2020
DOI: 10.1111/jfb.14602
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The use of muscle lipids and fatty acids to assess shark diet and condition

Abstract: Following a lack of detected change in white shark Carcharodon carcharias L. 1758 diet and nutritional condition attributed to the interaction with the cage‐diving industry, Lusseau and Derous (Tourism Management, 2019, 75, 547–549) cautioned the use of muscle lipids and fatty acids in this context, advocating for other biomarkers. This study provides additional evidence from peer‐reviewed literature to contend the usefulness of elasmobranch muscle fatty acid profiles to detail diet and habitat use. It also pr… Show more

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Cited by 8 publications
(2 citation statements)
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“…Studies exploring dietary preference and broader trophic ecology of sharks have traditionally relied on assessments of stomach contents, which requires major intervention (e.g., gastric lavage) and/or lethal dissection (Barnett et al, 2010;Cortés, 1999). The impetus to consider highly vulnerable or protected species (Heupel & Simpfendorfer, 2010), however, has prompted greater adoption of minimally invasive techniques, such as stable isotope analysis (Hussey et al, 2012), fatty acid analysis (Meyer et al, 2021), and DNA analysis of fecal material (fDNA; Poulakis et al, 2017), to characterize species' resource use. Like stomach content data, DNA sequencing (e.g., high-throughput and metabarcoding techniques) of consumer fecal samples can provide short-term insights into prey consumption on a variety of taxonomic scales (Brown et al, 2012;Poulakis et al, 2017).…”
Section: Introductionmentioning
confidence: 99%
“…Studies exploring dietary preference and broader trophic ecology of sharks have traditionally relied on assessments of stomach contents, which requires major intervention (e.g., gastric lavage) and/or lethal dissection (Barnett et al, 2010;Cortés, 1999). The impetus to consider highly vulnerable or protected species (Heupel & Simpfendorfer, 2010), however, has prompted greater adoption of minimally invasive techniques, such as stable isotope analysis (Hussey et al, 2012), fatty acid analysis (Meyer et al, 2021), and DNA analysis of fecal material (fDNA; Poulakis et al, 2017), to characterize species' resource use. Like stomach content data, DNA sequencing (e.g., high-throughput and metabarcoding techniques) of consumer fecal samples can provide short-term insights into prey consumption on a variety of taxonomic scales (Brown et al, 2012;Poulakis et al, 2017).…”
Section: Introductionmentioning
confidence: 99%
“…Anthropogenic threats to sea turtles are widely studied and clearly defined [1], but to adequately protect these endangered species, it is important to understand how natural environmental variability influences their behavior and physiology. Animal behavior and physiology are reflected in plasma metabolites, such as lipid profiles, which also contain information about an organism's diet, environment, and health [2][3][4][5][6][7][8]. Generally, lipids can be divided into structural lipids, storage lipids, and signaling lipids.…”
Section: Introductionmentioning
confidence: 99%