillus Fumigatuscompost Fischer et al. 1999
EukaryotaAspergillus Versicolorcompost Fischer et al. 1999
EukaryotaEmericella Nidulanscompost Fischer et al. 1999
EukaryotaPaecilomyces Variotiicompost Fischer et al. 1999
EukaryotaPenicillium Clavigerumcompost Fischer et al. 1999
EukaryotaPenicillium Glabrumcompost Fischer et al. 1999
ProkaryotaClostridium Difficileoutbreak 2006 UKRees et al. 2016
EukaryotaAureobasidium PullulansapplesDavis et al. 2012
EukaryotaCandida Shehataecacti, fruits, insects, natural habitatsNout and Bartelt 1998
ProkaryotaCitrobacter FreundiiAmerican Type Culture Collection Robacker and Bartelt 1997
ProkaryotaKlebsiella PneumoniaeAmerican Type Culture Collection Robacker and Bartelt 1997
EukaryotaSaccharomyces Cerevisiaegrape vineBecher et al. 2012
ProkaryotaStaphylococcus EpidermidisDSMZVerhulst et al. 2010
ProkaryotaEnterobacter Cloacaenaubiquitary,intestinalSchöller et al. 1997
ProkaryotaThermomonospora FuscanasoilWilkins 1996
EukaryotaAspergillus Versicolornadamp indoor environments, food productsSunesson et al. 1995
EukaryotaPenicillium Communenain dry-cured meat products, cheeseSunesson et al. 1995
EukaryotaPaecilomyces Variotiinacompost, soils, food productsSunesson et al. 1995
EukaryotaHypoxylon Anthochroumnaendophytic in Bursera lancifoliaUlloa-Benítez et al. 2016
EukaryotaXylaria Sp.naHaematoxylon brasiletto, Morelos, MexicoSánchez-Ortiz et al. 2016
EukaryotaAureobasidium Pullulansattracts waspsisolated from apples (with lepidopteran orchard pests)Davis et al. 2012
ProkaryotaEscherichia ColiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
EukaryotaGeotrichum Candidumcompost mixed with milky fermented productZirbes et al. 2011
ProkaryotaActinomycetes Sp.Is weakly active against wood-decaying fungi.NASchulz and Dickschat 2007
ProkaryotaLactobacillus RhamnosusnanaPogačić et al. 2016
EukaryotaTuber AestivumnaTarsul (as normal forest); Daix (man made orchard)Molinier et al. 2015
EukaryotaTuber MesentericumNoneNoneMarch et al. 2006
EukaryotaPenicillium ChrysogenumNoneNoneMeruva et al. 2004
EukaryotaRhizoctonia Solanicollection of the Sugar Beet Research Institute, Bergen op Zoom, The NetherlandsCordovez et al. 2017
ProkaryotaPaenibacillus Polymyxacollection TU GrazRybakova et al. 2017
EukaryotaAureobasidium PullulansNANAMozūraitis et al. 2022
EukaryotaCryptococcus WieringaeNANAMozūraitis et al. 2022
EukaryotaHanseniaspora UvarumNANAMozūraitis et al. 2022
EukaryotaPichia KudriavzeviiNANAMozūraitis et al. 2022
EukaryotaPichia FermentansNANAMozūraitis et al. 2022
EukaryotaPichia KluyveriNANAMozūraitis et al. 2022
EukaryotaPichia MembranifaciensNANAMozūraitis et al. 2022
EukaryotaSaccharomyces ParadoxusNANAMozūraitis et al. 2022
EukaryotaTorulaspora DelbrueckiiNANAMozūraitis et al. 2022
EukaryotaPichia AnomalaNANAMozūraitis et al. 2022
EukaryotaMetschnikowia PulcherrimaNANAMozūraitis et al. 2022
EukaryotaPhytophthora RamorumN/APhytophthora ramorumLoulier et al. 2020
Meyerozyma GuilliermondiiXiong et al. 2023
Saccharomyces CerevisiaeQin et al. 2024
Fusarium GraminearumBallot et al. 2023
MicrobacteriumBallot et al. 2023
Lactobacillus PlantarumZhang et al. 2023
Saccharomyces CerevisiaeJi et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaStenotrophomonas RhizophilaMHBSIFT-MSno
ProkaryotaStenotrophomonas MaltophiliaMHBSIFT-MSno
EukaryotaCandida KruseiSDATD/GC-MSno
EukaryotaCandida GlabrataSDATD/GC-MSno
EukaryotaCandida TropicalisSDATD/GC-MSno
EukaryotaCandida AlbicansSDATD/GC-MSno
ProkaryotaMycobacterium BovisLG + glycerolTD/GC-MS and SIFT-MSno
EukaryotaAspergillus Versicoloringrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaChaetomium Globosumingrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaEurotium Amstelodamiingrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaPenicillium Brevicompactumingrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaAlternaria AlternataSynthetic nutrientHead-space sorptive extraction, GC-MSno
EukaryotaFusarium OxysporumSynthetic nutrientHead-space sorptive extraction, GC-MSno
ProkaryotaPseudomonas Sp.DYGS mediaHS-SPME/GC-MSno
ProkaryotaPaenibacillus PolymyxaNA media, LB media, Landy mediaHS-SPME/GC-MSno
ProkaryotaPaenibacillus PolymyxaNA media, LB media, TSA mediaHS-SPME/GC-MSno
EukaryotaAspergillus FlavusSNA mediaSPME/GC-MSno
ProkaryotaBacillus MycoidesMR-VP (Methyl Red-Vogos Proskeur) mediaSPME/GC-MSno
ProkaryotaSerratia FonticolaM+S (Murashige and Skoog) mediaSPME/GC-MSno
ProkaryotaStenotrophomonas MaltophiliaTYB mediaGC-MSno
ProkaryotaPantoea VagansTYB mediaGC-MSno
ProkaryotaBacillus Licheniformisnutrient agarHS-SPME/GC-MSno
EukaryotaTrichoderma Viride1/5th PDA mediumGC-MSno
ProkaryotaBacillus WiedmanniiLB mediaSPME/GC-MSno
EukaryotaGrosmannia ClavigeraPDA mediaGC-MSno
EukaryotaOphiostoma IpsPDA mediaGC-MSno
ProkaryotaStaphylococcus EpidermidisLB mediaHS-SPME/GC×GC-TOFMSno
EukaryotaMalassezia Globosamodified Dixon agarHS-SPME/GC-MSno
EukaryotaMalassezia Restrictamodified Dixon agarHS-SPME/GC-MSno
EukaryotaMalassezia Sympodialismodified Dixon agarHS-SPME/GC-MSno
EukaryotaTrichoderma VirideMalt extract agar Headspace volatiles collected with colomn/TD-GC-MSyes
ProkaryotaBacillus AmyloliquefaciensTryptic soy agarSPME coupled with GC-MSno
ProkaryotaBacillus SubtilisTryptic soy agarSPME coupled with GC-MSno
ProkaryotaPaenibacillus PolymyxaTryptic soy agarSPME coupled with GC-MSno
EukaryotaTuber Aestivumn/aPressure balanced head-space sampling and GC/TOF-MSno
EukaryotaTuber Brumalen/aPressure balanced head-space sampling and GC/TOF-MSno
EukaryotaTuber Melanosporumn/aPressure balanced head-space sampling and GC/TOF-MSno
EukaryotaTuber Mesentericumn/aPressure balanced head-space sampling and GC/TOF-MSno
EukaryotaTuber Rufumn/aPressure balanced head-space sampling and GC/TOF-MSno
EukaryotaMuscodor Albusn/aHeadspace sampler/GC-MSno
ProkaryotaStreptomyces Albidoflavusn/an/ano
ProkaryotaStreptomyces Sp.n/an/ano
ProkaryotaStreptomyces Rishiriensisn/an/ano
ProkaryotaStreptomyces Albusn/an/ano
ProkaryotaStreptomyces Antibioticusn/an/ano
ProkaryotaStreptomyces Aureofaciensn/an/ano
ProkaryotaStreptomyces Coelicolorn/an/ano
ProkaryotaStreptomyces Diastatochromogenesn/an/ano
ProkaryotaStreptomyces Griseusn/an/ano
ProkaryotaStreptomyces Hirsutusn/an/ano
ProkaryotaStreptomyces Hygroscopicusn/an/ano
ProkaryotaStreptomyces Murinusn/an/ano
ProkaryotaStreptomyces Olivaceusn/an/ano
ProkaryotaStreptomyces Thermoviolaceusn/an/ano
ProkaryotaEscherichia Colin/an/ano
ProkaryotaShigella Flexnerin/an/ano
ProkaryotaSalmonella Enterican/an/ano
EukaryotaCandida Tropicalisn/an/ano
EukaryotaTuber Excavatumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Borchiin/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Aestivumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Brumalen/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Melanosporumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaPenicillium ChrysogenumPotato dextrose agar and tobacco products.Closedloop stripping analysis and GC/TOF-MS.no
EukaryotaRhizopus StoloniferPotato dextrose agar and tobacco products.Closedloop stripping analysis and GC/TOF-MS.no
EukaryotaLaccaria BicolorMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPaxillus InvolutusMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaArmillaria MelleaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPholiota SquarrosaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaVerticillium LongisporumMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaStropharia RugosoannulataMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaAspergillus OrnatusPotato dextrose agar and tobacco products.Closedloop stripping analysis and GC/TOF-MS.no
EukaryotaTrichoderma VirideMalt extract/Low mediumGC/MSno
EukaryotaTrichoderma PseudokoningiiMalt extract/Low mediumGC/MSno
EukaryotaSaccharomyces CerevisiaeYEPDAGC/MSno
EukaryotaAspergillus Candidusyest extract sucroseTenax/GC-MSno
EukaryotaAspergillus Fumigatusyest extract sucroseTenax/GC-MSno
EukaryotaAspergillus Versicoloryest extract sucroseTenax/GC-MSno
EukaryotaEmericella Nidulansyest extract sucroseTenax/GC-MSno
EukaryotaPaecilomyces Variotiiyest extract sucroseTenax/GC-MSno
EukaryotaPenicillium Clavigerumyest extract sucroseTenax/GC-MSno
EukaryotaPenicillium Glabrumyest extract sucroseTenax/GC-MSno
ProkaryotaClostridium Difficilebrain heart infusionGCxGC-TOF-MSyes
EukaryotaAureobasidium PullulansSabouraud dextrose agarGC-MSyes
EukaryotaCandida Shehataeyeast malt agarSPME, GC-MSyes
ProkaryotaCitrobacter Freundiitryptic soy broth SPME, GC-MSyes
ProkaryotaKlebsiella Pneumoniaetryptic soy broth SPME, GC-MSyes
EukaryotaSaccharomyces Cerevisiaesynthetic minimal mediumGC-MS, EIyes
ProkaryotaStaphylococcus EpidermidisCLSA, charcoal, GC-MSno
ProkaryotaEnterobacter CloacaeAB medium + 1% citrateGC-FID,GC/MSno
ProkaryotaThermomonospora FuscaNutrient agar CM3GC/MSno
EukaryotaAspergillus VersicolorDG18GC/MSno
EukaryotaPenicillium CommuneDG18,MEAGC/MSno
EukaryotaPaecilomyces VariotiiDG18,MEAGC/MSno
EukaryotaHypoxylon AnthochroumPDA/WA + 500 mg l^-1 ChloramphenicolSPME-GC/MSyes
EukaryotaXylaria Sp.PDA mediumSPME-GC/MSyes
EukaryotaAureobasidium PullulansSabouraud Dextrose AgarGC/FIDyes
ProkaryotaEscherichia ColiTS brothGC-MS Super Qno
EukaryotaGeotrichum Candidummedium 863SPME-GC-MSyes
ProkaryotaActinomycetes Sp.n/an/ano
ProkaryotaLactobacillus Rhamnosuscurd-based broth mediumGC/MSyes
EukaryotaTuber AestivumnaSPME-GC/MSno
EukaryotaTuber MesentericumNonePressure balanced head-space sampling and GC/TOF-MSno
EukaryotaPenicillium ChrysogenumPotato dextrose agar and tobacco products.Closedloop stripping analysis and GC/TOF-MS.yes
EukaryotaRhizoctonia SolaniPotato Dextrose Agar6Tenax TA / TDGC-MSyes
ProkaryotaPaenibacillus PolymyxaGC-MS / SPMEno
EukaryotaAureobasidium PullulansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaCryptococcus WieringaeYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaHanseniaspora UvarumYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KudriavzeviiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia FermentansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KluyveriYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia MembranifaciensYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaSaccharomyces ParadoxusYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaTorulaspora DelbrueckiiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia AnomalaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaMetschnikowia PulcherrimaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPhytophthora RamorumPotato Dextrose AgarSPME/GC-MS/MSstandard
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno
Saccharomyces Cerevisiaefermentation of mulberry wineHS-SPME-GC-MSno
Fusarium Graminearumtryptone soy (TS medium; Carl Roth, Karlsruhe, Germany)GC-QQQ-MSno
Microbacteriumtryptone soy (TS medium; Carl Roth, Karlsruhe, Germany)GC-QQQ-MSno
Lactobacillus PlantarumHabanero pepperGC–IMSno
Saccharomyces CerevisiaeSauce Meat during StorageSPME–GC–MSno


Nonan-1-ol

Mass-Spectra

Compound Details

Synonymous names
Nonan-1-ol
1-Nonanol
143-08-8
Nonanol
NONYL ALCOHOL
n-Nonyl alcohol
Pelargonic alcohol
1-Hydroxynonane
Nonalol
Octyl carbinol
n-Nonanol
n-Nonan-1-ol
Alcohol C-9
Nonylalkohol
Pelargonalkohol
Alcohol C9
FEMA No. 2789
28473-21-4
NSC 5521
MFCD00002990
NGK73Q6XMC
DTXSID6022008
CHEBI:35986
NSC-5521
C9 alcohol
HSDB 5145
EINECS 205-583-7
UNII-NGK73Q6XMC
BRN 0969213
nonanols
nonyl-alcohol
AI3-03962
N-nonyl-alcohol
EINECS 249-048-6
Nonanol-(1)
Nonyl alcohol, 8CI
1-Nonanol, 98%
EC 205-583-7
NONYL ALCOHOL [FCC]
SCHEMBL19807
NONYL ALCOHOL [FHFI]
NONYL ALCOHOL [HSDB]
WLN: Q9
4-01-00-01798 (Beilstein Handbook Reference)
BIDD:ER0370
CHEMBL24563
N-NONYL ALCOHOL [MI]
DTXCID402008
Nonyl alcohol, >=98%, FCC
BDBM22607
FEMA 2789
NSC5521
Tox21_300869
LMFA05000092
STL283956
AKOS009031412
CS-W009532
DB03143
HY-W008816
MCULE-4020281400
1-Nonanol, purum, >=98.0% (GC)
NCGC00248194-01
NCGC00254773-01
BP-31117
BS-42231
CAS-143-08-8
SY011469
N0292
NS00002633
EN300-19921
D70513
A808013
Q161662
J-007741
F0001-0508
Z104476100
2E051A08-F94E-40C2-88CA-7030E15C76BF
InChI=1/C9H20O/c1-2-3-4-5-6-7-8-9-10/h10H,2-9H2,1H
Microorganism:

Yes

IUPAC namenonan-1-ol
SMILESCCCCCCCCCO
InchiInChI=1S/C9H20O/c1-2-3-4-5-6-7-8-9-10/h10H,2-9H2,1H3
FormulaC9H20O
PubChem ID8914
Molweight144.25
LogP4.3
Atoms10
Bonds7
H-bond Acceptor1
H-bond Donor1
Chemical Classificationalcohols
CHEBI-ID35986
Supernatural-IDSN0482343

mVOC Specific Details

Boiling Point
DegreeReference
213.3 °C peer reviewed
Volatilization
The Henry's Law constant for 1-nonanol estimated as 3.08X10-5 atm-cu m/mol(SRC) derived from its vapor pressure, 2.27X10-2 mm Hg at 25 deg C(1), and water solubility, 140 mg/L(2). This Henry's Law constant indicates that 1-nonanol is expected to volatilize from water surfaces(3). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(3) is estimated as 1.6 days(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(3) is estimated as 15 days(SRC). 1-Nonanol's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). 1-Nonanol is not expected to volatilize from dry soil surfaces(SRC) based upon its vapor pressure(1).
Literature: (1) Daubert TE, Danner RP; Data Compilation Tables of Properties of Pure Compounds NY, NY: Amer Inst for Phys Prop Data (1989) (2) Barton AFM; pp. 438 in Solubility Data Series Vol 15 (1984) (3) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990)
Soil Adsorption
An estimated BCF of 160 was calculated for 1-nonanol(SRC), using a log Kow of 3.77(1) and a regression-derived equation(2). According to a classification scheme(3), this BCF suggests the potential for bioconcentration in aquatic organisms is high(SRC), provided the compound is not metabolized by the organism(SRC).
Literature: (1) Barton AFM; pp. 438 in Solubility Data Series Vol 15 (1984) (2) Meylan WM et al; Environ Sci Technol 26: 1560-7 (1992) (3) Swann RL et al; Res Rev 85: 17-28 (1983) (4) Lyman WJ et al; Handbook of Chemical Property Estimation Methods, NY: McGraw-Hill Chapt 4, Eqn 4-5 (1982)
Vapor Pressure
PressureReference
0.0227 mm Hg at 25 deg C (est)Daubert, T.E., R.P. Danner. Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, D.C.: Taylor and Francis, 1989.
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaEscherichia ColiNANADixon et al. 2022
ProkaryotaLactobacillus PlantarumNAYang et al. 2022
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Palleronianaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaMicrobacterium Paraoxydansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaErwinia Amylovoraenhances Arabidopsis thaliana shoot and root growthbacterial collection of the LabParmagnani et al. 2023
ProkaryotaBacillus Subtilisrhizosphere of Haloxylon ammodendronHe et al. 2023
ProkaryotaDinoroseobacter Shibaen/aNADickschat et al. 2005_4
ProkaryotaPseudomonas Fragin/aNAErcolini et al. 2009
ProkaryotaStreptococcus Mutans as a biomarker for a breath test for detection of cariesNAHertel et al. 2016
EukaryotaGanoderma Lucidumnasaprophytic on deciduous treesCampos Ziegenbein et al. 2006
EukaryotaFusarium Graminearumn/aNABusko et al. 2014
EukaryotaTuber Mesentericumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
ProkaryotaLactobacillus PlantarumNANAZhang et al. 2022
EukaryotaWickerhamomyces AnomalusNANAShi et al. 2022
EukaryotaMeyerozyma GuilliermondiiNANAZhao et al. 2022
EukaryotaSaccharomycopsis ViniNANAZhao et al. 2022
EukaryotaWickerhamomyces AnomalusNANAZhao et al. 2022
EukaryotaHanseniaspora ValbyensisNANATran et al. 2022
Bacillus ThuringiensisKoilybayeva et al. 2023
Bacillus ToyonensisKoilybayeva et al. 2023
Bacillus SafensisKoilybayeva et al. 2023
Cyberlindnera FabianiiMa et al. 2023
Saccharomyces CerevisiaePeng et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaEscherichia ColiLBTD/GC-MSno
ProkaryotaLactobacillus Plantarumginkgo biloba kernel juicetriple quadrupole GC-MSno
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaPseudomonas PalleronianaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaMicrobacterium ParaoxydansTYB mediaGC-MSno
ProkaryotaErwinia AmylovoraSBSE/GC-MSyes
ProkaryotaBacillus Subtilis1/2 MS mediaSPME/GC-MSyes
ProkaryotaDinoroseobacter Shibaen/an/ano
ProkaryotaPseudomonas Fragin/an/ano
ProkaryotaStreptococcus MutansBrain-Heart-Infusion agarTenax-trap/GC-MSno
EukaryotaGanoderma LucidumnaGC/MSno
EukaryotaFusarium Graminearumyeast extract sucrose agarSPME/GC-MSno
EukaryotaTuber Mesentericumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
ProkaryotaLactobacillus Plantarumchickpea milkUHPLC/MSno
EukaryotaWickerhamomyces Anomalusmedium consisted of glucose (20 g/l), peptone (5 g/l), agar (20 g/l) and amoxicillin (1 g/l)SPME with GC-MSno
EukaryotaWickerhamomyces Anomalussolid-state fermentation starter culture DaquSPME coupled with GC-MSno
EukaryotaMeyerozyma Guilliermondiisynthetic grape juiceHS-SPMEno
EukaryotaSaccharomycopsis Vinisynthetic grape juiceHS-SPMEno
EukaryotaWickerhamomyces Anomalussynthetic grape juiceHS-SPMEno
EukaryotaHanseniaspora Valbyensissugared green and black teaHS-SPME-GC/MSno
Bacillus Thuringiensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Toyonensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Safensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Cyberlindnera Fabianiituna cooking liquidHS-SPME-GC/MSno
Saccharomyces Cerevisiaesea buckthorn juiceHS-SPME-GC–MS/UHPLC–MSno


