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  • Effects of acid treatment on carbon and nitrogen stable isotope ratios in ecological samples: a review and synthesis

    Author(s)
    Schlacher, Thomas A
    Connolly, Rod M
    Griffith University Author(s)
    Connolly, Rod M.
    Year published
    2014
    Metadata
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    Abstract
    1. Stable isotopes of carbon and nitrogen are mainstay tracers in diverse fields of ecology, particularly in studies of food webs. 2. Investigators are generally interested in tracing dietary C and N, and hence routinely remove non-dietary, inorganic C contained in calcified structures (e.g. shells, bones) by chemical dissolution of the carbonates. Acid treatment can, however, isotopically fractionate samples if part of the organic matter is lost or chemically modified, resulting in potentially altered d13C and d15Nvalues. 3. Here, we synthesize the effects of acid treatments on stable isotope analysis reported in the ...
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    1. Stable isotopes of carbon and nitrogen are mainstay tracers in diverse fields of ecology, particularly in studies of food webs. 2. Investigators are generally interested in tracing dietary C and N, and hence routinely remove non-dietary, inorganic C contained in calcified structures (e.g. shells, bones) by chemical dissolution of the carbonates. Acid treatment can, however, isotopically fractionate samples if part of the organic matter is lost or chemically modified, resulting in potentially altered d13C and d15Nvalues. 3. Here, we synthesize the effects of acid treatments on stable isotope analysis reported in the literature, showing that: (i) the method can change both d13C and d15N values; (ii) shifts in d13C are generally, but not always, consistent with expectations of more depleted carbon ratios after the removal of the isotopically heavier inorganic carbonates; (iii) nitrogen ratios either decrease or increase in 15N content; and (iv) the majority (74-79% of comparisons) of reported changes to d13C and d15N values attributable to acid treatment are <1%, but larger acid effects can occur. 4. Acidification is needed if mechanical removal of calcified structures is unfeasible in carbonate-rich sample matrices containing low organic C and N, but should otherwise be very carefully considered before its use as a routine pre-treatment step of biological samples in isotope ratio mass spectrometry.
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    Journal Title
    Methods in Ecology and Evolution
    Volume
    5
    DOI
    https://doi.org/10.1111/2041-210X.12183
    Subject
    Ecology
    Marine and estuarine ecology (incl. marine ichthyology)
    Evolutionary biology
    Publication URI
    http://hdl.handle.net/10072/66884
    Collection
    • Journal articles

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