An Assessment of Sample Preservation Methods for the Determination of Stable Carbon and Nitrogen Isotope Ratios in Mollusks

Liu, Baozhan; Liu, Yu; Liu, Ying; Wang, Haixia; Xu, Jixiang

doi:10.1080/00032719.2013.805415

Cited by 7 publications

(15 citation statements)

References 47 publications

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“…Such δ 15 N enrichment by ethanol was previously reported in several studies of fish (Sweeting et al 2004, Kelly et al 2006) and molluscs (e.g. Syväranta et al 2011, Liu et al 2013. Because ethanol could cause tissue hydrolysis and leaching (Sarakinos et al 2002), we infer that 70% ethanol effectively extracted certain constituents containing nitrogen from the muscle tissue in addition to lipids.…”

Section: Discussionmentioning

confidence: 48%

“…Sweeting et al 2004. Kelly et al 2006, Syväranta et al 2011, Liu et al 2013. We attribute this effect to the substance extraction process, since subsequent lipid extraction treatment (ET-LE) substantially reduced this variation.…”

mentioning

confidence: 99%

“…However, we consider that the method presented in this study could also be applied to analyses of archived samples due to the following reasons; first the most significant effects of ethanol preservation on stable isotopic signatures generally occur within a short period, <1 day (e.g. Sweeting et al 2004, Liu et al 2013. Second, the additional treatment with highly-concentrated ethanol applied in this study is able to fully realise the potential of lipid extraction by ethanol, and thus is effective in offsetting the time-dependent effect of ethanol-based substance extraction.…”

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confidence: 99%

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Effects of ethanol-preservation on stable carbon and nitrogen isotopic signatures in marine predators

Horii

Takahashi

Furuya

2015

Plankton Benthos Res

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Abstract:The effect of 70% ethanol preservation (for three days) on bulk stable isotope measurements of carbon and nitrogen in marine predators (squid and fish) were examined. A total of 17 different species collected from a wide range of latitudes (15°S-65°N) in the Pacific Ocean were used in the analysis. In agreement with previous studies, ethanol preservation significantly increased δ 15 N by 0.8-1.7 relative to frozen control samples, regardless of species. Ethanol enriched δ 13 C of squid mantle tissue as well, but showed variable alterations in fish muscle compared with the control (lipids extracted by chloroform and methanol). An additional extraction treatment with 99.5% ethanol increased δ 13 C by 1.3-2.0 for squid, and by 0.3-1.3 for fish relative to the control, without a further shift of δ 15 N, and reduced the variability of δ 13 C alterations of fish muscle. After this treatment, both δ 15 N and δ 13 C of the controls could be estimated from the samples preserved in ethanol by fitting to regression lines with high correlation coefficients (r 2 >0.90). These results suggest that, with additional treatment, marine predator samples preserved in 70% ethanol are able to be used for stable isotopic analysis.

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Section: Discussionmentioning

confidence: 48%

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confidence: 99%

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confidence: 99%

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Effects of ethanol-preservation on stable carbon and nitrogen isotopic signatures in marine predators

Horii

Takahashi

Furuya

2015

Plankton Benthos Res

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“…Gathering samples from food‐web members presents some practical problems that complicate the interpretation of food‐web structure from isotopes. Drying samples immediately from a fresh state is the preferred method of sample preparation for isotopic analysis because it is free from preservative effects and specimens can be stored for extended periods of time in a dried state . However, conditions in the field often make immediate processing impossible, so sample preservation is usually required to prevent decomposition and associated isotopic fractionation of samples before they can be processed in the laboratory …”

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confidence: 99%

“…Drying samples immediately from a fresh state is the preferred method of sample preparation for isotopic analysis because it is free from preservative effects and specimens can be stored for extended periods of time in a dried state. [2,9] However, conditions in the field often make immediate processing impossible, so sample preservation is usually required to prevent decomposition and associated isotopic fractionation of samples before they can be processed in the laboratory. [10,11] Considerable research has demonstrated that chemical preservatives (e.g., alcohol) and fixatives (e.g., formalin) can shift the isotope ratios of aquatic organisms but not in a systematic way.…”

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confidence: 99%

Freezing and fractionation: effects of preservation on carbon and nitrogen stable isotope ratios of some limnetic organisms

Wolf

Johnson

Silver

et al. 2016

Rapid Comm Mass Spectrometry

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Ethanol preservation effects on stable carbon, nitrogen and hydrogen isotopes in the freshwater pearl mussel

et al. 2023

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Chemical preservatives can alter stable isotope ratios in animal tissues. The effects of preservation on δ13C and δ15N values have been investigated in a variety of species, but not on δ2H values or on the freshwater pearl mussel (FPM, Margaritifera margaritifera) tissues. We evaluated the effect of ethanol preservation (unpreserved vs preserved tissues) over 6 months on the δ13C, δ15N and δ2H values of FPM foot and gonad tissues. Ethanol preservation significantly increased δ13C values (foot 0.4 ‰; gonad 0.3 ‰), whereas it did not significantly affect δ15N values (foot 0.2 ‰; gonad − 0.1 ‰). The positive effect of ethanol preservation on δ2H values (foot 7.1 ‰; gonad 14.5 ‰) and the negative effect on C:N ratios (foot − 0.1; gonad − 0.5) depended on the tissue type, with larger effects found on the lipid-rich gonad. Overall, ethanol preservation affected δ2H values more than the δ13C, δ15N or C:N ratios of FPM tissues. After 1 month of preservation, the isotope values remained rather stable, and significant changes were only observed in δ15N values. The results imply that ethanol-preserved FPM samples can be used if potential shifts in isotopic and elemental ratios are accounted for prior running mixing models for estimating dietary proportions.

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An Assessment of Sample Preservation Methods for the Determination of Stable Carbon and Nitrogen Isotope Ratios in Mollusks

Cited by 7 publications

References 47 publications

Effects of ethanol-preservation on stable carbon and nitrogen isotopic signatures in marine predators

Effects of ethanol-preservation on stable carbon and nitrogen isotopic signatures in marine predators

Freezing and fractionation: effects of preservation on carbon and nitrogen stable isotope ratios of some limnetic organisms

Ethanol preservation effects on stable carbon, nitrogen and hydrogen isotopes in the freshwater pearl mussel

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