Nonan-2-ol

Mass-Spectra

Compound Details

Synonymous names
2-NONANOL
NONAN-2-OL
628-99-9
1-Methyl-1-octanol
2-Nonyl Alcohol
Methyl heptyl carbinol
Heptylmethylcarbinol
Heptyl methyl carbinol
Methylheptylcarbinol
n-Nonan-2-ol
FEMA No. 3315
Nonanol-(2)
(R)-()-2-Nonanol
CHEBI:78304
NSC-9481
MFCD00004593
292T5234DX
70419-06-6
2-hydroxynonane
1-Octanol, methyl-
2-Nonanol (natural)
UNII-292T5234DX
NSC9481
NSC 9481
EINECS 211-065-1
2-Nonanol, 99%
AI3-37210
DL-NONAN-2-OL
2-NONANOL [FHFI]
2-Nonanol, >=97%
SCHEMBL162308
CHEMBL454517
(+/-)-2-NONANOL
FEMA 3315
DTXSID60862323
LMFA05000619
AKOS009157271
MCULE-5218382339
SB83909
AS-56260
CS-0319684
N0334
NS00042763
D97855
A868320
Q4596913
Microorganism:

Yes

IUPAC namenonan-2-ol
SMILESCCCCCCCC(C)O
InchiInChI=1S/C9H20O/c1-3-4-5-6-7-8-9(2)10/h9-10H,3-8H2,1-2H3
FormulaC9H20O
PubChem ID12367
Molweight144.25
LogP3.4
Atoms10
Bonds6
H-bond Acceptor1
H-bond Donor1
Chemical Classificationalcohols
CHEBI-ID78304
Supernatural-IDSN0244624

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaPseudomonas AeruginosaNANAFitzgerald et al. 2021
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
ProkaryotaPseudomonas Azotoformansisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaPseudomonas AeruginosaLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaEscherichia ColiLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaPantoea Vagansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaArthrobacter Phenanthrenivoransantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)shoots of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaLeuconostoc Citreumnagoat cheese wheyPogačić et al. 2016
EukaryotaMetschnikowia PulcherrimaNANALjunggren et al. 2019
EukaryotaZygosaccharomyces RouxiiNANAPei et al. 2022
ProkaryotaAchromobacter Sp.NANAAlmeida et al. 2022
ProkaryotaSerratia Sp.NANAAlmeida et al. 2022
ProkaryotaEnterobacter Sp.NANAAlmeida et al. 2022
EukaryotaAureobasidium PullulansNANAMozūraitis et al. 2022
EukaryotaHanseniaspora UvarumNANAMozūraitis et al. 2022
EukaryotaPichia FermentansNANAMozūraitis et al. 2022
EukaryotaSaccharomyces ParadoxusNANAMozūraitis et al. 2022
EukaryotaTorulaspora DelbrueckiiNANAMozūraitis et al. 2022
EukaryotaMetschnikowia PulcherrimaNANAMozūraitis et al. 2022
ProkaryotaPseudomonas SegetisNANAToral et al. 2021
ProkaryotaBacillus VelezensisNANAToral et al. 2021
EukaryotaSaccharomyces CerevisiaeNANAZhao et al. 2022
EukaryotaSaccharomycopsis ViniNANAZhao et al. 2022
Cyberlindnera FabianiiMa et al. 2023
Lactobacillus PlantarumMa et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaPseudomonas AeruginosaBHISPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLBSPME/GC-MSno
ProkaryotaPseudomonas Sp.LB media, DYGS mediaHS-SPME/GC-MSyes
ProkaryotaPseudomonas Sp.LB mediaHS-SPME/GC-MSyes
ProkaryotaPseudomonas Sp.DYGS mediaHS-SPME/GC-MSyes
ProkaryotaPseudomonas AzotoformansTSB mediaSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSB mediaHS-SPME/GC-MSno
ProkaryotaEscherichia ColiTSB mediaHS-SPME/GC-MSno
ProkaryotaPantoea VagansTYB mediaGC-MSno
ProkaryotaArthrobacter PhenanthrenivoransTYB mediaGC-MSno
ProkaryotaLeuconostoc Citreumcurd-based broth mediumGC/MSyes
EukaryotaMetschnikowia Pulcherrimaliquid YPD mediumGC-MSno
EukaryotaZygosaccharomyces RouxiiYPD mediumGC-MSno
ProkaryotaAchromobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaSerratia Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaEnterobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
EukaryotaAureobasidium PullulansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaHanseniaspora UvarumYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia FermentansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaSaccharomyces ParadoxusYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaTorulaspora DelbrueckiiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaMetschnikowia PulcherrimaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
ProkaryotaPseudomonas SegetisMOLPHS-SPME-GC/MSno
ProkaryotaBacillus VelezensisMOLPHS-SPME-GC/MSno
EukaryotaSaccharomyces Cerevisiaesynthetic grape juiceHS-SPMEno
EukaryotaSaccharomycopsis Vinisynthetic grape juiceHS-SPMEno
Cyberlindnera Fabianiituna cooking liquidHS-SPME-GC/MSno
Lactobacillus Plantarumtuna cooking liquidHS-SPME-GC/MSno


3-methylbutan-1-ol

Mass-Spectra

Compound Details

Synonymous names
Isoamyl alcohol
3-Methyl-1-butanol
Isopentyl alcohol
3-Methylbutan-1-ol
123-51-3
Isopentanol
3-Methylbutanol
1-Butanol, 3-methyl-
Isoamylol
Isobutylcarbinol
Iso-amylalkohol
2-Methyl-4-butanol
Isobutyl carbinol
Iso-amyl alcohol
ISOAMYLALCOHOL
Alcool isoamylique
Amylowy alkohol
Isoamyl alkohol
Alcool amilico
Fermentation amyl alcohol
i-Amyl Alcohol
3-Metil-butanolo
isopentan-1-ol
Primary isoamyl alcohol
Isoamyl alcohol (natural)
1-Hydroxy-3-Methylbutane
FEMA No. 2057
FEMA Number 2057
NSC 1029
3-methylbutyl alcohol
MFCD00002934
HSDB 605
Isopentylalkohol
3-Methyl-Butan-1-Ol
Isoamyl alcohol, primary
UNII-DEM9NIT1J4
DEM9NIT1J4
3-methyl-Butanol
EINECS 204-633-5
CCRIS 8806
DTXSID3025469
CHEBI:15837
AI3-15288
Methyl-3-butan-1-ol
NSC-1029
NSC-7905
Butan-1-ol, 3-methyl
Fuseloel
DTXCID705469
Huile de fusel
3-METHYL-BUTAN-(1)-OL
EC 204-633-5
EINECS 229-179-5
Magnesium bis(3-methylbutan-1-olate)
isoamyl-alcohol
WLN: Q2Y1 & 1
Isoamyl alkohol [Czech]
Alcool amilico [Italian]
Amylowy alkohol [Polish]
Iso-amylalkohol [German]
3-METHYL-1-BUTANOL (USP-RS)
3-METHYL-1-BUTANOL [USP-RS]
Alcool isoamylique [French]
3-Metil-butanolo [Italian]
6423-06-9
iso-amylalcohol
isopentylalcohol
3-methylbutanoI
3-methyl butanol
Iso Amyl Alcohol
3-methyl 1-butanol
3-methyl-1 butanol
3-methylbutane-1-ol
Butanol, 3-methyl-
Isoamyl alcohol (primary and secondary)
?3-Methyl-1-butanol
POTATO SPIRIT OIL
3-Methyl-1-butanol, 98%
ISOAMYL ALCOHOL [FCC]
ISOAMYL ALCOHOL [FHFI]
ISOAMYL ALCOHOL [HSDB]
ISOAMYL ALCOHOL [INCI]
ISOPENTYL ALCOHOL [MI]
CHEMBL372396
QSPL 002
Isoamyl alcohol, >=98%, FG
NSC1029
NSC7905
for molecular biology,>99%(GC)
Isoamyl alcohol (3-methyl butanol)
isopentyl alcohol (isoamyl alcohol)
3-Methylbutanol, analytical standard
Tox21_302359
LMFA05000108
STL282718
3-Methyl-1-butanol A.C.S. Reagent
3-Methyl-1-butanol, LR, >=98%
AKOS000118739
DB02296
MCULE-7411270401
3-Methyl-1-butanol, p.a., 99.8%
Isoamyl alcohol, natural, >=98%, FG
3-Methyl-1-butanol, analytical standard
NCGC00255329-01
3-Methyl-1-butanol, anhydrous, >=99%
8013-75-0
CAS-123-51-3
3-Methyl-1-butanol, reagent grade, 98%
3-Methyl-1-butanol, technical grade, 95%
I0289
NS00008204
EN300-19333
3-Methyl-1-butanol, ACS reagent, >=98.5%
3-Methyl-1-butanol, biotech. grade, >=99%
3-Methyl-1-butanol, ReagentPlus(R), >=99%
C07328
3-Methyl-1-butanol, SAJ first grade, >=96.0%
Q223101
3-Methyl-1-butanol, JIS special grade, >=98.0%
F0001-0367
Z104473558
3-Methylbutanol, BioReagent, for molecular biology, >=98.5%
3-Methylbutanol, puriss. p.a., ACS reagent, >=98.5% (GC)
3-Methylbutanol, BioUltra, for molecular biology, >=99.0% (GC)
InChI=1/C5H12O/c1-5(2)3-4-6/h5-6H,3-4H2,1-2H
3-Methyl-1-butanol, United States Pharmacopeia (USP) Reference Standard
3-Methylbutanol, p.a., ACS reagent, reag. ISO, reag. Ph. Eur., 98.5%
Microorganism:

Yes

IUPAC name3-methylbutan-1-ol
SMILESCC(C)CCO
InchiInChI=1S/C5H12O/c1-5(2)3-4-6/h5-6H,3-4H2,1-2H3
FormulaC5H12O
PubChem ID31260
Molweight88.15
LogP1.2
Atoms6
Bonds2
H-bond Acceptor1
H-bond Donor1
Chemical Classificationalcohols
CHEBI-ID15837
Supernatural-IDSN0285775

