1988
DOI: 10.1016/0146-6380(88)90096-4
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Bacterial reworking of sedimentary lipids during sample storage

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Cited by 86 publications
(29 citation statements)
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“…This approach assumes that the even-numbered long-chain nalkanes (C 20 − C 34 ) in marine sediments reflect microbial input or reworking of odd-numbered n-alkanes and thus an equal amount of odd numbered long-chain n-alkanes does not originate from terrestrial higher plant material. This approach is supported by laboratory experiments that found an alteration in hydrocarbon composition and significant input of even-numbered long-chain n-alkanes due to bacterial re-working (Grimalt et al, 1988) as well as soil studies that indicate a decrease in n-alkane odd over even predominance with soil depth due to microbial reworking (Buggle et al, 2010). Therefore, the sum of the odd-numbered C 27 to C 33 n-alkane homologues was corrected for the input of reworked n-alkanes by subtracting the sum of the even-numbered C 26 to C 34 n-alkane homologues by using: Villanueva et al, 1997) where A plant is the total amount of higher plant (non-reworked) nalkanes for each sample in ng/g and C 26 − C 34 the abundance of the individual n-alkanes in ng/g.…”
Section: Accumulation Rates Of N-alkanes and N-alkan-1-olsmentioning
confidence: 50%
“…This approach assumes that the even-numbered long-chain nalkanes (C 20 − C 34 ) in marine sediments reflect microbial input or reworking of odd-numbered n-alkanes and thus an equal amount of odd numbered long-chain n-alkanes does not originate from terrestrial higher plant material. This approach is supported by laboratory experiments that found an alteration in hydrocarbon composition and significant input of even-numbered long-chain n-alkanes due to bacterial re-working (Grimalt et al, 1988) as well as soil studies that indicate a decrease in n-alkane odd over even predominance with soil depth due to microbial reworking (Buggle et al, 2010). Therefore, the sum of the odd-numbered C 27 to C 33 n-alkane homologues was corrected for the input of reworked n-alkanes by subtracting the sum of the even-numbered C 26 to C 34 n-alkane homologues by using: Villanueva et al, 1997) where A plant is the total amount of higher plant (non-reworked) nalkanes for each sample in ng/g and C 26 − C 34 the abundance of the individual n-alkanes in ng/g.…”
Section: Accumulation Rates Of N-alkanes and N-alkan-1-olsmentioning
confidence: 50%
“…The traces of n-alkanes from C 23 to C 33 with no odd/even predominance (CPI ∼ 1) in all samples, except the most superficial one at 3 m depth, indicate fossil-or microbially derived hydrocarbons (Grimalt et al, 1988;Volkman et al, 1980). However, as UCM was not detected, the fossil component in the marine suspended particles was certainly very low.…”
Section: Sources Of Organic Matter In the Suspended Particles Of The mentioning
confidence: 92%
“…The presence of these compounds in the sediments also indicates organic matter in advanced stage of degradation. 51 The unsaturated triterpenoid diploptene, found in nearly all hopanoid-producing bacteria was present in lower proportions relative to the hopanes. Trisnorhop-17(21)-ene (17 (H),21 (H)) of recent biogenic origin, was generally observed in low proportions, except in station 16 where it appeared as dominant amongst all other identified polycyclic triterpenoids.…”
Section: Triterpanesmentioning
confidence: 99%
“…17,50,51 From this group only in stations 3 and 11 the UCM/resolved NAH (U/R) ratio > 4 unambiguously indicates petrogenic contamination.…”
Section: Unresolved Complex Mixture (Ucm)mentioning
confidence: 99%