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Montoya,
Joseph P.
Montoya,
Joseph P.
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ItemTrophic-level interpretation based on δ¹⁵N values: implications of tissue-specific fractionation and amino acid composition(Georgia Institute of Technology, 2004-01-30) Schmidt, Katrin ; McClelland, James W. ; Mente, Eleni ; Montoya, Joseph P. ; Atkinson, Angus ; Voss, MarenStable nitrogen isotope ratios are routinely used to disentangle trophic relationships. Several authors have discussed factors in addition to diet that might contribute to variability in δ¹⁵N of consumers, but few studies have explored such factors in detail. For a better understanding of tissue-specific differences in δ¹⁵N, we examined postlarval euphausiids across a variety of seasons and regions in the Southern Ocean. The concentration and δ¹⁵N of individual amino acids were analysed to account for both the biochemical and physiological underpinnings of the observed bulk δ¹⁵N. Euphausiids showed consistent d15N differences of 1 to 2 ” between the digestive gland and abdominal segment, and between reproductively active males and females. These differences in bulk δ¹⁵N were accompanied by variations in relative proportions of amino acids (up to 5 mol %) and their δ¹⁵N (up to 11‰). Aspartic acid and glutamic acid had the strongest influence on bulk δ¹⁵N, due to their high abundance and variable δ¹⁵N values. Differences in relative proportions and/or δ¹⁵N of glycine alanine were also important for bulk δ¹⁵N values. Isotopic variations in amino acids between gender and tissues were explained by dominant internal processes such as protein synthesis or degradation for energy supply, and by differences in amino acid pool sizes. Despite the offset in bulk δ¹⁵N between females and males, several lines of evidence suggested that their trophic levels were similar. Thus, specific amino acid composition and metabolism may confound trophic level interpretations of bulk δ¹⁵N values. Micronekton are normally analyzed whole in isotopic studies, and we suggest that their analyses should be restricted to comparable tissues such as muscles.
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ItemUse of stable isotopes to investigate individual differences in diets and mercury exposures among common terns Sterna hirundo in breeding and wintering grounds(Georgia Institute of Technology, 2002-10-22) Nisbet, Ian C. T. ; Montoya, Joseph P. ; Burger, Joanna ; Hatch, Jeremy J.We measured variations in stable isotope signatures (δ¹³C and δ¹⁵N) and concentrations of mercury (Hg) in breast feathers from pairs of common terns Sterna hirundo and their chicks at a breeding site in Buzzards Bay, northwestern Atlantic Ocean. By collecting 2 sets of feathers from the same adult birds, we compared values of δ¹³C, δ¹⁵N and Hg in feathers grown in the wintering area in the South Atlantic Ocean (‘southern’ feathers) and in the breeding area (‘regrown’ feathers). Regrown feathers had lower δ¹³C, higher δ¹⁵N and higher Hg than southern feathers. Values of δ¹³C , δ¹⁵N and Hg were much more variable in adults than chicks. Within families, δ¹³C and δ¹⁵N were correlated between parents and chicks; Hg was correlated between male and female parents. Among regrown feathers, Hg was positively correlated with δ¹³C and negatively correlated with δ¹⁵N. These findings suggest that high individual exposure of common terns to Hg results from consumption of inshore prey at low trophic levels in restricted parts of Buzzards Bay and that members of pairs have similar diets in the breeding season but not in winter. They demonstrate the power of stable isotope analyses in revealing individual differences in foraging habits, diet and contaminant exposure in generalist predators.
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ItemTrophic relationships and the nitrogen isotopic composition of amino acids in plankton(Georgia Institute of Technology, 2002) McClelland, James W. ; Montoya, Joseph P.Stable nitrogen isotope ratios of whole organisms and tissues are routinely used in studies of trophic relationships and nitrogen flow through ecosystems, yet changes underlying increases in δ¹⁵ N from food source to consumer are not completely understood. In this study, the δ¹⁵ N of 16 amino acids in marine planktonic consumers and their food sources were examined using gas chromatography/combustion/isotope ratio mass spectrometry of their N-pivaloyl-i-propyl-amino acid ester derivatives. Moderate increases in bulk δ¹⁵ N with trophic position reflect an averaging of large increases in the δ¹⁵ N of some amino acids, and little or no change in others. Amino acids showing consistently large increases (e.g., glutamic acid changes by ~7‰ between food and consumer) provide greater scope for defining trophic position than the smaller isotopic changes in bulk material. In contrast, amino acids like phenylalanine show no change in δ¹⁵ N with trophic position and therefore preserve information about nitrogen sources at the base of the food web. The ability to acquire information about both trophic level and nitrogen sources at the base of the food web from single samples of consumer tissues offers a powerful new tool for elucidating pathways of N transfer through food webs.