mVOC Specific Details

Boiling Point
DegreeReference
132.5 °C peer reviewed
Volatilization
The Henry's Law constant for isopentanol is 1.41X10-5 atm-cu m/mol(1). Using this value for the Henry's Law constant, one can estimate that the volatilization half-life of isopentanol in a model river 1 m deep flowing at 1 m/s with a wind speed of 3 m/s is 2.55 days(2). Similarly, the half-life of isopentanol in a model lake 1 m deep with a 0.05 m/s current and a 0.5 m/s wind is 21 days(2). In view of isopentanol's relatively high vapor pressure, 2.37 mm Hg at 25 deg C(3) and moderate Henry's Law constant and low adsorptivity to soil, isopentanol would be expected to volatilize from dry and moist soil(SRC).
Literature: (1) Butler JAV et al; J Chem Soc 1935: 280-5 (1935) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. NY: McGraw-Hill Chapt 15 (1982) (3) Riddick JA et al; Organic Solvents 4th ed; pp. 221-2 NY: Wiley (1986)
Soil Adsorption
The Koc for isopentanol estimated from its water solubility, 26.7 mg/L(1), using recommended regression equations are 720(2) and 679(4). However, the chemicals used in developing these equations were mainly pesticides and their structures are not similar to isopentanol. The Koc for isopentanol estimated from molecular structure is 4(3). This should be a reasonable estimate for the Koc because it is close to the experimental value for the structurally similar chemical, 1-pentanol, 1.6(6). According to a suggested classification scheme(5), the estimated Kocs based on molecular structure suggests that isopentanol is very highly mobile in soil(SRC).
Literature: (1) Riddick JA et al; Organic Solvents 4th ed; pp. 211-2 NY: Wiley (1986) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. NY: McGraw-Hill Chapt 4 (1982) (3) Meylan WM et al; Environ Sci Technol 26: 1560-7 (1992) (4) Wauchope RD et al; Rev Environ Contam Toxicol 123: 1-155 (1991) (5) Swann RL et al; Res Rev 85: 17-28 (1983) (6) Gerstl Z, Helling CS; J Environ Sci Health B22: 55-69 (1987)
Vapor Pressure
PressureReference
2.37 mm Hg @ 25 deg CRiddick, J.A., W.B. Bunger, Sakano T.K. Techniques of Chemistry 4th ed., Volume II. Organic Solvents. New York, NY: John Wiley and Sons., 1985., p. 211
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaStaphylococcus AureusNANAZhu et al. 2010
ProkaryotaStenotrophomonas RhizophilaNANAShestivska et al. 2015
ProkaryotaStenotrophomonas MaltophiliaNANAShestivska et al. 2015
ProkaryotaKlebsiella PneumoniaeNANAAhmed et al. 2023
ProkaryotaStaphylococcus AureusNANAAhmed et al. 2023
EukaryotaAspergillus FumigatusNANAHeddergott et al. 2014
EukaryotaCandida DubliniensisNANAMartins et al. 2007
EukaryotaCandida AlbicansNANAMartins et al. 2007
EukaryotaCandida ParapsilosisNANAFitzgerald et al. 2022
EukaryotaCandida AlbicansNANAFitzgerald et al. 2022
ProkaryotaEscherichia ColiNANAFitzgerald et al. 2021
ProkaryotaKlebsiella PneumoniaeNANALuo et al. 2023
ProkaryotaPseudomonas AeruginosaNANAFitzgerald et al. 2021
ProkaryotaStaphylococcus AureusNANAJia et al. 2010
ProkaryotaStaphylococcus AureusNANAFitzgerald et al. 2021
EukaryotaAspergillus NigerNANACosta et al. 2016
EukaryotaCandida AlbicansNANACosta et al. 2016
EukaryotaPenicillium ChrysogenumNANACosta et al. 2016
ProkaryotaPseudomonas AeruginosaNANABean et al. 2012
ProkaryotaPseudomonas AeruginosaNANADavis et al. 2020
EukaryotaCandida GlabrataNANAHertel et al. 2016a
EukaryotaCandida TropicalisNANAHertel et al. 2016a
EukaryotaCandida KruseiNANAHertel et al. 2016a
EukaryotaCandida AlbicansNANAHertel et al. 2016a
ProkaryotaEscherichia ColiNANADixon et al. 2022
ProkaryotaKlebsiella PneumoniaeNANAZechman et al. 1986
ProkaryotaKlebsiella PneumoniaeNANALawal et al. 2018a
ProkaryotaPseudomonas AeruginosaNANAZechman et al. 1986
ProkaryotaPseudomonas AeruginosaNANANA
ProkaryotaPseudomonas FluorescensNANANA
ProkaryotaPseudomonas PutidaNANANA
ProkaryotaPseudomonas AeruginosaNANAFilipiak et al. 2012
ProkaryotaShewanella PutrefaciensNANANA
ProkaryotaStaphylococcus AureusNANAZechman et al. 1986
ProkaryotaStaphylococcus AureusNANAFilipiak et al. 2012
ProkaryotaStenotrophomonas MaltophiliaNANANA
EukaryotaCandida AlbicansNANAPerl et al. 2011
ProkaryotaEnterobacter CloacaeNANAJünger et al. 2012
ProkaryotaKlebsiella PneumoniaeNANAJünger et al. 2012
ProkaryotaPseudomonas AeruginosaNANAJünger et al. 2012
ProkaryotaStaphylococcus AureusNANAJünger et al. 2012
ProkaryotaStreptococcus AgalactiaeNANAJünger et al. 2012
ProkaryotaStreptococcus PneumoniaeNANAJünger et al. 2012
ProkaryotaMycobacterium BovisNANAMcNerney et al. 2012
ProkaryotaEnterobacter CloacaeNALawal et al. 2018
ProkaryotaPseudomonas AeruginosaNALawal et al. 2018
EukaryotaAspergillus Versicolorwild strainsSchleibinger et al. 2005
EukaryotaChaetomium Globosumwild strainsSchleibinger et al. 2005
EukaryotaEurotium Amstelodamiwild strainsSchleibinger et al. 2005
EukaryotaPenicillium Brevicompactumwild strainsSchleibinger et al. 2005
ProkaryotaErwinia AmylovoraNACellini et al. 2018
ProkaryotaKlebsiella PneumoniaeNARees et al. 2017
ProkaryotaAcinetobacter RadioresistensNATimm et al. 2018
ProkaryotaCorynebacterium XerosisNATimm et al. 2018
EukaryotaSaccharomyces CerevisiaeNACaballero Ortiz et al. 2018
ProkaryotaShigella SonneiChina Center of Industrial Culture collectionWang et al. 2018
ProkaryotaVibrio ParahaemolyticusChina Center of Industrial Culture collectionWang et al. 2018
ProkaryotaStaphylococcus AureusChina Center of Industrial Culture collectionWang et al. 2018
EukaryotaAspergillus KawachiiNADickschat et al. 2018
EukaryotaFusarium OxysporumonionWang et al. 2018
EukaryotaFusarium ProliferatumonionWang et al. 2018
EukaryotaFusarium Oxysporum0NALi et al. 2018
EukaryotaTrichoderma Harzianum0NALi et al. 2018
EukaryotaAureobasidium PullulansNAContarino et al. 2019
EukaryotaMetschnikowia PulcherrimaNAContarino et al. 2019
EukaryotaSaccharomyces CerevisiaeNAContarino et al. 2019
EukaryotaWickerhamomyces AnomalusNAContarino et al. 2019
EukaryotaFusarium OxysporumNALi et al. 2018
EukaryotaTrichoderma HarzianumNALi et al. 2018
EukaryotaFusarium VerticillioidesNAUsseglio et al. 2017
ProkaryotaBacillus Subtilisantibacterial activity against growth of Ralstonia solanacearumPlant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New DelhiKashyap et al. 2022
ProkaryotaPseudomonas Fluorescensantibacterial activity against growth of Ralstonia solanacearumPlant Bacteriology Lab, Division of Plant Pathology, Indian Council of Agricultural Research - Indian Agricultural Research Institute, New DelhiKashyap et al. 2022
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBrevibacillus Agristimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Palleronianaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaStaphylococcus EpidermidisDSMZ - Deutsche Sammlung von Mikroorganismen und ZellkulturenVerhulst et al. 2009
ProkaryotaPaenibacillus PolymyxaNAMülner et al. 2021
EukaryotaAspergillus FlavusITEM collection of CNR-ISPA (Research National Council of Italy - Institute of Sciences of Food Production) in Bari, ItalyJosselin et al. 2021
ProkaryotaBacillus Mycoidesstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaSerratia Fonticolastimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaPseudomonas Azotoformansisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaStaphylococcus AureusLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaPseudomonas AeruginosaLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaEscherichia ColiLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaStaphylococcus Epidermidisstrains were provided by Prof. O'Gara at NUI GalwayFitzgerald et al. 2020
ProkaryotaStenotrophomonas Maltophiliaantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)shoots of tomato plants (Elpida F1, Enza Zaden)López et al. 2021
ProkaryotaStaphylococcus Pasteuriantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)fruits of tomato plants (Elpida F1, Enza Zaden)López et al. 2021
ProkaryotaArthrobacter Ureafaciensantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaMicrobacterium Paraoxydansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaPantoea Vagansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaPseudomonas Mediterraneaantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)roots of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaArthrobacter Phenanthrenivoransantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)shoots of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaBacillus Sp.antifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)NALópez et al. 2021
ProkaryotaBacillus AmyloliquefaciensLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHMülner et al. 2020
ProkaryotaBacillus VelezensisNAMülner et al. 2020
ProkaryotaBacillus LicheniformisLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHMülner et al. 2020
ProkaryotaBacillus LicheniformisNAMülner et al. 2020
ProkaryotaBacillus PumilusNAMülner et al. 2020
EukaryotaFusarium OxysporumNAMoisan et al. 2021
EukaryotaChaetomium IndicumNAMoisan et al. 2021
ProkaryotaLysobacter Capsiciantifungal activity against the growth of Pythium ultimum, Rhizoctonia solani and Sclerotinia minorNAVlassi et al. 2020
ProkaryotaBacillus Velezensisinhibite the growth of Botrytis cinerea VG1, Monilinia fructicola VG 104, Monilinia laxa VG 105, Penicillium digitatum VG 20, Penicillium expansum CECT 20140, Penicillium italicum VG 106NACalvo et al. 2020
ProkaryotaBacillus Velezensisinhibite the growth of Botrytis cinerea VG1, Monilinia fructicola VG 104, Monilinia laxa VG 105, Penicillium digitatum VG 20, Penicillium expansum CECT 20140, Penicillium italicum VG 116NACalvo et al. 2020
ProkaryotaStaphylococcus AureusNational Collections of Industrial Food and Marine Bacteria, American Type Culture Collection, Southmead HospitalSlade et al. 2022
ProkaryotaBacillus Wiedmanniiantifungal activity against Fusarium solaniEnvironmental Biotechnology Laboratory of CIATEJ, Guadalajara (state of Jalisco), Mexico; isolated in from agricultural soilGutiérrez-Santa Ana et al. 2020
ProkaryotaRahnella Aquatilisantifungal activity on the mycelial growth of Colletotrichum gloeosporioidesisolate from the rhizosphere soil of a 28-year-old Pinus massoniana in Nanning, Guangxi; stored in the typical Culture Preservation Center of ChinaKong et al. 2020
EukaryotaGrosmannia ClavigeraNorthern Forestry Centre Culture Collection (Edmonton, Alberta), originally cultured from the phloem of MPB-infested lodgepole pine trees near Banff, AlbertaWang et al. 2020
EukaryotaOphiostoma Ipsisolated from bark beetle galleries in lodgepole pineWang et al. 2020
ProkaryotaStaphylococcus AureusAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaBacillus VelezensisNARiu et al. 2022
ProkaryotaEscherichia ColiSwedish Institute for Communicable Disease Control (SMI), Stockholm, SwedenSousa et al. 2023
EukaryotaTrichoderma Asperelluminhibited the mycelial growth of Lasiodiplodia theobromae L26NASudha et al. 2021
EukaryotaMalassezia GlobosaFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
EukaryotaMalassezia RestrictaFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
EukaryotaMalassezia SympodialisFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
ProkaryotaErwinia Amylovoraenhances Arabidopsis thaliana shoot and root growthbacterial collection of the LabParmagnani et al. 2023
EukaryotaMetschnikowia Reukaufiiinhibitory and promoting effects on the growth of different microorganismsisolate from Aconitum piepunense, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaDebaryomyces Hanseniiinhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaMrakia Blollopisinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaTausonia Pullulansinhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystofilobasidium Sp.inhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystofilobasidium Capitatuminhibitory and promoting effects on the growth of different microorganismsisolate from Silene acaulis, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaGoffeauzyma Gilvescensinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaRhodotorula Mucilaginosainhibitory and promoting effects on the growth of different microorganismsisolate from Dryas octopetala, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaSporidiobolus Salmonicolorinhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCryptococcus Sp.inhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaVishniacozyma Victoriaeinhibitory and promoting effects on the growth of different microorganismsisolate from Dryas octopetala, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaMrakia Gelidainhibitory and promoting effects on the growth of different microorganismsisolate from Saxifraga cespitosa, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaCystobasidium Laryngisinhibitory and promoting effects on the growth of different microorganismsisolate from Cerasticum arcticum, Ny-Ålesund (Svalbard Archipelago, Arctic); CCTCC (China Center for Type Culture Collection, Wuhan, Hubei, China)Niu et al. 2022
EukaryotaMuscodor CrispansWild pineapple plant, Ananas ananassoidesMitchell et al. 2010
EukaryotaTrichoderma VirideNAHung et al. 2013
EukaryotaMuscodor Albusn/aNACorcuff et al. 2011
EukaryotaPhoma Sp.n/aNAStrobel et al. 2011
ProkaryotaBacillus Amyloliquefaciensn/aNALee et al. 2012
ProkaryotaBacillus Subtilisn/aNALee et al. 2012
ProkaryotaPaenibacillus Polymyxan/aNALee et al. 2012
EukaryotaAscocoryne Sarcoidesn/aNAMallette et al.  2012
EukaryotaTrichoderma Virensn/aNACrutcher et al. 2013
EukaryotaTrichoderma Atroviriden/aNACrutcher et al. 2013
ProkaryotaChryseobacterium Sp.nanaTyc et al. 2015
EukaryotaPhomopsis Sp.naendophyte of Odontoglossum sp.Singh et al. 2011
ProkaryotaLegionella Pneumophilacould serve as potential biomarkers to distinguish between viruses and bacteriaNAAbd El Qader et al. 2015
EukaryotaMuscodor Albusrye grainsCorcuff et al. 2011
EukaryotaTuber Aestivumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
ProkaryotaArthrobacter Agilisnarhizosphere of maize plantsVelázquez-Becerra et al. 2011
EukaryotaAspergillus Flavusn/aNAStotzky and Schenck 1976
EukaryotaBoletus Variegatusn/aNAStotzky and Schenck 1976
EukaryotaNeurospora Sp.n/aNAPastore et al. 1994
EukaryotaNeurospora Sitophilan/aNAPastore et al. 1994
EukaryotaTuber Melanosporumn/aT. melanosporum was from the cultivated truffle zones in the province and T. aestivum from the natural truffle zones in the same regionCullere et al. 2010
EukaryotaTuber Aestivumn/aT. melanosporum was from the cultivated truffle zones in the province and T. aestivum from the natural truffle zones in the same regionCullere et al. 2010
ProkaryotaStreptomyces Albidoflavusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Sp.n/aNASchöller et al. 2002
ProkaryotaStreptomyces Rishiriensisn/aNASchöller et al. 2002
ProkaryotaStreptomyces Albusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Antibioticusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Aureofaciensn/aNASchöller et al. 2002
ProkaryotaStreptomyces Coelicolorn/aNASchöller et al. 2002
ProkaryotaStreptomyces Diastatochromogenesn/aNASchöller et al. 2002
ProkaryotaStreptomyces Griseusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Hirsutusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Hygroscopicusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Murinusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Olivaceusn/aNASchöller et al. 2002
ProkaryotaStreptomyces Thermoviolaceusn/aNASchöller et al. 2002
EukaryotaPenicillium Aurantiogriseumn/aNABörjesson et al. 1990
EukaryotaPenicillium Sp.n/aNABjurman et al. 1997
ProkaryotaSerratia Proteamaculansn/aNAErcolini et al. 2009
EukaryotaTuber Indicumn/aNASplivallo et al. 2007
EukaryotaTuber Borchiin/aNASplivallo et al. 2007
EukaryotaTuber Excavatumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
ProkaryotaBacillus Cereusn/aNABlom et al. 2011
ProkaryotaBurkholderia Andropogonisn/aNABlom et al. 2011
ProkaryotaCellulomonas Udan/aNABlom et al. 2011
ProkaryotaChromobacterium Violaceumn/aNABlom et al. 2011
ProkaryotaCupriavidus Necatorn/aNABlom et al. 2011
ProkaryotaEscherichia Colin/aNABlom et al. 2011
ProkaryotaLimnobacter Thiooxidansn/aNABlom et al. 2011
ProkaryotaPandoraea Norimbergensisn/aNABlom et al. 2011
ProkaryotaPseudomonas Chlororaphisn/aNABlom et al. 2011
ProkaryotaPseudomonas Fluorescensn/aNABlom et al. 2011
ProkaryotaPseudomonas Putidan/aNABlom et al. 2011
ProkaryotaSerratia Entomophilan/aNABlom et al. 2011
ProkaryotaSerratia Marcescensn/aNABlom et al. 2011
ProkaryotaSerratia Plymuthican/aNABlom et al. 2011
ProkaryotaSerratia Proteamaculansn/aNABlom et al. 2011
ProkaryotaStenotrophomonas Rhizophilan/aNABlom et al. 2011
ProkaryotaBurkholderia Anthinan/aNABlom et al. 2011
ProkaryotaBurkholderia Caledonican/aNABlom et al. 2011
ProkaryotaBurkholderia Caryophyllin/aNABlom et al. 2011
ProkaryotaBurkholderia Cepacian/aNABlom et al. 2011
ProkaryotaBurkholderia Fungorumn/aNABlom et al. 2011
ProkaryotaBurkholderia Gladiolin/aNABlom et al. 2011
ProkaryotaBurkholderia Glathein/aNABlom et al. 2011
ProkaryotaBurkholderia Glumaen/aNABlom et al. 2011
ProkaryotaBurkholderia Graminisn/aNABlom et al. 2011
ProkaryotaBurkholderia Hospitan/aNABlom et al. 2011
ProkaryotaBurkholderia Kururiensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Latan/aNABlom et al. 2011
ProkaryotaBurkholderia Phenaziniumn/aNABlom et al. 2011
ProkaryotaBurkholderia Phenoliruptrixn/aNABlom et al. 2011
ProkaryotaBurkholderia Phytofirmansn/aNABlom et al. 2011
ProkaryotaBurkholderia Pyrrocinian/aNABlom et al. 2011
ProkaryotaBurkholderia Saccharin/aNABlom et al. 2011
ProkaryotaBurkholderia Sordidicolan/aNABlom et al. 2011
ProkaryotaBurkholderia Terricolan/aNABlom et al. 2011
ProkaryotaBurkholderia Thailandensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Tropican/aNABlom et al. 2011
ProkaryotaBurkholderia Xenovoransn/aNABlom et al. 2011
EukaryotaNeurospora Sp.n/aNAPastore  et al. 1994
EukaryotaPenicillium Chrysogenumn/aNAMeruva et al. 2004
EukaryotaRhizopus Stolonifern/aNAMeruva et al. 2004
EukaryotaLaccaria Bicolorn/aNAMueller et al. 2013
EukaryotaPaxillus Involutusn/aNAMueller et al. 2013
EukaryotaArmillaria Mellean/aNAMueller et al. 2013
EukaryotaPholiota Squarrosan/aNAMueller et al. 2013
EukaryotaVerticillium Longisporumn/aNAMueller et al. 2013
EukaryotaStropharia Rugosoannulatan/aNAMueller et al. 2013
EukaryotaTrichoderma Viriden/aNAMueller et al. 2013
EukaryotaAspergillus Ornatusn/aNAMeruva et al. 2004
ProkaryotaEscherichia Colin/aNATait et al. 2014
ProkaryotaKlebsiella Pneumoniaen/aNATait et al. 2014
ProkaryotaStaphylococcus Aureusn/aNATait et al. 2014
ProkaryotaSalmonella Enteritidisn/aNAArnold and Senter 1998
ProkaryotaListeria Monocytogenesn/aNAArnold and Senter 1998
ProkaryotaEnterobacter Cloacaen/aNAArnold and Senter 1998
ProkaryotaPseudomonas Aeruginosan/aNAArnold and Senter 1998
EukaryotaTrichoderma Viriden/aNAWheatley et al. 1997
EukaryotaTrichoderma Pseudokoningiin/aNAWheatley et al. 1997
EukaryotaSaccharomyces Cerevisiaecontrol citrus black spot disease fermentation processesToffano et al. 2017
ProkaryotaMoraxella Catarrhalishumans, respiratory infectionsAbd El Qader et al. 2015
ProkaryotaHaemophilus Influenzaehumans, respiratory infectionsAbd El Qader et al. 2015
ProkaryotaLegionella Pneumophilahumans, respiratory infectionsAbd El Qader et al. 2015
EukaryotaAspergillus Candiduscompost Fischer et al. 1999
EukaryotaAspergillus Fumigatuscompost Fischer et al. 1999
EukaryotaAspergillus Versicolorcompost Fischer et al. 1999
EukaryotaEmericella Nidulanscompost Fischer et al. 1999
EukaryotaPaecilomyces Variotiicompost Fischer et al. 1999
EukaryotaPenicillium Clavigerumcompost Fischer et al. 1999
EukaryotaPenicillium Glabrumcompost Fischer et al. 1999
EukaryotaPenicillium Crustosumcompost Fischer et al. 1999
ProkaryotaLactobacillus Caseifermented milkGallegos et al. 2017
ProkaryotaLactobacillus ParacaseiSpanish strain collection CECTGallegos et al. 2017
ProkaryotaLactobacillus LactisSpanish strain collection CECTGallegos et al. 2017
EukaryotaCandida Shehataecacti, fruits, insects, natural habitatsNout and Bartelt 1998
ProkaryotaCitrobacter FreundiiAmerican Type Culture Collection Robacker and Bartelt 1997
EukaryotaHansenula Holstiiwhole beetles, beetle guts, loblolly pineBrand et al. 1977
EukaryotaMortierella Isabellinamor horizon of a spruce forest soil southeastern SwedenBengtsson et al. 1991
ProkaryotaEnterobacter AgglomeransAmherst collectionEpsky et al. 1998
EukaryotaPenicillium CorymbiferumNAPierce et al. 1991
EukaryotaScopulariopsis BrevicaulisNAPierce et al. 1991
EukaryotaFusarium Sp.NAPierce et al. 1991
EukaryotaSaccharomyces Cerevisiaegrape vineBecher et al. 2012
ProkaryotaStaphylococcus EpidermidisDSMZVerhulst et al. 2010
ProkaryotaEnterobacter Cloacaenaubiquitary,intestinalSchöller et al. 1997
ProkaryotaPseudomonas Perolensnasterile fish muscle (Sebastes melanops)Miller et al. 1973
ProkaryotaThermomonospora FuscanasoilWilkins 1996
ProkaryotaStaphylococcus Sciurinafrom the gut flora of pea aphid Acyrthosiphon pisum honeydewLeroy et al. 2011
EukaryotaAspergillus Versicolornadamp indoor environments, food productsSunesson et al. 1995
EukaryotaPenicillium Communenain dry-cured meat products, cheeseSunesson et al. 1995
EukaryotaPaecilomyces Variotiinacompost, soils, food productsSunesson et al. 1995
EukaryotaPhialophora FastigiatananaSunesson et al. 1995
EukaryotaXylaria Sp.phytotoxic on the seed germination, root elongation and seedling respiration of Am. Hypochondriacus and S. lycopersicumHaematoxylon brasiletto, Morelos, MexicoSánchez-Ortiz et al. 2016
EukaryotaAureobasidium Pullulansattracts waspsisolated from apples (with lepidopteran orchard pests)Davis et al. 2012
ProkaryotaEscherichia ColiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaBurkholderia CepaciaRhizosphereBlom et al. 2011
EukaryotaPhoma Sp.nanaNaznin et al. 2014
EukaryotaAmpelomyces Sp.nanaNaznin et al. 2014
EukaryotaGeotrichum Candidumcompost mixed with milky fermented productZirbes et al. 2011
ProkaryotaActinomycetes Sp.Is an attractant of the Caribbean fruit fly Anastrepha suspensa. NASchulz and Dickschat 2007
ProkaryotaProteus HauseriNematicidal activitycow dungXU et al. 2015
ProkaryotaSerratia Odoriferan/aNAWeise et al. 2014
ProkaryotaSerratia Proteamaculansn/aNAWeise et al. 2014
ProkaryotaLactobacillus RhamnosusnanaPogačić et al. 2016
ProkaryotaBacillus AmyloliquefaciensnanaAsari et al. 2016
EukaryotaPleurotus EryngiinanaUsami et al. 2014
EukaryotaTuber Borchiin/aFortywoodland of the Basilicata regionMauriello et al. 2004
ProkaryotaLactobacillus Casein/aNATracey and Britz 1989
ProkaryotaLactobacillus Plantarumn/aNATracey and Britz 1989
ProkaryotaPediococcus Damnosusn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Cremorisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Dextranicumn/aNATracey and Britz 1989
ProkaryotaLactococcus Lactisn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Mesenteroidesn/aNATracey and Britz 1989
ProkaryotaLeuconostoc Paramesenteroidesn/aNATracey and Britz 1989
ProkaryotaOenococcus Oenin/aNATracey and Britz 1989
ProkaryotaProteus VulgarisnanaSu et al. 2016
ProkaryotaPseudochrobactrum AsaccharolyticumnanaSu et al. 2016
ProkaryotaPseudomonas Putidanablack pepper rootSheoran et al. 2015
ProkaryotaPseudomonas Putidapositive influence of the plant root growth and protection against soil-borne pathogensNASheoran et al. 2015
ProkaryotaClostridium Sp.n/aNAStotzky and Schenck 1976
ProkaryotaStreptococcus Dysgalactiaen/aNAHettinga et al. 2008
ProkaryotaCoagulase-negative Staphylococcin/aNAHettinga et al. 2008
ProkaryotaEscherichia Colimilk of cowsHettinga et al. 2008
EukaryotaChalaropsis ThielavioidesNACollins 1960
ProkaryotaSerratia Proteamaculansnaspoiled meatPopova et al. 2014
EukaryotaTuber MelanosporumNoneFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaPenicillium ChrysogenumNoneNoneMeruva et al. 2004
EukaryotaVerticillium Longisporumcollection TU GrazRybakova et al. 2017
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaZygosaccharomyces RouxiiNANAPei et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
ProkaryotaAchromobacter Sp.NANAAlmeida et al. 2022
