Stable Isotope Analysis:A Tool for Certifying Captive or Wild caiman Leather Origin

ABSTRACT Tools to discriminate products from captive and wild sources will improve wildlife sustainability, and stable isotopes of carbon and nitrogen can be potentially useful for this. In this study, we evaluated δ15N and δ13C in Caiman latirostris skins from captive individuals (from Argentina an...

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Published in	Aquatic conservation Vol. 35; no. 3
Main Authors	Simoncini, Melina S., Marques, Thiago S., Bassetti, Luis A. B., Lara, Neliton R. F., Pierini, Sofía E., Camargo, Plinio B., Verdade, Luciano M., Piña, Carlos I.
Format	Journal Article
Language	English
Published	Oxford Wiley Subscription Services, Inc 01.03.2025
Subjects	Animals Aquatic reptiles Argentina Brazil Caiman latirostris carbon Carbon 13 carbon isotopes crocodilians fractionation freshwater Isotopes Leather nitrogen nitrogen isotopes Stable isotopes Tanning traceability Variability Wildlife Brazil Argentina
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Abstract	ABSTRACT Tools to discriminate products from captive and wild sources will improve wildlife sustainability, and stable isotopes of carbon and nitrogen can be potentially useful for this. In this study, we evaluated δ15N and δ13C in Caiman latirostris skins from captive individuals (from Argentina and Brazil), wild individuals (from Argentina), and leathers (from tanned skins) from both captive and wild individuals (from Argentina). In addition, we compared the isotopic signatures of caiman claws from both wild and captive caimans from Brazil. The main goal of this study was to evaluate the possible differences in the variability of δ15N and δ13C between skins, leathers, and claws from wild and captive animals. We found that skins, leathers and claws from the wild individuals had a larger δ15N and δ13C variability compared to samples from captive animals. In addition, tanning did not affect δ15N and δ13C variability. We can thus distinguish skins and leathers from wild and captive animals, which will be useful in governing conservation measures especially in regions where hunting is banned and/or where only farmed individuals can be traded.
AbstractList	Tools to discriminate products from captive and wild sources will improve wildlife sustainability, and stable isotopes of carbon and nitrogen can be potentially useful for this. In this study, we evaluated δ¹⁵N and δ¹³C in Caiman latirostris skins from captive individuals (from Argentina and Brazil), wild individuals (from Argentina), and leathers (from tanned skins) from both captive and wild individuals (from Argentina). In addition, we compared the isotopic signatures of caiman claws from both wild and captive caimans from Brazil. The main goal of this study was to evaluate the possible differences in the variability of δ¹⁵N and δ¹³C between skins, leathers, and claws from wild and captive animals. We found that skins, leathers and claws from the wild individuals had a larger δ¹⁵N and δ¹³C variability compared to samples from captive animals. In addition, tanning did not affect δ¹⁵N and δ¹³C variability. We can thus distinguish skins and leathers from wild and captive animals, which will be useful in governing conservation measures especially in regions where hunting is banned and/or where only farmed individuals can be traded. ABSTRACT Tools to discriminate products from captive and wild sources will improve wildlife sustainability, and stable isotopes of carbon and nitrogen can be potentially useful for this. In this study, we evaluated δ15N and δ13C in Caiman latirostris skins from captive individuals (from Argentina and Brazil), wild individuals (from Argentina), and leathers (from tanned skins) from both captive and wild individuals (from Argentina). In addition, we compared the isotopic signatures of caiman claws from both wild and captive caimans from Brazil. The main goal of this study was to evaluate the possible differences in the variability of δ15N and δ13C between skins, leathers, and claws from wild and captive animals. We found that skins, leathers and claws from the wild individuals had a larger δ15N and δ13C variability compared to samples from captive animals. In addition, tanning did not affect δ15N and δ13C variability. We can thus distinguish skins and leathers from wild and captive animals, which will be useful in governing conservation measures especially in regions where hunting is banned and/or where only farmed individuals can be traded. Tools to discriminate products from captive and wild sources will improve wildlife sustainability, and stable isotopes of carbon and nitrogen can be potentially useful for this. In this study, we evaluated δ 15 N and δ 13 C in Caiman latirostris skins from captive individuals (from Argentina and Brazil), wild individuals (from Argentina), and leathers (from tanned skins) from both captive and wild individuals (from Argentina). In addition, we compared the isotopic signatures of caiman claws from both wild and captive caimans from Brazil. The main goal of this study was to evaluate the possible differences in the variability of δ 15 N and δ 13 C between skins, leathers, and claws from wild and captive animals. We found that skins, leathers and claws from the wild individuals had a larger δ 15 N and δ 13 C variability compared to samples from captive animals. In addition, tanning did not affect δ 15 N and δ 13 C variability. We can thus distinguish skins and leathers from wild and captive animals, which will be useful in governing conservation measures especially in regions where hunting is banned and/or where only farmed individuals can be traded. Tools to discriminate products from captive and wild sources will improve wildlife sustainability, and stable isotopes of carbon and nitrogen can be potentially useful for this. In this study, we evaluated δ15N and δ13C in Caiman latirostris skins from captive individuals (from Argentina and Brazil), wild individuals (from Argentina), and leathers (from tanned skins) from both captive and wild individuals (from Argentina). In addition, we compared the isotopic signatures of caiman claws from both wild and captive caimans from Brazil. The main goal of this study was to evaluate the possible differences in the variability of δ15N and δ13C between skins, leathers, and claws from wild and captive animals. We found that skins, leathers and claws from the wild individuals had a larger δ15N and δ13C variability compared to samples from captive animals. In addition, tanning did not affect δ15N and δ13C variability. We can thus distinguish skins and leathers from wild and captive animals, which will be useful in governing conservation measures especially in regions where hunting is banned and/or where only farmed individuals can be traded.
Author	Piña, Carlos I. Simoncini, Melina S. Camargo, Plinio B. Verdade, Luciano M. Pierini, Sofía E. Lara, Neliton R. F. Marques, Thiago S. Bassetti, Luis A. B.
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Snippet	ABSTRACT Tools to discriminate products from captive and wild sources will improve wildlife sustainability, and stable isotopes of carbon and nitrogen can be... Tools to discriminate products from captive and wild sources will improve wildlife sustainability, and stable isotopes of carbon and nitrogen can be...
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SubjectTerms	Animals Aquatic reptiles Argentina Brazil Caiman latirostris carbon Carbon 13 carbon isotopes crocodilians fractionation freshwater Isotopes Leather nitrogen nitrogen isotopes Stable isotopes Tanning traceability Variability Wildlife
Title	Stable Isotope Analysis:A Tool for Certifying Captive or Wild caiman Leather Origin
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