Effects of chemical lipid extraction and arithmetic lipid correction on stable isotope ratios of fish tissues
For accurate interpretation of fish trophodynamics from carbon stable isotope data it is necessary to extract tissue lipids. This is because lipid content varies within and among tissues in both space and time, and because lipids are 13C‐depleted relative to proteins. However, lipid extraction may a...
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| Veröffentlicht in: | Rapid communications in mass spectrometry 2006-02, Vol.20 (4), p.595-601 |
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| description | For accurate interpretation of fish trophodynamics from carbon stable isotope data it is necessary to extract tissue lipids. This is because lipid content varies within and among tissues in both space and time, and because lipids are 13C‐depleted relative to proteins. However, lipid extraction may affect δ15N, thus requiring costly and time‐consuming separation of δ13C and δ15N analyses. These problems have prompted the development of arithmetic correction techniques for δ13C, but the techniques and their underlying assumptions have not been systematically tested. This study compared the effects of lipid extraction and arithmetic correction techniques on δ13C and δ15N of European sea bass (Dicentrarchus labrax) tissues. Following Folch lipid extraction from muscle and liver, there was a mean increase in δ15N of 0.77‰, but enrichment varied with lipid content such that effects on δ15N were hard to predict. Changes in δ13C and C:N between untreated and lipid‐extracted samples reflected the quantity of lipid removed. The arithmetic correction techniques of mass balance and lipid correction were sensitive to the C:N of the lipid‐extracted tissue and to the assumed depletion of lipid δ13C relative to protein δ13C. However, the mass balance approach was appropriate for the mathematical correction of bulk tissue data in most circumstances, provided that the C:N of lipid‐extracted tissue could be determined for a small proportion of samples. Application of mass balance arithmetic correction can lead to significant time and cost savings in trophodynamic studies, because the majority of δ13C and δ15N analyses would not need to be run separately. Copyright © 2006 John Wiley & Sons, Ltd. |
| doi_str_mv | 10.1002/rcm.2347 |
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J. ; Polunin, N. V. C. ; Jennings, S.</creator><creatorcontrib>Sweeting, C. J. ; Polunin, N. V. C. ; Jennings, S.</creatorcontrib><description>For accurate interpretation of fish trophodynamics from carbon stable isotope data it is necessary to extract tissue lipids. This is because lipid content varies within and among tissues in both space and time, and because lipids are 13C‐depleted relative to proteins. However, lipid extraction may affect δ15N, thus requiring costly and time‐consuming separation of δ13C and δ15N analyses. These problems have prompted the development of arithmetic correction techniques for δ13C, but the techniques and their underlying assumptions have not been systematically tested. This study compared the effects of lipid extraction and arithmetic correction techniques on δ13C and δ15N of European sea bass (Dicentrarchus labrax) tissues. Following Folch lipid extraction from muscle and liver, there was a mean increase in δ15N of 0.77‰, but enrichment varied with lipid content such that effects on δ15N were hard to predict. Changes in δ13C and C:N between untreated and lipid‐extracted samples reflected the quantity of lipid removed. The arithmetic correction techniques of mass balance and lipid correction were sensitive to the C:N of the lipid‐extracted tissue and to the assumed depletion of lipid δ13C relative to protein δ13C. However, the mass balance approach was appropriate for the mathematical correction of bulk tissue data in most circumstances, provided that the C:N of lipid‐extracted tissue could be determined for a small proportion of samples. Application of mass balance arithmetic correction can lead to significant time and cost savings in trophodynamic studies, because the majority of δ13C and δ15N analyses would not need to be run separately. 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J.</creatorcontrib><creatorcontrib>Polunin, N. V. C.</creatorcontrib><creatorcontrib>Jennings, S.