ProkaryotaSerratia Sp.NANAAlmeida et al. 2022
ProkaryotaEnterobacter Sp.NANAAlmeida et al. 2022
ProkaryotaEscherichia ColiNANAAlmeida et al. 2022
EukaryotaSaccharomyces EubayanusNANAMardones et al. 2022
EukaryotaAureobasidium PullulansNANAMozūraitis et al. 2022
EukaryotaCryptococcus WieringaeNANAMozūraitis et al. 2022
EukaryotaHanseniaspora UvarumNANAMozūraitis et al. 2022
EukaryotaPichia KudriavzeviiNANAMozūraitis et al. 2022
EukaryotaPichia FermentansNANAMozūraitis et al. 2022
EukaryotaPichia KluyveriNANAMozūraitis et al. 2022
EukaryotaPichia MembranifaciensNANAMozūraitis et al. 2022
EukaryotaSaccharomyces ParadoxusNANAMozūraitis et al. 2022
EukaryotaTorulaspora DelbrueckiiNANAMozūraitis et al. 2022
EukaryotaPichia AnomalaNANAMozūraitis et al. 2022
EukaryotaMetschnikowia PulcherrimaNANAMozūraitis et al. 2022
ProkaryotaStaphylococcus EquorumNANAToral et al. 2021
ProkaryotaBacillus AtrophaeusNANAToral et al. 2021
ProkaryotaPeribacillus Sp.NANAToral et al. 2021
ProkaryotaPseudomonas SegetisNANAToral et al. 2021
ProkaryotaPsychrobacillus VulpisNANAToral et al. 2021
EukaryotaWickerhamomyces AnomalusNANAShi et al. 2022
EukaryotaMeyerozyma GuilliermondiiNANAZhao et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAZhao et al. 2022
EukaryotaSaccharomycopsis ViniNANAZhao et al. 2022
EukaryotaSaturnispora DiversaNANAZhao et al. 2022
EukaryotaWickerhamomyces AnomalusNANAZhao et al. 2022
EukaryotaHanseniaspora ValbyensisNANATran et al. 2022
EukaryotaPhytophthora RamorumN/APhytophthora ramorumLoulier et al. 2020
Meyerozyma GuilliermondiiXiong et al. 2023
Saccharomyces CerevisiaeQin et al. 2024
Lentinula EdodesGeng et al. 2024
Fusarium GraminearumBallot et al. 2023
MicrobacteriumBallot et al. 2023
Lactobacillus PlantarumZhang et al. 2023
Cyberlindnera FabianiiMa et al. 2023
Citrobacter FreundiiTallon et al. 2023
Enterobacter AgglomeransTallon et al. 2023
Enterobacter CloacaeTallon et al. 2023
Klebsiella OxytocaTallon et al. 2023
Saccharomyces CerevisiaePeng et al. 2023
Staphylococcus AureusWang et al. 2023
Mycobacterium UlceransChudy et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaStaphylococcus AureusTSBSESI-MSno
ProkaryotaStenotrophomonas RhizophilaMHBSIFT-MSno
ProkaryotaStenotrophomonas MaltophiliaMHBSIFT-MSno
ProkaryotaKlebsiella PneumoniaeNBTD/GC-MSno
ProkaryotaStaphylococcus AureusNBTD/GC-MSno
EukaryotaAspergillus FumigatusBrian FE supp.SPME/GC-MSno
EukaryotaCandida DubliniensisRPMISPME/GC-MSno
EukaryotaCandida AlbicansRPMISPME/GC-MSno
EukaryotaCandida ParapsilosisYPDSPME/GC-MSno
EukaryotaCandida AlbicansYPDSPME/GC-MSno
EukaryotaCandida AlbicansTSBSPME/GC-MSno
EukaryotaCandida ParapsilosisTSBSPME/GC-MSno
ProkaryotaEscherichia ColiTSBSPME/GC-MSno
ProkaryotaEscherichia ColiBHISPME/GC-MSno
ProkaryotaEscherichia ColiLBSPME/GC-MSno
ProkaryotaKlebsiella PneumoniaeTSBSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaBHISPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLBSPME/GC-MSno
ProkaryotaStaphylococcus AureusMHBSPME/GC-MSno
ProkaryotaStaphylococcus AureusLBSPME/GC-MSno
ProkaryotaStaphylococcus AureusBHISPME/GC-MSno
ProkaryotaStaphylococcus AureusTSBSPME/GC-MSno
EukaryotaAspergillus NigerYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaCandida AlbicansYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaPenicillium ChrysogenumYeast Glucose ChloramphenicolSPME/GCxGC-MSno
ProkaryotaPseudomonas Aeruginosalysogeny brothSPME/GCxGC-MSno
ProkaryotaPseudomonas AeruginosaLB brothSPME/GCxGC-MSno
EukaryotaCandida GlabrataSDATD/GC-MSno
EukaryotaCandida TropicalisSDATD/GC-MSno
EukaryotaCandida KruseiSDATD/GC-MSno
EukaryotaCandida AlbicansSDATD/GC-MSno
ProkaryotaEscherichia ColiLBTD/GC-MSno
ProkaryotaKlebsiella PneumoniaeTSBTD/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBTD/GC-MSno
ProkaryotaPseudomonas Aeruginosatrypticase soy agarTD/GC-MSno
ProkaryotaPseudomonas Fluorescenstrypticase soy agarTD/GC-MSno
ProkaryotaPseudomonas Putidatrypticase soy agarTD/GC-MSno
ProkaryotaPseudomonas Aeruginosatryptic soy brothTD/GC-MSno
ProkaryotaShewanella Putrefacienstrypticase soy agarTD/GC-MSno
ProkaryotaStaphylococcus AureusTSBTD/GC-MSno
ProkaryotaStaphylococcus Aureustryptic soy brothTD/GC-MSno
ProkaryotaStenotrophomonas Maltophiliatrypticase soy agarTD/GC-MSno
EukaryotaCandida AlbicansColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaEnterobacter CloacaeColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaKlebsiella PneumoniaeColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaPseudomonas AeruginosaColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaStaphylococcus AureusColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaStreptococcus AgalactiaeColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaStreptococcus PneumoniaeColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaMycobacterium BovisLG + glycerolTD/GC-MS and SIFT-MSno
ProkaryotaEnterobacter CloacaeLevine EMB agar (LEA) (Fluka Analytical, UK)GC-MSno
ProkaryotaPseudomonas AeruginosaLevine EMB agar (LEA) (Fluka Analytical, UK)GC-MSno
EukaryotaAspergillus Versicoloringrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaChaetomium Globosumingrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaEurotium Amstelodamiingrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaPenicillium Brevicompactumingrain (woodchip)SIM/GCMS / Tenaxno
ProkaryotaErwinia AmylovoraLuria-Bertani (LB)PTR-MS / SPME / GC-MSno
ProkaryotaKlebsiella PneumoniaeLBSPME / GCxGC-TOFMSno
ProkaryotaAcinetobacter RadioresistensTSASPME, GC-MSno
ProkaryotaCorynebacterium XerosisMOPS glucose+EZSPME, GC-MSno
ProkaryotaCorynebacterium XerosisTSASPME, GC-MSno
EukaryotaSaccharomyces Cerevisiaemedium malt extract agar ± SucroseHS-SPME, GC-MSno
ProkaryotaShigella SonneiSodium chloride brothSPME, GC-MSno
ProkaryotaVibrio ParahaemolyticusSodium chloride brothSPME, GC-MSno
ProkaryotaStaphylococcus AureusSodium chloride brothSPME, GC-MSno
EukaryotaAspergillus Kawachiimedium 129CLSA-GCMSyes
EukaryotaFusarium OxysporumLiquid onion extract medium (LOM)SPME, GC-MSyes
EukaryotaFusarium ProliferatumLiquid onion extract medium (LOM)SPME, GC-MSyes
EukaryotaFusarium OxysporumPDA plateSPME-GC-MSno
EukaryotaTrichoderma HarzianumPDA plateSPME-GC-MSno
EukaryotaAureobasidium PullulansYPDA(HS)-SPME/GC-MSno
EukaryotaMetschnikowia PulcherrimaYPDA(HS)-SPME/GC-MSno
EukaryotaSaccharomyces CerevisiaeYPDA(HS)-SPME/GC-MSno
EukaryotaWickerhamomyces AnomalusYPDA(HS)-SPME/GC-MSno
EukaryotaFusarium Oxysporumpotato dextrose agarSPME, GC-MSno
EukaryotaTrichoderma Harzianumpotato dextrose agarSPME, GC-MSno
EukaryotaFusarium VerticillioidesCzapek-dox agarSPME, GC-MSyes
ProkaryotaBacillus SubtilisLB agarGC-MSno
ProkaryotaPseudomonas FluorescensLB agarGC-MSno
ProkaryotaPseudomonas Sp.LB media, DYGS mediaHS-SPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaHS-SPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaBacillus Sp.LB mediaSPME/GC-MSno
ProkaryotaBrevibacillus AgriLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
ProkaryotaPseudomonas PalleronianaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaStaphylococcus Epidermidisblood agarGC-MSno
ProkaryotaPaenibacillus PolymyxaNA media, LB media, TSA mediaHS-SPME/GC-MSno
EukaryotaAspergillus FlavusSNA mediaSPME/GC-MSno
ProkaryotaBacillus MycoidesTSB media, MR-VP (Methyl Red-Vogos Proskeur) media, M+S (Murashige and Skoog) mediaSPME/GC-MSno
ProkaryotaSerratia FonticolaTSB media, MR-VP (Methyl Red-Vogos Proskeur) media, M+S (Murashige and Skoog) mediaSPME/GC-MSno
ProkaryotaPseudomonas AzotoformansTSB mediaSPME/GC-MSno
ProkaryotaStaphylococcus AureusTSB mediaHS-SPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSB mediaHS-SPME/GC-MSno
ProkaryotaEscherichia ColiTSB mediaHS-SPME/GC-MSno
ProkaryotaStaphylococcus EpidermidisTSB mediaHS-SPME/GC-MSno
ProkaryotaStenotrophomonas MaltophiliaTYB mediaGC-MSno
ProkaryotaStaphylococcus PasteuriTYB mediaGC-MSno
ProkaryotaArthrobacter UreafaciensTYB mediaGC-MSno
ProkaryotaMicrobacterium ParaoxydansTYB mediaGC-MSno
ProkaryotaPantoea VagansTYB mediaGC-MSno
ProkaryotaPseudomonas MediterraneaTYB mediaGC-MSno
ProkaryotaArthrobacter PhenanthrenivoransTYB mediaGC-MSno
ProkaryotaBacillus Sp.TYB mediaGC-MSno
ProkaryotaBacillus Amyloliquefaciensnutrient agarHS-SPME/GC-MSno
ProkaryotaBacillus Velezensisnutrient agarHS-SPME/GC-MSno
ProkaryotaBacillus Licheniformisnutrient agarHS-SPME/GC-MSno
ProkaryotaBacillus Pumilusnutrient agarHS-SPME/GC-MSno
EukaryotaFusarium Oxysporum1/5th PDA mediumGC-MSno
EukaryotaChaetomium Indicum1/5th PDA mediumGC-MSno
ProkaryotaLysobacter CapsiciNA-mediaGC-MSno
ProkaryotaBacillus VelezensisMOLP mediaSPME/GC-MSyes
ProkaryotaStaphylococcus AureusTS agar/blood agarHS-SPME/GC-MSno
ProkaryotaBacillus WiedmanniiLB mediaSPME/GC-MSno
ProkaryotaRahnella AquatilisLB mediaHS-SPME/GC-MSyes
EukaryotaGrosmannia ClavigeraPDA mediaGC-MSno
EukaryotaOphiostoma IpsPDA mediaGC-MSno
ProkaryotaStaphylococcus AureusBHI media, LB media, MHB media, TSB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaStaphylococcus EpidermidisBHI media, LB media, MHB media, TSB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaBacillus VelezensisTSA mediaSPME/GC-MSno
ProkaryotaEscherichia ColiLB media, spinach lyssateHS-SPME/GC-MSno
EukaryotaTrichoderma AsperellumSPME/GC-MSno
EukaryotaMalassezia Globosamodified Dixon agarHS-SPME/GC-MSno
EukaryotaMalassezia Restrictamodified Dixon agarHS-SPME/GC-MSno
EukaryotaMalassezia Sympodialismodified Dixon agarHS-SPME/GC-MSno
ProkaryotaErwinia AmylovoraSBSE/GC-MSno
EukaryotaMetschnikowia Reukaufiiartificial nectar mediaGC-MSno
EukaryotaDebaryomyces Hanseniiartificial nectar mediaGC-MSno
EukaryotaMrakia Blollopisartificial nectar mediaGC-MSno
EukaryotaTausonia Pullulansartificial nectar mediaGC-MSno
EukaryotaCystofilobasidium Sp.artificial nectar mediaGC-MSno
EukaryotaCystofilobasidium Capitatumartificial nectar mediaGC-MSno
EukaryotaGoffeauzyma Gilvescensartificial nectar mediaGC-MSno
EukaryotaRhodotorula Mucilaginosaartificial nectar mediaGC-MSno
EukaryotaSporidiobolus Salmonicolorartificial nectar mediaGC-MSno
EukaryotaCryptococcus Sp.artificial nectar mediaGC-MSno
EukaryotaVishniacozyma Victoriaeartificial nectar mediaGC-MSno
EukaryotaMrakia Gelidaartificial nectar mediaGC-MSno
EukaryotaCystobasidium Laryngisartificial nectar mediaGC-MSno
EukaryotaMuscodor Crispanspotato dextrose agarSPME-GC-MSyes
EukaryotaTrichoderma VirideMalt extract agar Headspace volatiles collected with colomn/TD-GC-MSyes
EukaryotaMuscodor Albusn/aHeadspace sampler/GC-MSno
EukaryotaPhoma Sp.n/aSolid phase microextraction (SPME)no
ProkaryotaBacillus AmyloliquefaciensTryptic soy agarSPME coupled with GC-MSno
ProkaryotaBacillus SubtilisTryptic soy agarSPME coupled with GC-MSno
ProkaryotaPaenibacillus PolymyxaTryptic soy agarSPME coupled with GC-MSno
EukaryotaAscocoryne SarcoidesMinimal mediumPTR-MS and SPME GC-MSno
EukaryotaTrichoderma VirensPotato dextrose agarHS-SPME/GC-MS no
EukaryotaTrichoderma AtroviridePotato dextrose agarHS-SPME/GC-MS no
ProkaryotaChryseobacterium Sp.Tryptic soy broth agarGC/MS-Q-TOFno
EukaryotaPhomopsis Sp.PDA mediumSPME-GC/MSyes
ProkaryotaLegionella Pneumophilablood cultureSPME/GC-MS no
EukaryotaMuscodor AlbusHeadspace sampler/GC-MSyes
EukaryotaTuber Aestivumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
ProkaryotaArthrobacter AgilisLB mediumSPME-GC/MSno
EukaryotaAspergillus Flavusn/an/ano
EukaryotaBoletus Variegatusn/an/ano
EukaryotaNeurospora Sp.Malt extractHeadspace/gas chromatographyno
EukaryotaNeurospora SitophilaMalt extractHeadspace/gas chromatographyno
EukaryotaTuber Melanosporumn/aGas chromatography-olfactometry (GC-O)no
EukaryotaTuber Aestivumn/aGas chromatography-olfactometry (GC-O)no
ProkaryotaStreptomyces Albidoflavusn/an/ano
ProkaryotaStreptomyces Sp.n/an/ano
ProkaryotaStreptomyces Rishiriensisn/an/ano
ProkaryotaStreptomyces Albusn/an/ano
ProkaryotaStreptomyces Antibioticusn/an/ano
ProkaryotaStreptomyces Aureofaciensn/an/ano
ProkaryotaStreptomyces Coelicolorn/an/ano
ProkaryotaStreptomyces Diastatochromogenesn/an/ano
ProkaryotaStreptomyces Griseusn/an/ano
ProkaryotaStreptomyces Hirsutusn/an/ano
ProkaryotaStreptomyces Hygroscopicusn/an/ano
ProkaryotaStreptomyces Murinusn/an/ano
ProkaryotaStreptomyces Olivaceusn/an/ano
ProkaryotaStreptomyces Thermoviolaceusn/an/ano
EukaryotaPenicillium Aurantiogriseumn/an/ano
EukaryotaPenicillium Sp.n/an/ano
ProkaryotaSerratia Proteamaculansn/an/ano
EukaryotaTuber Indicumn/an/ano
EukaryotaTuber Borchiin/an/ano
EukaryotaTuber Excavatumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
ProkaryotaBacillus CereusLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia AndropogonisLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaCellulomonas UdaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaChromobacterium ViolaceumLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaCupriavidus NecatorLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaEscherichia ColiLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaLimnobacter ThiooxidansLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPandoraea NorimbergensisMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas ChlororaphisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas FluorescensLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas PutidaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia EntomophilaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia MarcescensLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia PlymuthicaLB, MR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia ProteamaculansLB, MR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaStenotrophomonas RhizophilaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia AnthinaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaledonicaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaryophylliLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CepaciaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia FungorumLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GladioliLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GlatheiMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GlumaeLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GraminisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia HospitaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia KururiensisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia LataLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia LataMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenaziniumLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenoliruptrixLB, MR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhytofirmansLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PyrrociniaLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SacchariLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SordidicolaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia TerricolaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia ThailandensisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia TropicaLB, MR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia XenovoransLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
EukaryotaNeurospora Sp.potato dextrose agardynamic headspace/gas chromatographyno
EukaryotaPenicillium ChrysogenumPotato dextrose agarClosedloop stripping analysis and GC/TOF-MS.no
EukaryotaRhizopus StoloniferPotato dextrose agar and tobacco products.Closedloop stripping analysis and GC/TOF-MS.no
EukaryotaLaccaria BicolorMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPaxillus InvolutusMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaArmillaria MelleaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPholiota SquarrosaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaVerticillium LongisporumMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaStropharia RugosoannulataMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaTrichoderma VirideMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaAspergillus OrnatusPotato dextrose agarClosedloop stripping analysis and GC/TOF-MS.no
ProkaryotaEscherichia ColiBHI Broth/ TS Broth/Glucose EF base brothGC-MS /Polar and non-polar GC Columnno
ProkaryotaKlebsiella PneumoniaeBHI Broth/ TS Broth/Glucose EF base brothGC-MS /Polar and non-polar GC Columnno
ProkaryotaStaphylococcus AureusBHI Broth/ TS Broth/Glucose EF base brothGC-MS /Polar and non-polar GC Columnno
ProkaryotaSalmonella EnteritidisHS-SPME/GC-MS no
ProkaryotaListeria MonocytogenesHS-SPME/GC-MS no
ProkaryotaEnterobacter CloacaeHS-SPME/GC-MS no
ProkaryotaPseudomonas AeruginosaHS-SPME/GC-MS no
EukaryotaTrichoderma VirideLow mediumGC/MSno
EukaryotaTrichoderma PseudokoningiiMalt extract/Low mediumGC/MSno
EukaryotaSaccharomyces CerevisiaeYEPDAGC/MSno
ProkaryotaMoraxella Catarrhalisblood culture mediumSPME-GC-MSno
ProkaryotaHaemophilus Influenzaeblood culture mediumSPME-GC-MSno
ProkaryotaLegionella Pneumophilablood culture mediumSPME-GC-MSno
EukaryotaAspergillus Candidusyest extract sucroseTenax/GC-MSno
EukaryotaAspergillus Fumigatusyest extract sucroseTenax/GC-MSno
EukaryotaAspergillus Versicoloryest extract sucroseTenax/GC-MSno
EukaryotaEmericella Nidulansyest extract sucroseTenax/GC-MSno
EukaryotaPaecilomyces Variotiiyest extract sucroseTenax/GC-MSno
EukaryotaPenicillium Clavigerumyest extract sucroseTenax/GC-MSno
EukaryotaPenicillium Glabrumyest extract sucroseTenax/GC-MSno
EukaryotaPenicillium Crustosumyest extract sucroseTenax/GC-MSno
ProkaryotaLactobacillus CaseiMRS agarGC-IMSyes
ProkaryotaLactobacillus ParacaseiMRS agarGC-IMSyes
ProkaryotaLactobacillus LactisMRS agarGC-IMSyes
EukaryotaCandida Shehataeyeast malt agarSPME, GC-MSyes
ProkaryotaCitrobacter Freundiitryptic soy broth SPME, GC-MSyes
EukaryotaHansenula HolstiiPYGGC-MSno
EukaryotaMortierella Isabellinamalt extact agardiethyl extraction, GC-MSno
ProkaryotaEnterobacter AgglomeransTSAcapillary GCno
EukaryotaPenicillium CorymbiferumGC-FIDyes
EukaryotaScopulariopsis BrevicaulisGC-FIDyes
EukaryotaFusarium Sp.GC-FIDyes
EukaryotaSaccharomyces Cerevisiaesynthetic minimal mediumGC-MS, EIyes
ProkaryotaStaphylococcus EpidermidisCLSA, charcoal, GC-MSno
ProkaryotaEnterobacter CloacaeAB medium + 1% citrateGC-FID,GC/MSno
ProkaryotaPseudomonas PerolensTrypticase soil agar (BBL)GC/MSno
ProkaryotaThermomonospora FuscaNutrient agar CM3GC/MSno
ProkaryotaStaphylococcus Sciuri869 liquid mediumSPME-GC/MSno
EukaryotaAspergillus VersicolorDG18GC/MSno
EukaryotaPenicillium CommuneDG18,MEAGC/MSno
EukaryotaPaecilomyces VariotiiDG18,MEAGC/MSno
EukaryotaPhialophora FastigiataDG18GC/MSno
EukaryotaXylaria Sp.PDA mediumSPME-GC/MSyes
EukaryotaAureobasidium PullulansSabouraud Dextrose AgarGC/FIDyes
ProkaryotaEscherichia ColiTS brothGC-MS Super Qno
ProkaryotaBurkholderia CepaciaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)yes
EukaryotaPhoma Sp.naSPME-GC/MSno
EukaryotaAmpelomyces Sp.naSPME-GC/MSno
EukaryotaGeotrichum Candidummedium 863SPME-GC-MSyes
ProkaryotaActinomycetes Sp.n/an/ano
ProkaryotaProteus HauseriLB liquidSPME-GC/MSno
ProkaryotaSerratia OdoriferaNBIIHeadspace trapping/ GC-MSno
ProkaryotaSerratia ProteamaculansNBIIHeadspace trapping/ GC-MSno
ProkaryotaLactobacillus Rhamnosuscurd-based broth mediumGC/MSyes
ProkaryotaBacillus AmyloliquefaciensnaGC/MSno
EukaryotaPleurotus EryngiinaGC/MS, GC-O, AEDAno
EukaryotaTuber Borchiin/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
ProkaryotaLactobacillus Casein/an/ano
ProkaryotaLactobacillus Plantarumn/an/ano
ProkaryotaPediococcus Damnosusn/an/ano
ProkaryotaLeuconostoc Cremorisn/an/ano
ProkaryotaLeuconostoc Dextranicumn/an/ano
ProkaryotaLactococcus Lactisn/an/ano
ProkaryotaLeuconostoc Mesenteroidesn/an/ano
ProkaryotaLeuconostoc Paramesenteroidesn/an/ano
ProkaryotaOenococcus Oenin/an/ano
ProkaryotaProteus VulgarisLB mediumSPME-GC/MSno
ProkaryotaPseudochrobactrum AsaccharolyticumLB mediumSPME-GC/MSno
ProkaryotaPseudomonas PutidaLuria Bertani AgarHeadspace GC/MSno
ProkaryotaPseudomonas PutidaTSBPropak Q adsorbent trap/GC-MSno
ProkaryotaClostridium Sp.n/an/ano
ProkaryotaStreptococcus DysgalactiaeMilkHS-SPME/GC-MS no
ProkaryotaCoagulase-negative StaphylococciMilkHS-SPME/GC-MS no
ProkaryotaEscherichia ColiGCMS DSQno
EukaryotaChalaropsis Thielavioidesno
ProkaryotaSerratia ProteamaculansLB mediumSPME-GC/MSno
EukaryotaTuber MelanosporumNonemicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaPenicillium ChrysogenumPotato dextrose agarClosedloop stripping analysis and GC/TOF-MS.yes
EukaryotaVerticillium Longisporumpotato dextrose agar (PDA), Czapek Dox liquid cultureGC-MS / SPMEno
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaZygosaccharomyces RouxiiYPD mediumGC-MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
ProkaryotaAchromobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaSerratia Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaEnterobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaEscherichia ColiLB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
EukaryotaSaccharomyces EubayanusYPD agar media (yeast extract 1%, peptone 2%, glucose 2% and agar 2%)HS‐SPME‐GC‐MSno
EukaryotaAureobasidium PullulansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaCryptococcus WieringaeYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaHanseniaspora UvarumYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KudriavzeviiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia FermentansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KluyveriYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia MembranifaciensYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaSaccharomyces ParadoxusYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaTorulaspora DelbrueckiiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia AnomalaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaMetschnikowia PulcherrimaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
ProkaryotaStaphylococcus EquorumMOLPHS-SPME-GC/MSno
ProkaryotaStaphylococcus EquorumSchaeffer’s growth (SG) mediumHS-SPME-GC/MSno
ProkaryotaStaphylococcus Equorumtryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
ProkaryotaBacillus AtrophaeusMOLPHS-SPME-GC/MSno
ProkaryotaPeribacillus Sp.MOLPHS-SPME-GC/MSno
ProkaryotaPeribacillus Sp.Schaeffer’s growth (SG) mediumHS-SPME-GC/MSno
ProkaryotaPeribacillus Sp.tryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
ProkaryotaPseudomonas SegetisMOLPHS-SPME-GC/MSno
ProkaryotaPseudomonas Segetistryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
ProkaryotaPsychrobacillus VulpisMOLPHS-SPME-GC/MSno
EukaryotaWickerhamomyces Anomalusmedium consisted of glucose (20 g/l), peptone (5 g/l), agar (20 g/l) and amoxicillin (1 g/l)SPME with GC-MSno
EukaryotaWickerhamomyces Anomalussolid-state fermentation starter culture DaquSPME coupled with GC-MSno
EukaryotaMeyerozyma Guilliermondiisynthetic grape juiceHS-SPMEno
EukaryotaSaccharomyces Cerevisiaesynthetic grape juiceHS-SPMEno
EukaryotaSaccharomycopsis Vinisynthetic grape juiceHS-SPMEno
EukaryotaSaturnispora Diversasynthetic grape juiceHS-SPMEno
EukaryotaWickerhamomyces Anomalussynthetic grape juiceHS-SPMEno
EukaryotaHanseniaspora Valbyensissugared green and black teaHS-SPME-GC/MSno
EukaryotaPhytophthora RamorumPotato Dextrose AgarSPME/GC-MS/MSstandard
Meyerozyma GuilliermondiiYEPD, 10 g/L yeast extrac, 20 g/L peptone, 20 g dextroseGC-MS and GC-IMSno
Saccharomyces Cerevisiaefermentation of mulberry wineHS-SPME-GC-MSno
Lentinula EdodesJiuqu (traditional wheat Qu)GC-IMSno
Fusarium Graminearumtryptone soy (TS medium; Carl Roth, Karlsruhe, Germany)GC-QQQ-MSno
Microbacteriumtryptone soy (TS medium; Carl Roth, Karlsruhe, Germany)GC-QQQ-MSno
Lactobacillus PlantarumHabanero pepperGC–IMSno
Cyberlindnera Fabianiituna cooking liquidHS-SPME-GC/MSno
Citrobacter Freundiitryptone soya broth (TSB) mediaSPME/GC/MSno
Enterobacter Agglomeranstryptone soya broth (TSB) mediaSPME/GC/MSno
Enterobacter Cloacaetryptone soya broth (TSB) mediaSPME/GC/MSno
Klebsiella Oxytocatryptone soya broth (TSB) mediaSPME/GC/MSno
Saccharomyces Cerevisiaesea buckthorn juiceHS-SPME-GC–MS/UHPLC–MSno
Staphylococcus Aureusraw Shiyang chickenHS-GC-IMS/HS-SPME-GC-MSno
Mycobacterium UlceransNAGCMS–GP2010no


Tetradecanal

Mass-Spectra

Compound Details

Synonymous names
TETRADECANAL
124-25-4
Myristaldehyde
Myristic aldehyde
n-Tetradecanal
Tetradecyl aldehyde
1-Tetradecanal
Tetradecylaldehyde
Myristylaldehyde
Aldehyde C-14
Myristyl Aldehyde
C-14 aldehyde, myristic
Aldehyde C-14, myristic
n-Tetradecyl aldehyde
1-Tetradecyl aldehyde
FEMA No. 2763
NSC 66435
FEMA 2763
44AJ2LT15N
DTXSID1021665
CHEBI:84067
NSC66435
MFCD00007019
NSC-66435
EINECS 204-692-7
BRN 1765987
UNII-44AJ2LT15N
AI3-36199
Tetradecanaldehyde
tetradecane aldehyde
1la3
MYRISTALDEHYDE [FCC]
n-C13H27CHO
SCHEMBL18604
MYRISTALDEHYDE [FHFI]
4-01-00-03389 (Beilstein Handbook Reference)
WLN: VH13
CH3(CH2)12CHO
PEACH ALDEHYDE (C14)
DTXCID101665
CHEMBL2228569
AMY6110
Tox21_202794
BBL102211
LMFA06000078
STL556010
AKOS009158344
CS-W004303
GS-5775
NCGC00260340-01
511542-15-7
CAS-124-25-4
NS00013016
T2696
H10276
A805213
Q6948297
W-108409
Microorganism:

Yes

IUPAC nametetradecanal
SMILESCCCCCCCCCCCCCC=O
InchiInChI=1S/C14H28O/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15/h14H,2-13H2,1H3
FormulaC14H28O
PubChem ID31291
Molweight212.37
LogP6
Atoms15
Bonds12
H-bond Acceptor1
H-bond Donor0
Chemical Classificationaldehydes
CHEBI-ID84067
Supernatural-IDSN0370831

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaEscherichia ColiNANAFitzgerald et al. 2021
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBrevibacillus Agristimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaAneurinibacillus Aneurinilyticusstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Palleronianaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Amylovoraenhances Arabidopsis thaliana shoot and root growthbacterial collection of the LabParmagnani et al. 2023
ProkaryotaCarnobacterium Divergensn/aNAErcolini et al. 2009
EukaryotaTuber Borchiin/aFortywoodland of the Basilicata regionMauriello et al. 2004
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
Pediococcus AcidilacticiMockus et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaEscherichia ColiBHISPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaSPME/GC-MSno
ProkaryotaBacillus Sp.LB mediaSPME/GC-MSno
ProkaryotaBrevibacillus AgriLB mediaSPME/GC-MSno
ProkaryotaAneurinibacillus AneurinilyticusLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
ProkaryotaPseudomonas PalleronianaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaErwinia AmylovoraSBSE/GC-MSno
ProkaryotaCarnobacterium Divergensn/an/ano
EukaryotaTuber Borchiin/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
Pediococcus Acidilacticilentils (Lens culinaris)SPME/ICP-MSno


Methyl Hexadecanoate

Mass-Spectra

Compound Details

Synonymous names
METHYL PALMITATE
Methyl hexadecanoate
112-39-0
Palmitic acid methyl ester
Hexadecanoic acid, methyl ester
Palmitic acid, methyl ester
Methyl n-hexadecanoate
Uniphat A60
Metholene 2216
n-Hexadecanoic acid methyl ester
Hexadecanoic acid methyl ester
HSDB 5570
UNII-DPY8VCM98I
DPY8VCM98I
NSC 4197
EINECS 203-966-3
AI3-03509
DUB PM COS
NSC-4197
MFCD00008994
AEC METHYL PALMITATE
DTXSID4029149
CHEBI:69187
EC 203-966-3
WE(1:0/16:0)
METHYL PALMITATE (USP-RS)
METHYL PALMITATE [USP-RS]
hexadecanoic acid-methyl ester
formyl hexadecanoate
Methyl palmitic acid
palmitic methyl ester
methyl hexadecanoic acid
a methylhexadecanoic acid
Emery 2216
Radia 7120
Hexadecanoate methyl ester
C16 FAME
Methyl palmitate, >=97%
SCHEMBL37365
CHEMBL335125
DTXCID909149
METHYL PALMITATE [HSDB]
METHYL PALMITATE [INCI]
NSC4197
HMS3650G09
AMY40844
CS-D1457
HY-N1482
Tox21_202768
BBL010507
LMFA07010470
Methyl palmitate, analytical standard
s9383
STL146153
AKOS005715213
CCG-267168
MCULE-2282587787
NCGC00260315-01
CAS-112-39-0
Methyl palmitate, >=99% (capillary GC)
DB-041084
Hexadecanoic acid methyl ester (FAME MIX)
NS00006070
P0006
S0311
C16995
D70331
EN300-18532402
SR-01000946783
J-002763
Methyl hexadecanoate; Hexadecanoic acid methyl ester
SR-01000946783-1
Q16676086
844D5088-5CCF-4B2D-A678-EA5A7E8CB149
Tert-Butyl3-(N-Hydroxycarbamimidoyl)piperidine-1-carboxylate
Methyl palmitate, United States Pharmacopeia (USP) Reference Standard
Microorganism:

Yes

IUPAC namemethyl hexadecanoate
SMILESCCCCCCCCCCCCCCCC(=O)OC
InchiInChI=1S/C17H34O2/c1-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17(18)19-2/h3-16H2,1-2H3
FormulaC17H34O2
PubChem ID8181
Molweight270.5
LogP7.9
Atoms19
Bonds15
H-bond Acceptor2
H-bond Donor0
Chemical Classificationesters
CHEBI-ID69187
Supernatural-IDSN0088799

mVOC Specific Details

Boiling Point
DegreeReference
417 deg CLide, D.R. (ed.). CRC Handbook of Chemistry and Physics. 76th ed. Boca Raton, FL: CRC Press Inc., 1995-1996., p. 3-184
Volatilization
The Henry's Law constant for methyl palmitate is estimated as 0.009 atm-cu m/mole(SRC) using a fragment constant estimation method(1). This Henry's Law constant indicates that methyl palmitate is expected to volatilize from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as approximately 5 hours(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as approximately 6.5 days(SRC). Methyl palmitate's Henry's Law constant(1) indicates that volatilization from moist soil surfaces may occur(SRC). The volatilization half-life from a model pond 2 m deep is estimated to be about 60 hours ignoring adsorption; when considering maximum adsorption the volatilization half-life increases to 150 days(3). Methyl palmitate is not expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 0.00006 mm Hg(4).
Literature: (1) Meylan WM, Howard PH; Environ Toxicol Chem 10: 1283-93 (1991) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington,DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) USEPA; EXAMS II Computer Simulation (1987) (4) Perry RH, Green D; Perry's Chemical Engineer's Handbook. Physical and Chemical Data. NY,NY: McGraw-Hill 6th ed (1984)
Solubility
Insol in water; very sol in ethyl alc, acetone; sol in ether
Literature: Lide, D.R. (ed.). CRC Handbook of Chemistry and Physics. 76th ed. Boca Raton, FL: CRC Press Inc., 1995-1996., p. 3-184
Literature: #Insoluble in water, soluble in alcohol and ether
Literature: Lewis, R.J., Sr (Ed.). Hawley's Condensed Chemical Dictionary. 12th ed. New York, NY: Van Nostrand Rheinhold Co., 1993, p. 776
Soil Adsorption
Using a structure estimation method based on molecular connectivity indices(1), the Koc for methyl palmitate can be estimated to be about 18,000(SRC). According to a classification scheme(2), this estimated Koc value suggests that methyl palmitate is expected to be immobile in soil.
Literature: (1) Meylan WM et al; Environ Sci Technol 26: 1560-67 (1992) (2) Swann RL et al; Res Rev 85: 17-28 (1983)
Vapor Pressure
PressureReference
6.04X10-5 @ 25 deg CPerry RH, Green D; Perry's Chemical Handbook. Physical and Chemical data. NY, NY: McGraw-Hill 6th ed (1984)
MS-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBrevibacillus Agristimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaAneurinibacillus Aneurinilyticusstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Palleronianaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaEscherichia ColiLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
EukaryotaFistulina Hepatican/aoak trees (October 2003 from Wisent Park, Springe)Wu et al. 2005
ProkaryotaBurkholderia Tropican/aNATenorio-Salgado et al. 2013
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
Bacillus ThuringiensisKoilybayeva et al. 2023
Bacillus ToyonensisKoilybayeva et al. 2023
Bacillus AcidiproducensKoilybayeva et al. 2023
Bacillus CereusKoilybayeva et al. 2023
Bacillus SafensisKoilybayeva et al. 2023
Pediococcus AcidilacticiMockus et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaSPME/GC-MSno
ProkaryotaBacillus Sp.LB mediaSPME/GC-MSno
ProkaryotaBrevibacillus AgriLB mediaSPME/GC-MSno
ProkaryotaAneurinibacillus AneurinilyticusLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
ProkaryotaPseudomonas PalleronianaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaEscherichia ColiTSB mediaHS-SPME/GC-MSno
EukaryotaFistulina Hepatican/aThe MVOCS from the fruiting bodies of wild Fistulina hepatica were investigated by high resolution GC-MS, using a polar phase ZB-WAX. F.hepatica were isolated by liquid liquid extraction (CLLE).no
ProkaryotaBurkholderia TropicaPotato dextrose agarHeadspace trapping/ GC-MSno
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
Bacillus Thuringiensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Toyonensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Acidiproducensbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Cereusbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Bacillus Safensisbacteriological agar (BA, 15 g/L), gelatin peptone (GP, 5 g/L), and meat extract (ME, 3 g/L)GC–MSno
Pediococcus Acidilacticilentils (Lens culinaris)SPME/ICP-MSno