</creatorcontrib><title>Effects of chemical lipid extraction and arithmetic lipid correction on stable isotope ratios of fish tissues</title><title>Rapid communications in mass spectrometry</title><addtitle>Rapid Commun. Mass Spectrom</addtitle><description>For accurate interpretation of fish trophodynamics from carbon stable isotope data it is necessary to extract tissue lipids. This is because lipid content varies within and among tissues in both space and time, and because lipids are 13C‐depleted relative to proteins. However, lipid extraction may affect δ15N, thus requiring costly and time‐consuming separation of δ13C and δ15N analyses. These problems have prompted the development of arithmetic correction techniques for δ13C, but the techniques and their underlying assumptions have not been systematically tested. This study compared the effects of lipid extraction and arithmetic correction techniques on δ13C and δ15N of European sea bass (Dicentrarchus labrax) tissues. Following Folch lipid extraction from muscle and liver, there was a mean increase in δ15N of 0.77‰, but enrichment varied with lipid content such that effects on δ15N were hard to predict. Changes in δ13C and C:N between untreated and lipid‐extracted samples reflected the quantity of lipid removed. The arithmetic correction techniques of mass balance and lipid correction were sensitive to the C:N of the lipid‐extracted tissue and to the assumed depletion of lipid δ13C relative to protein δ13C. However, the mass balance approach was appropriate for the mathematical correction of bulk tissue data in most circumstances, provided that the C:N of lipid‐extracted tissue could be determined for a small proportion of samples. Application of mass balance arithmetic correction can lead to significant time and cost savings in trophodynamic studies, because the majority of δ13C and δ15N analyses would not need to be run separately. Copyright © 2006 John Wiley & Sons, Ltd.</description><subject>Animals</subject><subject>Carbon Isotopes</subject><subject>England</subject><subject>Fishes</subject><subject>Isotope Labeling</subject><subject>Lipids - analysis</subject><subject>Lipids - chemistry</subject><subject>Lipids - isolation & purification</subject><subject>Liver - chemistry</subject><subject>Muscle, Skeletal - chemistry</subject><subject>Nitrogen Isotopes</subject><subject>Tissue Distribution</subject><issn>0951-4198</issn><issn>1097-0231</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2006</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkV1LHDEUhoNU3NUK_oKSq9Kb0XzOTC7Lsq6CqyCL9S4kmTNs7MzONsmi_vtGd6hXRTiQi_fhOZy8CJ1Rck4JYRfB9eeMi-oATSlRVUEYp1_QlChJC0FVPUHHMT4RQqlk5AhNaCmYEpWaon7etuBSxEOL3Rp670yHO7_1DYaXFIxLfthgs2mwCT6te0jejbkbQoB9nicmYzvAPg5p2AIOJgfv1tbHNU4-xh3Er-iwNV2E0_E9QavL-Wp2VdzcLa5nP28KJ6SoCuYazm1pqRTSMWVr1TSVagltaeMsA2kl566s8z2k5NIYSq1jdQ3CGOsEP0Hf99ptGP7ktUn3PjroOrOBYRd1WZW8VFx9CjLFuCprnsEfe9CFIcYArd4G35vwqinRbxXoXIF-qyCj30bnzvbQfIDjn2eg2APPvoPX_4r0_Ww5CkfexwQv_3gTfudDeCX1r9uFrlfV8pLUD_qR_wUNg6BL</recordid><startdate>20060228</startdate><enddate>20060228</enddate><creator>Sweeting, C. 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C. ; Jennings, S.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4547-2cd33b6b1545c29b89dd79f01f1dcb2e5b533c680110635aa11bc288e4aabc43</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2006</creationdate><topic>Animals</topic><topic>Carbon Isotopes</topic><topic>England</topic><topic>Fishes</topic><topic>Isotope Labeling</topic><topic>Lipids - analysis</topic><topic>Lipids - chemistry</topic><topic>Lipids - isolation & purification</topic><topic>Liver - chemistry</topic><topic>Muscle, Skeletal - chemistry</topic><topic>Nitrogen Isotopes</topic><topic>Tissue Distribution</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Sweeting, C. J.</creatorcontrib><creatorcontrib>Polunin, N. V. C.</creatorcontrib><creatorcontrib>Jennings, S.</creatorcontrib><collection>Istex</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Engineered Materials Abstracts</collection><collection>Solid State and Superconductivity Abstracts</collection><collection>METADEX</collection><collection>Technology Research Database</collection><collection>Materials Research Database</collection><collection>Advanced Technologies Database with Aerospace</collection><collection>MEDLINE - Academic</collection><jtitle>Rapid communications in mass spectrometry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Sweeting, C. J.</au><au>Polunin, N. V. 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These problems have prompted the development of arithmetic correction techniques for δ13C, but the techniques and their underlying assumptions have not been systematically tested. This study compared the effects of lipid extraction and arithmetic correction techniques on δ13C and δ15N of European sea bass (Dicentrarchus labrax) tissues. Following Folch lipid extraction from muscle and liver, there was a mean increase in δ15N of 0.77‰, but enrichment varied with lipid content such that effects on δ15N were hard to predict. Changes in δ13C and C:N between untreated and lipid‐extracted samples reflected the quantity of lipid removed. The arithmetic correction techniques of mass balance and lipid correction were sensitive to the C:N of the lipid‐extracted tissue and to the assumed depletion of lipid δ13C relative to protein δ13C. 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| subjects | Animals Carbon Isotopes England Fishes Isotope Labeling Lipids - analysis Lipids - chemistry Lipids - isolation & purification Liver - chemistry Muscle, Skeletal - chemistry Nitrogen Isotopes Tissue Distribution |
| title | Effects of chemical lipid extraction and arithmetic lipid correction on stable isotope ratios of fish tissues |
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