4-methylpentan-2-one

Mass-Spectra

Compound Details

Synonymous names
4-Methyl-2-pentanone
METHYL ISOBUTYL KETONE
4-Methylpentan-2-one
108-10-1
Isopropylacetone
Isobutyl methyl ketone
MIBK
Hexone
2-Pentanone, 4-methyl-
4-Methyl-2-oxopentane
Methylisobutylketon
Isohexanone
2-Methyl-4-pentanone
Shell mibk
Metilisobutilchetone
Metyloizobutyloketon
Hexon
Isobutyl-methylketon
2-Methylpropyl methyl ketone
Isopropyl acetone
Methyl-isobutyl-cetone
4-Methyl-2-pentanon
4-Metilpentan-2-one
Ketone, isobutyl methyl
4-Methyl-pentan-2-on
Caswell No. 574AA
4-Methyl-pentan-2-one
FEMA No. 2731
FEMA Number 2731
methylisobutylketone
Rcra waste number U161
NSC 5712
METHYL ISO-BUTYL KETONE
CCRIS 2052
HSDB 148
4-Methyl-2-pentanone (natural)
UNII-U5T7B88CNP
EINECS 203-550-1
U5T7B88CNP
EPA Pesticide Chemical Code 044105
methyl isobutylketone
BRN 0605399
2-Methyl-4-pentanal
Methyl I-butyl ketone
ethyl iso-butyl ketone
AI3-01229
NSC-5712
MFCD00008938
Methyl isobutyl ketone [NF]
DTXSID5021889
CHEBI:82344
EC 203-550-1
4-01-00-03305 (Beilstein Handbook Reference)
Hexon [Czech]
Methyl isobutyl ketone (NF)
MIK
methylisobutyl ketone
4-Methyl-2-pentanone, >=99%
METHYLISOBUTYLKETONE (USP-RS)
METHYLISOBUTYLKETONE [USP-RS]
METHYL ISOBUTYL KETONE (IARC)
METHYL ISOBUTYL KETONE [IARC]
METHYL ISOBUTYL KETONE (MART.)
METHYL ISOBUTYL KETONE [MART.]
METHYL ISOBUTYL KETONE (USP-RS)
METHYL ISOBUTYL KETONE [USP-RS]
Isobutyl-methylketon [Czech]
Metyloizobutyloketon [Polish]
isobutylmethyl ketone
Metilisobutilchetone [Italian]
4-Methyl-2-pentanon [Czech]
Methyl-isobutyl-cetone [French]
4-Metilpentan-2-one [Italian]
4-methyl 2-pentanone
Methylisobutylketon [Dutch, German]
UN1245
RCRA waste no. U161
4-Methyl-pentan-2-on [Dutch, German]
methylisobutyketone
isobutylmethylketone
methylisobutlyketone
i-BuCOMe
methylisobutyl keton
methylisobutyl-keton
Methylpentan-2-one
iso-butylmethylketone
methyl-isobutylketone
4-methyl-2pentanone
methy isobutyl ketone
methyl isobutyl keton
methyl iso-butylketone
methyl-iso-butylketone
methyl-isobutyl ketone
4-methylpentane-2-one
iso-C4H9COCH3
Methyl-2-pentanon,4-
4-methyl- 2-pentanone
MIBK [INCI]
methyl 2-methylpropyl ketone
SCHEMBL15458
ISOPROPYLACETONE [MI]
4-Methyl-2-pentanone(MIBK)
CHEMBL285323
DTXCID701889
SCHEMBL13341539
NSC5712
Methyl isobutyl ketone, ACS grade
AMY11098
4-Methyl-2-pentanone, HPLC Grade
Methylisobutylketon(DUTCH, GERMAN)
Tox21_201108
WLN: 1Y1 & 1V1
4-METHYL-2-PENTANONE [FCC]
LMFA12000033
METHYL ISOBUTYL KETONE [HSDB]
4-METHYL-2-PENTANONE [FHFI]
AKOS000118793
4-Methyl-2-pentanone, AR, >=99%
4-Methyl-2-pentanone, LR, >=99%
MCULE-2172909634
UN 1245
4-Methyl-2-pentanone, >=99%, FCC
NCGC00091475-01
NCGC00091475-02
NCGC00258660-01
4-Methyl-pentan-2-on(DUTCH, GERMAN)
BP-13453
CAS-108-10-1
4-Methyl-2-pentanone, analytical standard
>99.5%(GC)
M0389
NS00009293
4-Methyl-2-pentanone, technical grade, 95%
4-Methyl-2-pentanone, for HPLC, >=99.5%
C19263
D04989
4-Methyl-2-pentanone, ACS reagent, >=98.5%
A801806
Q418104
4-Methyl-2-pentanone, SAJ first grade, >=99.0%
J-515799
Methyl isobutyl ketone, p.a., ACS reagent, 98.5%
Q-200495
2-PENTANONE,4-METHYL METHYL,ISOBUTYL,KETONE
4-Methyl-2-pentanone, JIS special grade, >=99.5%
ISOBUTYL METHYL KETONE (METHYL ISOBUTYL KETONE)
Methyl isobutyl ketone [UN1245] [Flammable liquid]
F1908-0087
InChI=1/C6H12O/c1-5(2)4-6(3)7/h5H,4H2,1-3H
4-Methyl-2-pentanone, puriss. p.a., ACS reagent, >=99.0% (GC)
4-Methyl-2-pentanone, puriss., ACS reagent, reag. Ph. Eur., 99.0%
4-Methyl-2-pentanone, suitable for atomic absorption spectrometry, >=99.5%
ALFA-[(PHENYLMETHOXY)CARBONYL]OXY-1-PIPERIDINEACETICACIDMETHYLESTER
Methyl isobutyl ketone, United States Pharmacopeia (USP) Reference Standard
Methyl Isobutyl Ketone, Pharmaceutical Secondary Standard; Certified Reference Material
Microorganism:

Yes

IUPAC name4-methylpentan-2-one
SMILESCC(C)CC(=O)C
InchiInChI=1S/C6H12O/c1-5(2)4-6(3)7/h5H,4H2,1-3H3
FormulaC6H12O
PubChem ID7909
Molweight100.16
LogP1.3
Atoms7
Bonds2
H-bond Acceptor1
H-bond Donor0
Chemical Classificationketones
CHEBI-ID82344
Supernatural-IDSN0254771

mVOC Specific Details

Boiling Point
DegreeReference
115.7 °C peer reviewed
Volatilization
The Henry's Law constant for methyl isobutyl ketone is estimated as 1.4X10-4 atm-cu m/mole(SRC) derived from its vapor pressure, 19.9 mm Hg(1), and water solubility, 19,000 mg/L (2). This Henry's Law constant indicates that methyl isobutyl ketone is expected to volatilize from water surfaces(3). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(3) is estimated as 9 hours(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(3) is estimated as 6 days(SRC). Methyl isobutyl ketone's estimated Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). The potential for volatilization of methyl isobutyl ketone from dry soil surfaces may exist based upon its vapor pressure(1).
Literature: (1) Daubert TE, Danner RP; Physical and Thermodynamic Properties of Pure Chemicals: Data Compilation. NY,NY: Hemisphere Pub Corp (1989) (2) Yalkowsky SH, Dannenfelser RM; Aquasol Database of Aqueous Solubility Ver 5. Univ Ariz Tucson AR (1992) (3) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990)
Soil Adsorption
The Koc of methyl isobutyl ketone is estimated as 120(SRC), using a log Kow of 1.31(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that methyl isobutyl ketone is expected to have high mobility in soil.
Literature: (1) Hansch C et al; Exploring QSAR. Hydrophobic, Electronic, and Steric Constants. ACS Prof Ref Book. Heller SR, consult. ed., Washington, DC: Amer Chem Soc p. 24 (1995) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 4-9 (1990) (3) Swann RL et al; Res Rev 85: 17-28 (1983)
Vapor Pressure
PressureReference
19.9 mm Hg at 25 deg CDaubert, T.E., R.P. Danner. Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, D.C.: Taylor and Francis, 1989.
MS-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaPseudomonas AeruginosaNANABean et al. 2016
ProkaryotaPseudomonas AeruginosaNANAFitzgerald et al. 2021
ProkaryotaStaphylococcus AureusNANAFitzgerald et al. 2021
ProkaryotaPseudomonas AeruginosaNANAFilipiak et al. 2012
ProkaryotaPseudomonas Aeruginosastimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Sp.stimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBrevibacillus Agristimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaAneurinibacillus Aneurinilyticusstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPseudomonas Palleronianaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaBacillus Toyonensisstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
ProkaryotaBacillus Mycoidesstimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaStaphylococcus AureusLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaPseudomonas AeruginosaLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaEscherichia ColiLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaStaphylococcus Epidermidisstrains were provided by Prof. O'Gara at NUI GalwayFitzgerald et al. 2020
EukaryotaFusarium OxysporumNAMoisan et al. 2021
ProkaryotaStaphylococcus AureusAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaLitoreibacter Sp.isolate from the algal Chromera velia CCAP 1602/1Koteska et al. 2023
ProkaryotaBurkholderia Ambifarian/aBurkholderia ambifaria LMG 17828 from root, LMG 19182 from rhizosphere and LMG 19467 from clinical.Groenhagen et al. 2013
ProkaryotaThermoactinomyces VulgarisnasoilWilkins 1996
ProkaryotaActinomycetes Sp.n/aNASchulz and Dickschat 2007
EukaryotaFusarium Graminearumn/aNABusko et al. 2014
ProkaryotaPseudomonas SegetisNANAToral et al. 2021
EukaryotaMeyerozyma GuilliermondiiNANAZhao et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAZhao et al. 2022
EukaryotaSaccharomycopsis ViniNANAZhao et al. 2022
EukaryotaSaturnispora DiversaNANAZhao et al. 2022
EukaryotaWickerhamomyces AnomalusNANAZhao et al. 2022
Lentinula EdodesGeng et al. 2024
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaPseudomonas AeruginosaLB-LennoxSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBSPME/GC-MSno
ProkaryotaStaphylococcus AureusLBSPME/GC-MSno
ProkaryotaStaphylococcus AureusTSBSPME/GC-MSno
ProkaryotaPseudomonas Aeruginosatryptic soy brothTD/GC-MSno
ProkaryotaPseudomonas AeruginosaLB mediaSPME/GC-MSno
ProkaryotaPseudomonas Sp.LB mediaSPME/GC-MSno
ProkaryotaBacillus Sp.LB mediaSPME/GC-MSno
ProkaryotaBrevibacillus AgriLB mediaSPME/GC-MSno
ProkaryotaAneurinibacillus AneurinilyticusLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
ProkaryotaPseudomonas PalleronianaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaBacillus ToyonensisM+S (Murashige and Skoog) mediaSPME/GC-MSno
ProkaryotaBacillus MycoidesM+S (Murashige and Skoog) mediaSPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaStaphylococcus AureusTSB mediaHS-SPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSB mediaHS-SPME/GC-MSno
ProkaryotaEscherichia ColiTSB mediaHS-SPME/GC-MSno
ProkaryotaStaphylococcus EpidermidisTSB mediaHS-SPME/GC-MSno
EukaryotaFusarium Oxysporum1/5th PDA mediumGC-MSno
ProkaryotaStaphylococcus AureusLB media, TSB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaStaphylococcus EpidermidisBHI media, LB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaLitoreibacter Sp.marine broth agarOSSA/GC-MSno
ProkaryotaBurkholderia AmbifariaLuria-Bertani medium, Malt Extractn/ano
ProkaryotaThermoactinomyces VulgarisNutrient agar CM3GC/MSno
ProkaryotaActinomycetes Sp.n/an/ano
EukaryotaFusarium Graminearumyeast extract sucrose agarSPME/GC-MSno
ProkaryotaPseudomonas SegetisMOLPHS-SPME-GC/MSno
ProkaryotaPseudomonas SegetisSchaeffer’s growth (SG) mediumHS-SPME-GC/MSno
ProkaryotaPseudomonas Segetistryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
EukaryotaMeyerozyma Guilliermondiisynthetic grape juiceHS-SPMEno
EukaryotaSaccharomyces Cerevisiaesynthetic grape juiceHS-SPMEno
EukaryotaSaccharomycopsis Vinisynthetic grape juiceHS-SPMEno
EukaryotaSaturnispora Diversasynthetic grape juiceHS-SPMEno
EukaryotaWickerhamomyces Anomalussynthetic grape juiceHS-SPMEno
Lentinula EdodesJiuqu (traditional wheat Qu)GC-IMSno


Nonan-2-one

Mass-Spectra

Compound Details

Synonymous names
2-NONANONE
Nonan-2-one
821-55-6
Heptyl methyl ketone
Methyl heptyl ketone
beta-Nonanone
Ketone, heptyl methyl
METHYL N-HEPTYL KETONE
FEMA No. 2785
.beta.-Nonanone
NSC 14760
MFCD00009553
n-C7H15COCH3
ZE5K73YN2Z
DTXSID2022125
CHEBI:77927
NSC-14760
Methyl heptyl ketone; Methyl n-heptyl ketone; NSC 14760
2-Nonanone (natural)
Nonanone
EINECS 212-480-0
UNII-ZE5K73YN2Z
BRN 1743645
Heptylmethylketone
methylheptyl ketone
2-Nonanone-d5
NONANONE-2
2-NONANONE [FCC]
2-Nonanone, >=99%
2-NONANONE [FHFI]
SCHEMBL103970
SCHEMBL626185
DTXCID002125
SCHEMBL4089642
WLN: 7V1
2-Nonanone, analytical standard
CHEMBL2228473
NSC14760
Tox21_303845
BBL011435
LMFA12000052
STL146543
2-Nonanone, >=99%, FCC, FG
AKOS005720803
MCULE-9635928766
NCGC00357115-01
AS-10570
CAS-821-55-6
SY015805
2-Nonanone, natural, >=97%, FCC, FG
N0293
NS00003042
EN300-19772
A840259
Q15726063
InChI=1/C9H18O/c1-3-4-5-6-7-8-9(2)10/h3-8H2,1-2H
Microorganism:

Yes

IUPAC namenonan-2-one
SMILESCCCCCCCC(=O)C
InchiInChI=1S/C9H18O/c1-3-4-5-6-7-8-9(2)10/h3-8H2,1-2H3
FormulaC9H18O
PubChem ID13187
Molweight142.24
LogP3.1
Atoms10
Bonds6
H-bond Acceptor1
H-bond Donor0
Chemical Classificationketones
CHEBI-ID77927
Supernatural-IDSN0392454

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaStaphylococcus AureusNANAZhu et al. 2010
ProkaryotaKlebsiella PneumoniaeNANAAhmed et al. 2023
ProkaryotaEscherichia ColiNANAFitzgerald et al. 2021
ProkaryotaPseudomonas AeruginosaNANABean et al. 2016
ProkaryotaPseudomonas AeruginosaNANAFitzgerald et al. 2021
ProkaryotaPseudomonas AeruginosaNANABean et al. 2012
ProkaryotaPseudomonas AeruginosaNANADavis et al. 2020
EukaryotaAspergillus FumigatusNANANeerincx et al. 2016
ProkaryotaEscherichia ColiNANADevaraj et al. 2018
ProkaryotaEscherichia ColiNANADixon et al. 2022
ProkaryotaKlebsiella PneumoniaeNANAZechman et al. 1986
ProkaryotaPseudomonas AeruginosaNANAZechman et al. 1986
ProkaryotaPseudomonas AeruginosaNANABoots et al. 2014
ProkaryotaPseudomonas AeruginosaNANANA
ProkaryotaPseudomonas AeruginosaNANAFilipiak et al. 2012
ProkaryotaStaphylococcus AureusNANAZechman et al. 1986
ProkaryotaStreptococcus PneumoniaeNANAFilipiak et al. 2012
ProkaryotaEnterobacter CloacaeNANAJünger et al. 2012
ProkaryotaEscherichia ColiNANAMaddula et al. 2009
ProkaryotaEscherichia ColiNANAJünger et al. 2012
ProkaryotaKlebsiella PneumoniaeNANAJünger et al. 2012
ProkaryotaProteus MirabilisNANAJünger et al. 2012
ProkaryotaPseudomonas AeruginosaNANAJünger et al. 2012
ProkaryotaSerratia MarcescensNANAJünger et al. 2012
ProkaryotaCorynebacterium Accolensclinical isolateLemfack et al. 2016
ProkaryotaCorynebacterium Jeikeiumclinical isolateLemfack et al. 2016
ProkaryotaCorynebacterium Minutissimumclinical isolate,trunk of adult femaleLemfack et al. 2016
ProkaryotaCorynebacterium Striatumclinical isolateLemfack et al. 2016
ProkaryotaEscherichia ColiChina Center of Industrial culture Collection, China General Microbiological Culture Collection CenterChen et al. 2017
ProkaryotaShigella FlexneriChina Center of Industrial culture Collection, China General Microbiological Culture Collection CenterChen et al. 2017
ProkaryotaBacillus Sp.KX395632.1Fincheira et al. 2017
ProkaryotaPseudomonas AeruginosaNATimm et al. 2018
ProkaryotaShigella SonneiChina Center of Industrial Culture collectionWang et al. 2018
ProkaryotaStaphylococcus AureusChina Center of Industrial Culture collectionWang et al. 2018
ProkaryotaVibrio ParahaemolyticusChina Center of Industrial Culture collectionWang et al. 2018
ProkaryotaBacillus Sp.antifungal activity against Fusarium solaniRhizosphere soil of avocadoGuevara-Avendaño et al. 2019
ProkaryotaBacillus Amyloliquefaciens0rhizosphere soils of watermelon plantsWu et al. 2019
ProkaryotaBacillus SubtilissoilChen et al. 2008
ProkaryotaPseudomonas Fluorescens0Medicago spp. plant rhizospheresHernández-León et al. 2015
EukaryotaFusarium OxysporumNALi et al. 2018
ProkaryotaKlebsiella Pneumoniaeclinical isolate,bacteremic patientsRees et al. 2017
ProkaryotaBacillus Subtilisantifungal activity against Alternaria solaniisolate from rhizosphere of potato in Shandong and Hebei Province in ChinaZhang et al. 2020
ProkaryotaPseudomonas Sp.antifungal activity against Thielaviopsis ethacetica mycelial growthBrazilian Biorenewables National Laboratory – LNBR/CNPEM Microorganism Collection, Campinas, SP; isolatedfrom soil and roots of highly productive sugarcane-producing regions; BrazilFreitas et al. 2022
ProkaryotaSerratia Fonticolastimulate growth of Solanum tuberosumisolate from Irish potato soilsHeenan-Daly et al. 2021
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
ProkaryotaPseudomonas AeruginosaLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaEscherichia ColiLeibnitz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbHFitzgerald et al. 2020
ProkaryotaStenotrophomonas Maltophiliaantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)shoots of tomato plants (Elpida F1, Enza Zaden)López et al. 2021
ProkaryotaMicrobacterium Paraoxydansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaPantoea Vagansantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)leaves of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaArthrobacter Phenanthrenivoransantifungal effect on the growth of Alternaria alternata, Corynespora cassiicola and Stemphylium lycopersici (pathogens of tomato plants)shoots of tomato plants (Elpida F1, Enza Zaden) with symptoms of Gray leaf spotLópez et al. 2021
ProkaryotaPaenibacillus Polymyxaantifungal effects against Rhizopus stoloniferisolated from an ancient tree Cryptomeria fortune and deposited in China General Microbiological Culture Collection Center (CGMCC No. 15733)Wu et al. 2020
ProkaryotaBacillus Velezensisinhibite the growth of Botrytis cinerea VG1, Monilinia fructicola VG 104, Monilinia laxa VG 105, Penicillium digitatum VG 20, Penicillium expansum CECT 20140, Penicillium italicum VG 104NACalvo et al. 2020
ProkaryotaBacillus Velezensisinhibite the growth of Botrytis cinerea VG1, Monilinia fructicola VG 104, Monilinia laxa VG 105, Penicillium digitatum VG 20, Penicillium expansum CECT 20140, Penicillium italicum VG 113NACalvo et al. 2020
ProkaryotaStaphylococcus AureusAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaBacillus VelezensisNARiu et al. 2022
ProkaryotaEscherichia ColiSwedish Institute for Communicable Disease Control (SMI), Stockholm, SwedenSousa et al. 2023
EukaryotaChromera VeliaCulture Collection of Algae and Protozoa (CCAP) at the SAMS Limited Scottish Marine Institute (Oban, Argyll, Scotland, UK)Koteska et al. 2023
ProkaryotaBacillus SimplexReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaBacillus SubtilisReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaBacillus WeihenstephanensisReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaMicrobacterium OxydansReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaStenotrophomonas MaltophiliaReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaStreptomyces LateritiusReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaSerratia MarcescensReduction of movement or death of Panagrelleus redivivus and Bursaphelenchus xylophilus.NAGu et al. 2007
ProkaryotaCarnobacterium Maltaromaticumn/aNAErcolini et al. 2009
ProkaryotaCarnobacterium Divergensn/aNAErcolini et al. 2009
ProkaryotaSerratia Sp.n/aNABruce et al. 2004
ProkaryotaBurkholderia Ambifarian/aBurkholderia ambifaria LMG 17828 from root, LMG 19182 from rhizosphere and LMG 19467 from clinical.Groenhagen et al. 2013
ProkaryotaBurkholderia Andropogonisn/aNABlom et al. 2011
ProkaryotaBurkholderia Anthinan/aNABlom et al. 2011
ProkaryotaBurkholderia Caribensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Caryophyllin/aNABlom et al. 2011
ProkaryotaBurkholderia Cepacian/aNABlom et al. 2011
ProkaryotaBurkholderia Fungorumn/aNABlom et al. 2011
ProkaryotaBurkholderia Gladiolin/aNABlom et al. 2011
ProkaryotaBurkholderia Glathein/aNABlom et al. 2011
ProkaryotaBurkholderia Glumaen/aNABlom et al. 2011
ProkaryotaBurkholderia Graminisn/aNABlom et al. 2011
ProkaryotaBurkholderia Hospitan/aNABlom et al. 2011
ProkaryotaBurkholderia Latan/aNABlom et al. 2011
ProkaryotaBurkholderia Phenoliruptrixn/aNABlom et al. 2011
ProkaryotaBurkholderia Phytofirmansn/aNABlom et al. 2011
ProkaryotaBurkholderia Pyrrocinian/aNABlom et al. 2011
ProkaryotaBurkholderia Terricolan/aNABlom et al. 2011
ProkaryotaChromobacterium Violaceumn/aNABlom et al. 2011
ProkaryotaEscherichia Colin/aNABlom et al. 2011
ProkaryotaPandoraea Norimbergensisn/aNABlom et al. 2011
ProkaryotaPseudomonas Chlororaphisn/aNABlom et al. 2011
ProkaryotaPseudomonas Fluorescensn/aNABlom et al. 2011
ProkaryotaPseudomonas Putidan/aNABlom et al. 2011
ProkaryotaSerratia Entomophilan/aNABlom et al. 2011
ProkaryotaSerratia Marcescensn/aNABlom et al. 2011
ProkaryotaSerratia Plymuthican/aNABlom et al. 2011
ProkaryotaSerratia Proteamaculansn/aNABlom et al. 2011
ProkaryotaStenotrophomonas Rhizophilan/aNABlom et al. 2011
EukaryotaAspergillus Flavusn/aNABeck et al. 2012
EukaryotaAspergillus Parasiticusn/aNABeck et al. 2012
EukaryotaAspergillus Nigern/aNABeck et al. 2012
EukaryotaPenicillium Glabrumn/aNABeck et al. 2012
EukaryotaRhizopus Stolonifern/aNABeck et al. 2012
ProkaryotaKlebsiella Pneumoniaen/aNAElgaali et al. 2002
ProkaryotaEscherichia Colin/aNASiripatrawan et al. 2008
EukaryotaTrichoderma Atroviriden/aNAStoppacher et al. 2010
ProkaryotaEscherichia ColiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaCitrobacter FreundiiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaEnterobacter AerogenesAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaEnterobacter CloacaeAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaShigella SonneiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaAcinetobacter JohnsoniiAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaPseudomonas FluorescensAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaShewanella PutrefaciensAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaLactobacillus LactisAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
ProkaryotaStreptococcus ThermophilusAmerican Type Culture Collection (ATCC), Rockville, MD or wild strains identified at the University of Kentucky Dept. of Animal Sciences Food Microbiology LaboratoryElgaali et al. 2002
EukaryotaTrichoderma VirensNACrutcher et al. 2013
EukaryotaTrichoderma ReeseiNACrutcher et al. 2013
ProkaryotaClostridium Difficileoutbreak 2006 UKRees et al. 2016
ProkaryotaSerratia Liquefaciensnasoil, water, plants; digestive tracts of rodents, insects, fish, humansSchöller et al. 1997
ProkaryotaPseudomonas Brassicacearumreduces mycelium growth and sclerotia germination of Sclerotinia sclerotiorum USB-F593; lyses red blood cellsrhizosphere of bean plants, southern ItalyGiorgio et al. 2015
ProkaryotaPseudomonas Putidareduces mycelium growth and sclerotia germination of Sclerotinia sclerotiorum USB-F593; lyses red blood cellsrhizosphere of bean plants, southern ItalyGiorgio et al. 2015
ProkaryotaPseudomonas Syringaenaphyllosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas Jesseniinaphyllosphere of field-grown potato plantsHunziker et al. 2015
ProkaryotaPseudomonas AeruginosananaBriard et al. 2016
ProkaryotaPseudomonas Chlororaphisinhibits growth of Agrobacterium tumefaciens C58, Synechococcus sp. PCC 7942 and Rhizoctonia solani, kills Caenorhabditis elegansRhizosphere of maize, Kiev region, UkrainePopova et al. 2014
ProkaryotaLactobacillus RhamnosusnanaPogačić et al. 2016
ProkaryotaAlcaligenes FaecalisnanaSu et al. 2016
ProkaryotaProteus VulgarisnanaSu et al. 2016
ProkaryotaPseudochrobactrum AsaccharolyticumnanaSu et al. 2016
EukaryotaPleurotus CystidiosusnanaUsami et al. 2014
EukaryotaXylaria Sp.naHaematoxylon brasiletto, Morelos, MexicoSánchez-Ortiz et al. 2016
EukaryotaTrichoderma Atroviridenawater damaged buildings, BelgiumPolizzi et al. 2012
ProkaryotaBurkholderia CepaciaRhizosphereBlom et al. 2011
EukaryotaTuber IndicumT. melanosporum, T. borchii were collected from northern Italy (Piedmont) and T. indicum from Yunnan and Sichuan Provinces (China). Splivallo et al. 2007b
ProkaryotaSerratia Sp.Might be involved in inhibition of fungal growth.NASchulz and Dickschat 2007
ProkaryotaXanthomonas Campestrisn/aNAWeise et al. 2012
ProkaryotaPseudochrobactrum SaccharolyticumNematicidal activitycow dungXU et al. 2015
ProkaryotaProteus HauseriNematicidal activitycow dungXU et al. 2015
ProkaryotaWautersiella FalseniiNematicidal activitycow dungXU et al. 2015
ProkaryotaAchromobacter XylosoxidansNematicidal activitycow dungXU et al. 2015
EukaryotaTrichoderma Aureoviriden/aNABruce et al. 2000
EukaryotaCladosporium CladosporioidesNAHedlund et al. 1995
EukaryotaCladosporium HerbarumNAHedlund et al. 1995
EukaryotaPenicillium SpinulosumNAHedlund et al. 1995
ProkaryotaPaenibacillus Polymyxacollection TU GrazRybakova et al. 2017
EukaryotaVerticillium Longisporumcollection TU GrazRybakova et al. 2017
EukaryotaCryptococcus NemorosusNANALjunggren et al. 2019
EukaryotaZygosaccharomyces RouxiiNANAPei et al. 2022
ProkaryotaAchromobacter Sp.NANAAlmeida et al. 2022
ProkaryotaSerratia Sp.NANAAlmeida et al. 2022
ProkaryotaEnterobacter Sp.NANAAlmeida et al. 2022
ProkaryotaEscherichia ColiNANAAlmeida et al. 2022
EukaryotaAureobasidium PullulansNANAMozūraitis et al. 2022
EukaryotaCryptococcus WieringaeNANAMozūraitis et al. 2022
EukaryotaHanseniaspora UvarumNANAMozūraitis et al. 2022
EukaryotaPichia KudriavzeviiNANAMozūraitis et al. 2022
EukaryotaPichia FermentansNANAMozūraitis et al. 2022
EukaryotaPichia KluyveriNANAMozūraitis et al. 2022
EukaryotaPichia MembranifaciensNANAMozūraitis et al. 2022
EukaryotaSaccharomyces ParadoxusNANAMozūraitis et al. 2022
EukaryotaTorulaspora DelbrueckiiNANAMozūraitis et al. 2022
EukaryotaPichia AnomalaNANAMozūraitis et al. 2022
ProkaryotaPseudomonas SegetisNANAToral et al. 2021
ProkaryotaBacillus VelezensisNANAToral et al. 2021
ProkaryotaLactobacillus PlantarumNANAZhang et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAZhao et al. 2022
Enterobacter AgglomeransTallon et al. 2023
Enterobacter CloacaeTallon et al. 2023
Klebsiella OxytocaTallon et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaStaphylococcus AureusTSBSESI-MSno
ProkaryotaKlebsiella PneumoniaeNBTD/GC-MSno
ProkaryotaEscherichia ColiBHISPME/GC-MSno
ProkaryotaEscherichia ColiTSBSPME/GC-MSno
ProkaryotaEscherichia ColiLBSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLB-LennoxSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaBHISPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLBSPME/GC-MSno
ProkaryotaPseudomonas Aeruginosalysogeny brothSPME/GCxGC-MSno
ProkaryotaPseudomonas AeruginosaLB brothSPME/GCxGC-MSno
EukaryotaAspergillus FumigatusSDB + chloramphenicolTD/GC-MSno
ProkaryotaEscherichia ColiTSATD/GC-MSno
ProkaryotaEscherichia ColiLBTD/GC-MSno
ProkaryotaKlebsiella PneumoniaeTSBTD/GC-MSno
ProkaryotaPseudomonas AeruginosaTSBTD/GC-MSno
ProkaryotaPseudomonas AeruginosaMueller–HintonTD/GC-MSno
ProkaryotaPseudomonas Aeruginosatrypticase soy agarTD/GC-MSno
ProkaryotaPseudomonas Aeruginosatryptic soy brothTD/GC-MSno
ProkaryotaStaphylococcus AureusTSBTD/GC-MSno
ProkaryotaStreptococcus PneumoniaeTryptic soyaTD/GC-MSno
ProkaryotaEnterobacter CloacaeColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaEscherichia ColiNeidhardt minimal salt mediumTD/GC-MS and MCC-IMSno
ProkaryotaEscherichia ColiColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaKlebsiella PneumoniaeColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaProteus MirabilisColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaPseudomonas AeruginosaColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaSerratia MarcescensColumbia sheep bloodTD/GC-MS and MCC-IMSno
ProkaryotaCorynebacterium Accolensbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaCorynebacterium Jeikeiumbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaCorynebacterium Minutissimumbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaCorynebacterium Striatumbrain heart infusion mediumPorapak / GC/MSno
ProkaryotaEscherichia ColiTrypticase Soy Broth (TSB)HS-SPME/GC-MSno
ProkaryotaShigella FlexneriTrypticase Soy Broth (TSB)HS-SPME/GC-MSno
ProkaryotaBacillus Sp.Plate Count agar (PCA)GC–MSyes
ProkaryotaBacillus Sp.Methyl Red & Voges Proskauer broth (MRVP-B)SPME, GC-MSyes
ProkaryotaPseudomonas AeruginosaMOPS glucose+EZSPME, GC-MSyes
ProkaryotaShigella SonneiSodium chloride brothSPME, GC-MSno
ProkaryotaStaphylococcus AureusSodium chloride brothSPME, GC-MSno
ProkaryotaVibrio ParahaemolyticusSodium chloride brothSPME, GC-MSno
ProkaryotaBacillus Sp.LB agarSPME-GC-MSno
ProkaryotaBacillus Amyloliquefaciensmodified Murashige-Skoog (MS) culture mediumSPME-GC-MSno
ProkaryotaBacillus SubtilisLuria-Bertani (LB)activated charcoral trapno
ProkaryotaPseudomonas FluorescensNutrient AgarSPME-GC-MSno
EukaryotaFusarium Oxysporumpotato dextrose agarSPME, GC-MSno
ProkaryotaKlebsiella PneumoniaeBHI, LB, MHB, TSBSPME / GCxGC-TOFMSno
ProkaryotaBacillus SubtilisLB mediaHS-SPME/GC-MSyes
ProkaryotaPseudomonas Sp.DYGS mediaHS-SPME/GC-MSyes
ProkaryotaPseudomonas Sp.LB media, DYGS mediaHS-SPME/GC-MSyes
ProkaryotaSerratia FonticolaTSB media, MR-VP (Methyl Red-Vogos Proskeur) media, M+S (Murashige and Skoog) mediaSPME/GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
ProkaryotaPseudomonas AeruginosaTSB mediaHS-SPME/GC-MSno
ProkaryotaEscherichia ColiTSB mediaHS-SPME/GC-MSno
ProkaryotaStenotrophomonas MaltophiliaTYB mediaGC-MSno
ProkaryotaMicrobacterium ParaoxydansTYB mediaGC-MSno
ProkaryotaPantoea VagansTYB mediaGC-MSno
ProkaryotaArthrobacter PhenanthrenivoransTYB mediaGC-MSno
ProkaryotaPaenibacillus PolymyxaLB agar and M49 (minimal) mediaSPME/GC-MSyes
ProkaryotaBacillus VelezensisMOLP mediaSPME/GC-MSyes
ProkaryotaStaphylococcus AureusBHI media, LB media, MHB media, TSB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaStaphylococcus EpidermidisBHI media, LB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaBacillus VelezensisTSA media, sterile soilSPME/GC-MSno
ProkaryotaEscherichia ColiLB mediaHS-SPME/GC-MSno
ProkaryotaEscherichia Colirocket lysate, spinach lysateHS-SPME/GC-MSno
EukaryotaChromera Veliaseawater media L1OSSA/GC-MSno
ProkaryotaBacillus Simplexn/an/ano
ProkaryotaBacillus Subtilisn/an/ano
ProkaryotaBacillus Weihenstephanensisn/an/ano
ProkaryotaMicrobacterium Oxydansn/an/ano
ProkaryotaStenotrophomonas Maltophilian/an/ano
ProkaryotaStreptomyces Lateritiusn/an/ano
ProkaryotaSerratia Marcescensn/an/ano
ProkaryotaCarnobacterium Maltaromaticumn/an/ano
ProkaryotaCarnobacterium Divergensn/an/ano
ProkaryotaSerratia Sp.n/an/ano
ProkaryotaBurkholderia AmbifariaLuria-Bertani medium, Malt Extractn/ano
ProkaryotaBurkholderia AndropogonisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia AnthinaLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaribensisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaryophylliMR-VP and MSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CepaciaMR-VP and MSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia FungorumLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia Gladioli LB, MR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GlatheiLB Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia Glumae LB, MR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GraminisLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia HospitaMSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia LataLBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenoliruptrixLBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhytofirmansLBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia Pyrrocinia LB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia Terricola LB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaChromobacterium Violaceum LB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaEscherichia ColiMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPandoraea NorimbergensisLBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas Chlororaphis LB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas Fluorescens LB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas Putida LB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia EntomophilaLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia MarcescensLB, MR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia PlymuthicaLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia PlymuthicaLB and MR-VP Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia ProteamaculansLB and MR-VP Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaStenotrophomonas RhizophilaLBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
EukaryotaAspergillus Flavuspotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaAspergillus Parasiticuspotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaAspergillus Nigerpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaPenicillium Glabrumpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaRhizopus Stoloniferpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
ProkaryotaKlebsiella PneumoniaeTS brothHS-SPME/GC-MS no
ProkaryotaEscherichia ColiSuper broth made up of tryptone, yeast, NaClHS-SPME/GC-MS no
EukaryotaTrichoderma AtroviridePotato dextrose agarHS-SPME/GC-MS no
ProkaryotaEscherichia ColiTS brothGC-MS Super Qno
ProkaryotaCitrobacter FreundiiTS brothGC-MS SPMEyes
ProkaryotaEnterobacter AerogenesTS brothGC-MS SPMEyes
ProkaryotaEnterobacter CloacaeTS brothGC-MS SPMEyes
ProkaryotaEscherichia ColiTS brothGC-MS SPMEyes
ProkaryotaShigella SonneiTS brothGC-MS SPMEyes
ProkaryotaAcinetobacter JohnsoniiTS brothGC-MS SPMEyes
ProkaryotaPseudomonas FluorescensTS brothGC-MS SPMEyes
ProkaryotaShewanella PutrefaciensTS brothGC-MS SPMEyes
ProkaryotaLactobacillus LactisTS brothGC-MS SPMEyes
ProkaryotaStreptococcus ThermophilusTS brothGC-MS SPMEyes
EukaryotaTrichoderma VirensPotato dextrose agarHS-SPME/GC-MS no
EukaryotaTrichoderma ReeseiPotato dextrose agarHS-SPME/GC-MS no
ProkaryotaClostridium Difficilebrain heart infusionGCxGC-TOF-MSyes
ProkaryotaSerratia LiquefaciensAB medium + 1% citrateGC-FID,GC/MSno
ProkaryotaPseudomonas BrassicacearumKing's B AgarSPME-GC/MSno
ProkaryotaPseudomonas PutidaKing's B AgarSPME-GC/MSno
ProkaryotaPseudomonas SyringaeLB mediumGC/MSyes
ProkaryotaPseudomonas JesseniiLB mediumGC/MSyes
ProkaryotaPseudomonas Aeruginosaminimal medium/ Brian mediumSPME-GC/MSno
ProkaryotaPseudomonas ChlororaphisLB mediumSPME-GC/MSno
ProkaryotaLactobacillus Rhamnosuscurd-based broth mediumGC/MSyes
ProkaryotaAlcaligenes FaecalisLB mediumSPME-GC/MSno
ProkaryotaProteus VulgarisLB mediumSPME-GC/MSno
ProkaryotaPseudochrobactrum AsaccharolyticumLB mediumSPME-GC/MSno
EukaryotaPleurotus CystidiosusnaGC/MS, GC-O, AEDAno
EukaryotaXylaria Sp.PDA mediumSPME-GC/MSyes
EukaryotaTrichoderma Atroviridemalt extract agar; potato dextrose agar; water agar; yeast extract agar; Czapek agarSPME-GC/MSno
ProkaryotaBurkholderia CepaciaMR-VP and MSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)yes
EukaryotaTuber Indicumyes
ProkaryotaXanthomonas CampestrisNBIIClosed airflow-system/GC-MS and PTR-MSno
ProkaryotaPseudochrobactrum SaccharolyticumLB liquidSPME-GC/MSno
ProkaryotaProteus HauseriLB liquidSPME-GC/MSno
ProkaryotaWautersiella FalseniiLB liquidSPME-GC/MSno
ProkaryotaAchromobacter XylosoxidansLB liquidSPME-GC/MSno
EukaryotaTrichoderma Aureoviridelow nutrient media (containing phenylalanin)T. aureoviride was cultured on low nutrient media (LNM) containing phenylalanine. LNM had a carbon:nitrogen ratio similar to that typically found in wood. The cultures were covered and incubated for 7 days at 25°C.no
EukaryotaCladosporium CladosporioidesGC-MSno
EukaryotaCladosporium HerbarumGC-MSno
EukaryotaPenicillium SpinulosumGC-MSno
ProkaryotaPaenibacillus PolymyxaGC-MS / SPMEno
EukaryotaVerticillium Longisporumpotato dextrose agar (PDA), Czapek Dox liquid cultureGC-MS / SPMEno
EukaryotaCryptococcus Nemorosusliquid YPD mediumGC-MSno
EukaryotaZygosaccharomyces RouxiiYPD mediumGC-MSno
ProkaryotaAchromobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaSerratia Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaEnterobacter Sp.LB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
ProkaryotaEscherichia ColiLB broth supplemented with cryoprotectant solution (25 g L−1 gelatin, 50 g L−1 lactose, 10 g L−1 peptone, and 250 g L−1 glycerol)SPME with gas chromatograph (Agilent 7890A, Agilent Technologies) connected to a mass spectrometer (Pegasus® HT TOFMS, LECO Corporation)no
EukaryotaAureobasidium PullulansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaCryptococcus WieringaeYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaHanseniaspora UvarumYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KudriavzeviiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia FermentansYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia KluyveriYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia MembranifaciensYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaSaccharomyces ParadoxusYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaTorulaspora DelbrueckiiYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
EukaryotaPichia AnomalaYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
ProkaryotaPseudomonas SegetisMOLPHS-SPME-GC/MSno
ProkaryotaPseudomonas Segetistryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
ProkaryotaBacillus VelezensisMOLPHS-SPME-GC/MSno
ProkaryotaBacillus Velezensistryptic soy agar (TSA, Panreac Applichem) mediumHS-SPME-GC/MSno
ProkaryotaLactobacillus Plantarumchickpea milkUHPLC/MSno
EukaryotaSaccharomyces Cerevisiaesynthetic grape juiceHS-SPMEno
Enterobacter Agglomeranstryptone soya broth (TSB) mediaSPME/GC/MSno
Enterobacter Cloacaetryptone soya broth (TSB) mediaSPME/GC/MSno
Klebsiella Oxytocatryptone soya broth (TSB) mediaSPME/GC/MSno


Octan-3-one

Mass-Spectra

Compound Details

Synonymous names
3-Octanone
Octan-3-one
106-68-3
Ethyl amyl ketone
Ethyl pentyl ketone
Amyl ethyl ketone
n-Octanone-3
Ethyl n-pentyl ketone
Ethyl n-amyl ketone
3-Oxooctane
3-Octanone (natural)
FEMA No. 2803
Ethyl n-amylketone
n-AMYL ETHYL KETONE
NSC 60161
HSDB 5371
EAK
EINECS 203-423-0
BRN 1700021
CCRIS 8808
DTXSID3041954
CHEBI:80946
AI3-36116
NSC-60161
UNII-79173B4107
OCTANONE, 3-
DTXCID1021954
MFCD00009515
79173B4107
2-Heptanone, methyl-
UN2271
1-ethyl hexanal
3-octanon
octane-3-one
octan-6-one
3-OCTANONE [MI]
3-Octanone, >=98%
SCHEMBL5593
3-OCTANONE [FHFI]
3-OCTANONE [HSDB]
Ethyl amyl ketone [UN2271] [Flammable liquid]
WLN: 5V2
3-Octanone, analytical standard
3-Octanone, >=98%, FG
CHEMBL2269087
FEMA 2803
NSC60161
Tox21_301208
BBL011431
LMFA12000055
STL146538
AKOS005720776
MCULE-2012071553
NCGC00248338-01
NCGC00255105-01
CAS-106-68-3
VS-02948
3-Octanone, natural (US), >=97%, FG
NS00011968
O0122
C17145
EN300-396111
A801482
Ethyl amyl ketone [UN2271] [Flammable liquid]
J-001627
Q18349104
106-68-3(3-octanone); 541-85-5(5-methyl-3-heptanone)
Microorganism:

Yes

IUPAC nameoctan-3-one
SMILESCCCCCC(=O)CC
InchiInChI=1S/C8H16O/c1-3-5-6-7-8(9)4-2/h3-7H2,1-2H3
FormulaC8H16O
PubChem ID246728
Molweight128.21
LogP2.3
Atoms9
Bonds5
H-bond Acceptor1
H-bond Donor0
Chemical Classificationketones
CHEBI-ID80946
Supernatural-IDSN0325489

mVOC Specific Details

Boiling Point
DegreeReference
167.5 °C peer reviewed
Volatilization
The Henry's Law constant for 3-octanone is estimated as 1.3X10-4 atm-cu m/mole(SRC) derived from its vapor pressure, 2.0 mm Hg(1), and water solubility, 2600 mg/L(1). This Henry's Law constant indicates that 3-octanone is expected to volatilize from water surfaces(2). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(2) is estimated as 11 hours(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(2) is estimated as 6.8 days(SRC). 3-Octanone's estimated Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). The potential for volatilization of 3-octanone from dry soil surfaces may exist based upon its vapor pressure(1).
Literature: (1) Lande SS et al; Investigation of Selected Potential Environmental Contaminants: Ketonic Solvents. USEPA-560/2-76-003. Washington, DC: USEPA, Office of Toxic Substances (1976) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990)
Soil Adsorption
The Koc of 3-octanone is estimated as 58(SRC), using a water solubility of 2600 mg/L(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that 3-octanone is expected to have high mobility in soil.
Literature: (1) Lande SS et al; Investigation of Selected Potential Environmental Contaminants: Ketonic Solvents. USEPA-560/2-76-003. Washington, DC: USEPA, Office of Toxic Substances (1976) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 4-9 (1990) (3) Swann RL et al; Res Rev 85: 17-28 (1983)
Vapor Pressure
PressureReference
2 mm Hg at 20 deg CLande SS et al; Investigation of Selected Potential Environmental Contaminants: Ketonic Solvents. USEPA-560/2-76-003. Washington, DC: USEPA, Office of Toxic Substances (1976)
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaMycobacterium BovisNANAKüntzel et al. 2018
EukaryotaAspergillus FumigatusNANAHeddergott et al. 2014
ProkaryotaPseudomonas AeruginosaNANABean et al. 2016
ProkaryotaPseudomonas AeruginosaNANADavis et al. 2020
EukaryotaAspergillus FumigatusNANABazemore et al. 2012
ProkaryotaPseudomonas AeruginosaNANAFilipiak et al. 2012
EukaryotaAspergillus FumigatusNANAPerl et al. 2011
EukaryotaPythium OligandrumN/APythium oligandrum GAQ1 strain was isolated from soil from a field where infected ginger was growing in Laiwu district, Jinan City, Shandong Province, China. China General Microbiological Culture Collection Center (CGMCC) deposit number No. 17470.Sheikh et al. 2023
EukaryotaAspergillus Versicolorwild strainsSchleibinger et al. 2005
EukaryotaChaetomium Globosumwild strainsSchleibinger et al. 2005
EukaryotaEurotium Amstelodamiwild strainsSchleibinger et al. 2005
EukaryotaPenicillium Brevicompactumwild strainsSchleibinger et al. 2005
EukaryotaTrichoderma Harzianum0NALi et al. 2018
EukaryotaTrichoderma Virens0NALi et al. 2018
EukaryotaFomes Fomentarius160-year-old beech forest,51°46´N 9°34´E,Solling,low mountain range,central GermanyHolighaus et al. 2014
EukaryotaTrichoderma HarzianumNALi et al. 2018
EukaryotaTrichoderma VirensNALi et al. 2018
EukaryotaFusarium SporotrichioidesNASchnürer et al. 1999
EukaryotaPenicillium CommuneNASchnürer et al. 1999
ProkaryotaPseudomonas Palleronianaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaArthrobacter Nicotinovoransstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaErwinia Persicinaavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaPantoea Vagansstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
ProkaryotaSerratia Liquefaciensstimulate growth in Arabidopsis thaliana seedlings depending on inoculum concentrationavocado trees (Persea americana) rhizosphereGamboa-Becerra et al. 2022
EukaryotaRhizoctonia Solanidirectional root growth of Brassica rapa rootsNAMoisan et al. 2021
EukaryotaTrichoderma Asperellumreduce downy mildew severity on Vitis vinifera (grapevine plants)Cotxarrera et al., 2002Lazazzara et al. 2021
EukaryotaTrichoderma Atroviridereduce downy mildew severity on Vitis vinifera (grapevine plants)Pertot et al., 2008Lazazzara et al. 2021
EukaryotaTrichoderma Harzianumreduce downy mildew severity on Vitis vinifera (grapevine plants)Eladet al., 1997Lazazzara et al. 2021
ProkaryotaStaphylococcus AureusAmerican Type Culture CollectionJenkins and Bean 2020
ProkaryotaStaphylococcus EpidermidisAmerican Type Culture CollectionJenkins and Bean 2020
EukaryotaChromera VeliaCulture Collection of Algae and Protozoa (CCAP) at the SAMS Limited Scottish Marine Institute (Oban, Argyll, Scotland, UK)Koteska et al. 2023
EukaryotaMalassezia GlobosaFungal Biodiversity Center (WesterdijkInstitute, Utrecht, The Netherlands)Rios-Navarro et al. 2023
EukaryotaAspergillus Flavusn/aNAStotzky and Schenck 1976
ProkaryotaSerratia Proteamaculansn/aNAErcolini et al. 2009
EukaryotaTuber Mesentericumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Excavatumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Borchiin/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Aestivumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Brumalen/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Panniferumn/aFortywoodland of the Basilicata regionMauriello et al. 2004
EukaryotaTuber Melanosporumn/aAgricultural Centre of Castilla and León Community (Monasterio de la Santa Espina, Valladolid, Spain) and Navaleno (Soria, Spain).Diaz et al. 2003
EukaryotaTuber Uncinatumn/aFrance, Italy, Switzerland, the UK, Austria, Romania, and HungarySplivallo et al. 2012
EukaryotaPenicillium Paneumn/aNAChitarra et al. 2004
EukaryotaPenicillium Chrysogenumn/aNAMeruva et al. 2004
EukaryotaLaccaria Bicolorn/aNAMueller et al. 2013
EukaryotaPaxillus Involutusn/aNAMueller et al. 2013
EukaryotaArmillaria Mellean/aNAMueller et al. 2013
EukaryotaPholiota Squarrosan/aNAMueller et al. 2013
EukaryotaVerticillium Longisporumn/aNAMueller et al. 2013
EukaryotaStropharia Rugosoannulatan/aNAMueller et al. 2013
EukaryotaTrichoderma Viriden/aNAMueller et al. 2013
EukaryotaAspergillus Flavusn/aNABeck et al. 2012
EukaryotaAspergillus Parasiticusn/aNABeck et al. 2012
EukaryotaAspergillus Nigern/aNABeck et al. 2012
EukaryotaPenicillium Glabrumn/aNABeck et al. 2012
EukaryotaRhizopus Stolonifern/aNABeck et al. 2012
EukaryotaTuber IndicumInhibit the development of Arabidopsis thaliana and modify its oxidative metabolismNASplivallo et al. 2007
ProkaryotaCollimonas Pratensisn/aNAGarbeva et al. 2014
EukaryotaTrichoderma Virensn/aNACrutcher et al. 2013
EukaryotaTrichoderma Atroviriden/aNACrutcher et al. 2013
EukaryotaTrichoderma Reesein/aNACrutcher et al. 2013
EukaryotaTrichoderma Atroviriden/aNAStoppacher et al. 2010
EukaryotaGeotrichum Candidumcompost mixed with milky fermented productZirbes et al. 2011
EukaryotaAspergillus Candiduscompost Fischer et al. 1999
EukaryotaPenicillium CorymbiferumNAPierce et al. 1991
EukaryotaScopulariopsis BrevicaulisNAPierce et al. 1991
EukaryotaFusarium Sp.NAPierce et al. 1991
EukaryotaAspergillus Versicolornadamp indoor environments, food productsSunesson et al. 1995
EukaryotaPhialophora FastigiatananaSunesson et al. 1995
EukaryotaSpongiporus Leucomallellusnasaprophytic mostly on wet, old pinesCampos Ziegenbein et al. 2006
EukaryotaPiptoporus BetulinusnaSachsenwald near HamburgRösecke et al. 2000
EukaryotaTrametes Suaveolensnanear Zachersmühle, Göppingen, southern GermanyRösecke et al. 2000
EukaryotaPleurotus EryngiinanaUsami et al. 2014
EukaryotaPleurotus CystidiosusnanaUsami et al. 2014
EukaryotaAmpelomyces Sp.nanaNaznin et al. 2014
EukaryotaAspergillus SydowiinanaSteiner et al. 2007
EukaryotaAspergillus VersicolornanaSteiner et al. 2007
EukaryotaPenicillium Polonicumnawater damaged buildings, BelgiumPolizzi et al. 2012
EukaryotaAspergillus Ustusnawater damaged buildings, BelgiumPolizzi et al. 2012
EukaryotaPericonia Britannicanawater damaged buildings, BelgiumPolizzi et al. 2012
ProkaryotaStreptomyces Ciscaucasicuspotentially involved in antifungal activityNACordovez et al. 2015
EukaryotaPenicillium ChrysogenumNAMeruva et al. 2004
ProkaryotaCyanobacteria Sp.n/aNASchulz and Dickschat 2007
ProkaryotaActinomycetes Sp.n/aNASchulz and Dickschat 2007
ProkaryotaMyxococcus Xanthusn/aNASchulz and Dickschat 2007
ProkaryotaMyxobacterium Sp.n/aNADickschat et al. 2004
EukaryotaRhizoctonia Solanicollection of the Sugar Beet Research Institute, Bergen op Zoom, The NetherlandsCordovez et al. 2017
EukaryotaAgaricus BisporusSylvan, UKCombet et al. 2009
EukaryotaCryptococcus NemorosusNANALjunggren et al. 2019
EukaryotaMetschnikowia AndauensisNANALjunggren et al. 2019
EukaryotaSaccharomyces CerevisiaeNANAGe et al. 2021
EukaryotaPhytophthora CactorumN/APhytophthora cactorum Loulier et al. 2020
EukaryotaPhytophthora RamorumN/APhytophthora ramorumLoulier et al. 2020
Lentinula EdodesGeng et al. 2024
Fusarium GraminearumBallot et al. 2023
MicrobacteriumBallot et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaMycobacterium BovisHEYMNTD/GC-MSno
EukaryotaAspergillus FumigatusBrian aeratedSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLB-LennoxSPME/GC-MSno
ProkaryotaPseudomonas AeruginosaLB brothSPME/GCxGC-MSno
EukaryotaAspergillus FumigatusSDA + ElastinTD/GC-MSno
ProkaryotaPseudomonas Aeruginosatryptic soy brothTD/GC-MSno
EukaryotaAspergillus FumigatusColumbia sheep bloodTD/GC-MS and MCC-IMSno
EukaryotaPythium OligandrumV8 juice agarSPME/GC-MS/MSyes
EukaryotaAspergillus Versicoloringrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaChaetomium Globosumingrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaEurotium Amstelodamiingrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaPenicillium Brevicompactumingrain (woodchip)SIM/GCMS / Tenaxno
EukaryotaTrichoderma HarzianumPDA plateSPME-GC-MSno
EukaryotaTrichoderma VirensPDA plateSPME-GC-MSno
EukaryotaFomes FomentariusGC-MS (SIM)yes
EukaryotaTrichoderma Harzianumpotato dextrose agarSPME, GC-MSno
EukaryotaTrichoderma Virenspotato dextrose agarSPME, GC-MSno
EukaryotaFusarium Sporotrichioidesmalt extract agar with 0.5-1.0% acetic acidTenaxGC,Chromosorb,HS-SPME, GC-MSno
EukaryotaPenicillium Communemalt extract agar with 0.5-1.0% acetic acidTenaxGC,Chromosorb,HS-SPME, GC-MSno
ProkaryotaPseudomonas PalleronianaLB mediaSPME/GC-MSno
ProkaryotaArthrobacter NicotinovoransLB mediaSPME/GC-MSno
ProkaryotaErwinia PersicinaLB mediaSPME/GC-MSno
ProkaryotaPantoea VagansLB mediaSPME/GC-MSno
ProkaryotaSerratia LiquefaciensLB mediaSPME/GC-MSno
EukaryotaRhizoctonia Solani1/5th PDA mediumGC-MSno
EukaryotaTrichoderma AsperellumPDA mediaHS-SPME/GC-MSno
EukaryotaTrichoderma AtroviridePDA mediaHS-SPME/GC-MSno
EukaryotaTrichoderma HarzianumPDA mediaHS-SPME/GC-MSno
ProkaryotaStaphylococcus AureusLB media, TSB mediaHS-SPME/GC×GC-TOFMSno
ProkaryotaStaphylococcus EpidermidisBHI media, LB media, MHB media, TSB mediaHS-SPME/GC×GC-TOFMSno
EukaryotaChromera Veliaseawater media L1OSSA/GC-MSno
EukaryotaMalassezia Globosamodified Dixon agarHS-SPME/GC-MSno
EukaryotaAspergillus Flavusn/an/ano
ProkaryotaSerratia Proteamaculansn/an/ano
EukaryotaTuber Mesentericumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Excavatumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Borchiin/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Aestivumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Brumalen/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Panniferumn/amicroextraction-gas chromatography-mass spectrometry analysis (SPME-GC-MS)no
EukaryotaTuber Melanosporumn/aHeadspace solid-phase microextraction (HS-SPME) combined with GC-MSno
EukaryotaTuber Uncinatumn/aSPME-GC-MSno
EukaryotaPenicillium PaneumMalt extract mediumHeadspace analysis using a Fisons Instruments autosampler HS 800 (Interscience, Breda, The Netherlands) GC/MS.no
EukaryotaPenicillium ChrysogenumPotato dextrose agar Closedloop stripping analysis and GC/TOF-MS.no
EukaryotaLaccaria BicolorMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPaxillus InvolutusMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaArmillaria MelleaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaPholiota SquarrosaMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaVerticillium LongisporumMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaStropharia RugosoannulataMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaTrichoderma VirideMelin-Nor krans synthetic medium (modified)Headspace trapping ( using stir bar sorptive extraction )/ GC-MSno
EukaryotaAspergillus Flavuspotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaAspergillus Parasiticuspotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaAspergillus Nigerpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaPenicillium Glabrumpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaRhizopus Stoloniferpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaTuber Indicumn/an/ano
ProkaryotaCollimonas PratensisHeadspace trapping/GC-MSno
EukaryotaTrichoderma VirensPotato dextrose agarHS-SPME/GC-MS no
EukaryotaTrichoderma AtroviridePotato dextrose agarHS-SPME/GC-MS no
EukaryotaTrichoderma ReeseiPotato dextrose agarHS-SPME/GC-MS no
EukaryotaGeotrichum Candidummedium 863SPME-GC-MSyes
EukaryotaAspergillus Candidusyest extract sucroseTenax/GC-MSno
EukaryotaPenicillium CorymbiferumGC-FIDyes
EukaryotaScopulariopsis BrevicaulisGC-FIDyes
EukaryotaFusarium Sp.GC-FIDyes
EukaryotaAspergillus VersicolorDG18GC/MSno
EukaryotaPhialophora FastigiataDG18GC/MSno
EukaryotaSpongiporus LeucomallellusnaGC/MSno
EukaryotaPiptoporus BetulinusnaGC/MSno
EukaryotaTrametes SuaveolensnaGC/MSno
EukaryotaPleurotus EryngiinaGC/MS, GC-O, AEDAno
EukaryotaPleurotus CystidiosusnaGC/MS, GC-O, AEDAno
EukaryotaAmpelomyces Sp.naSPME-GC/MSno
EukaryotaAspergillus SydowiinaGC/MSno
EukaryotaAspergillus VersicolornaGC/MSno
EukaryotaPenicillium Polonicummalt extract agar; potato dextrose agar; water agar; yeast extract agar; Czapek agarSPME-GC/MSno
EukaryotaAspergillus Ustusmalt extract agar; potato dextrose agar; water agar; yeast extract agar; Czapek agarSPME-GC/MSno
EukaryotaPericonia Britannicamalt extract agar; potato dextrose agar; water agar; yeast extract agar; Czapek agarSPME-GC/MSno
ProkaryotaStreptomyces CiscaucasicusGA-mediumSPME/GC-MS no
EukaryotaPenicillium ChrysogenumPotato dextrose agar Closedloop stripping analysis and GC/TOF-MS.yes
ProkaryotaCyanobacteria Sp.n/an/ano
ProkaryotaActinomycetes Sp.n/an/ano
ProkaryotaMyxococcus Xanthusn/an/ano
ProkaryotaMyxobacterium Sp.n/an/ano
EukaryotaRhizoctonia SolaniPotato Dextrose Agar8Tenax TA / TDGC-MSyes
EukaryotaAgaricus Bisporuscomkposted wheat strawGC-MS / SPMEyes
EukaryotaCryptococcus Nemorosusliquid YPD mediumGC-MSno
EukaryotaMetschnikowia Andauensisliquid YPD mediumGC-MSno
EukaryotaSaccharomyces Cerevisiaegrape juiceLC-15C HPLCno
EukaryotaPhytophthora CactorumPotato Dextrose AgarSPME/GC-MS/MSstandard
EukaryotaPhytophthora RamorumPotato Dextrose AgarSPME/GC-MS/MSstandard
Lentinula EdodesJiuqu (traditional wheat Qu)GC-IMSno
Fusarium Graminearumtryptone soy (TS medium; Carl Roth, Karlsruhe, Germany)GC-QQQ-MSno
Microbacteriumtryptone soy (TS medium; Carl Roth, Karlsruhe, Germany)GC-QQQ-MSno