Stable isotope analysis indicates resource partitioning and trophic niche overlap in larvae of four tuna species in the Gulf of Mexico

Laiz‐Carrión, Raúl; Gerard, Trika; Suca, Justin J.; Malca, Estrella; Uriarte, Amaya; Quintanilla, José María Suárez; Privoznik, Sarah L.; Llopiz, Joel K.; Lamkin, John T.; García, A.

doi:10.3354/meps12958

Cited by 26 publications

(34 citation statements)

References 85 publications

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“…SIR in compound level is more tightly associated with the exact biomolecules (e.g., AAs), whereas bulk SIR of whole tissue or total protein depends on inter‐molecular isotope differences and the molecular quantities. AA‐SIR values reflect more sensitive physiological responses of consumers to environmental change within local habitats as well as broader geographic scales (Cherel et al, 2019 ; Choi & Shin, 2021 ; Laiz‐Carrión et al, 2019 ; Le‐Alvarado et al, 2021 ; McMahon et al, 2016 ; Richards et al, 2020 ; Smith et al, 2020 ; Zupcic‐Moore et al, 2017 ). In fact, AA‐SIR values are controlled by environmental characteristics such as the availability of inorganic substrates, differences in the baseline levels of isotopes, and the physicochemical parameters of local habitats (Decima et al, 2017 ; Gutierrez‐Rodriguez et al, 2014 ), or some combination of the three in natural environments (Magozzi et al, 2017 , 2021 ; McMahon et al, 2013 ).…”

Section: Understanding Of Aa Isotope Ratios Variance For Ecological S...mentioning

confidence: 99%

Amino acid nitrogen and carbon isotope data: Potential and implications for ecological studies

Yun

Larsen

Choi

et al. 2022

Ecology and Evolution

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Explaining food web dynamics, stability, and functioning depend substantially on understanding of feeding relations within a community. Bulk stable isotope ratios (SIRs) in natural abundance are well‐established tools to express direct and indirect feeding relations as continuous variables across time and space. Along with bulk SIRs, the SIRs of individual amino acids (AAs) are now emerging as a promising and complementary method to characterize the flow and transformation of resources across a diversity of organisms, from microbial domains to macroscopic consumers. This significant AA‐SIR capacity is based on empirical evidence that a consumer's SIR, specific to an individual AA, reflects its diet SIR coupled with a certain degree of isotopic differences between the consumer and its diet. However, many empirical ecologists are still unfamiliar with the scope of applicability and the interpretative power of AA‐SIR. To fill these knowledge gaps, we here describe a comprehensive approach to both carbon and nitrogen AA‐SIR assessment focusing on two key topics: pattern in AA‐isotope composition across spatial and temporal scales, and a certain variability of AA‐specific isotope differences between the diet and the consumer. On this basis we review the versatile applicability of AA‐SIR to improve our understanding of physiological processes as well as food web functioning, allowing us to reconstruct dominant basal dietary sources and trace their trophic transfers at the specimen and community levels. Given the insightful and opportunities of AA‐SIR, we suggest future applications for the dual use of carbon and nitrogen AA‐SIR to study more realistic food web structures and robust consumer niches, which are often very difficult to explain in nature.

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Section: Understanding Of Aa Isotope Ratios Variance For Ecological S...mentioning

confidence: 99%

Amino acid nitrogen and carbon isotope data: Potential and implications for ecological studies

Yun

Larsen

Choi

et al. 2022

Ecology and Evolution

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“…The onset of piscivory in larval tuna is closely timed with the transition from flexion to postflexion stage (~2 weeks post hatch)(Llopiz and Hobday, 2015; Blanco et al , 2019; Uriarte et al , 2019; Laiz-Carrión et al , 2019). Individuals are tracked for three weeks, fully encompassing the period when larval ABT are obligate planktivores.…”

Section: Methodsmentioning

confidence: 99%

Trade-offs between risks of predation and starvation in larvae make the shelf break an optimal spawning location for Atlantic Bluefin tuna

Shropshire¹,

Morey

Chassignet

et al. 2020

Preprint

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Atlantic Bluefin tuna (ABT) (Thunnus thynnus) travel long distances to spawn in oligotrophic regions of the Gulf of Mexico. To estimate regional larval ABT mortality, we developed a spatially-explicit, Lagrangian, individual-based model that simulates dispersal, growth, and mortality within realistic predator and prey fields during the spawning periods from 1993 to 2012. Modelled larval ABT experience high mortality in the first week of feeding with an average mortality rate of 0.53 ± 0.26 d-1 prior to postflexion. Survival ranged from 0.12% to 0.32% suggesting that recruitment may vary by a factor of 2.7 due to early life stage mortality alone. Starvation is the dominant source of mortality driven by the early critical period; however, survival is ultimately limited by predation on older individuals. As a result, first-feeding larvae survive better in the more food-rich areas on the shelf, while larger larvae survive better in the open ocean with fewer predators, making the shelf break an optimal spawning area. Our findings support the hypothesis that ABT spawn in oligotrophic regions to minimize predation on their larvae. Ocean modeling tools presented in this study may help facilitate an ecosystem-based management approach to improve future stock assessment models by better resolving the stock-recruitment relationship.

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“…The superior 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 9 precision and accuracy of this method are particularly suitable for studies attempting to resolve fine-scale variability in N sources and TPs. Among primary or secondary consumers in marine pelagic systems, for instance, temporal and spatial variability in TP is usually on the order of AE 0.4 TP (Hannides et al 2009;Choy et al 2012Choy et al , 2015Décima et al 2013;Miyachi et al 2015;Bradley et al 2016;Laiz-Carrión et al 2019). Even small shifts in TP can be associated with significant food web disruptions and represent considerable changes in energy transfer to higher level consumers (Vander Zanden et al 1999).…”

Section: Comments and Recommendationsmentioning

confidence: 99%

Errors associated with compound‐specific δ¹⁵N analysis of amino acids in preserved fish samples purified by high‐pressure liquid chromatography

Swalethorp

Aluwihare

Thompson

et al. 2020

Limnology & Ocean Methods

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Compound-specific isotopic analysis of amino acids (CSIA-AA) is increasingly used in ecological and biogeochemical studies tracking the origin and fate of nitrogen (N). Its advantages include the potential for resolving finer-scale trophic dynamics than possible with standard bulk SIA and for reconstructing historical changes in the food webs of consumers from analyses of specimens in preserved sample archives. For the latter, assessing the effects of chemical preservatives on δ 15 N AA has been inconclusive because the conventional CSIA approach for derivatized AAs by gas chromatography-combustion-isotope ratio mass spectrometry (GC-C-IRMS) has analytical errors (0.4-1.0‰) in the range expected from chemical preservation. Here, we show improved analytical precision (0.15 AE 0.08‰) for 11 underivatized AA standards analyzed by high-pressure liquid chromatography followed by offline elemental analysis-IRMS (HPLC/EA-IRMS Q5). Using this method, we report the first highprecision tests of preservation effects on δ 15 N AA in Northern Anchovy (Engraulis mordax) kept 1.5-yr in ethanol and up to 27-yr in formaldehyde. We found minimal methodological induced fractionation for eight AAs, and preservation effects on δ 15 N were similar regardless of duration and preservative used. Although some of the AAs differed significantly from frozen control samples (average Q6 1.0 AE 0.8‰), changes in δ 15 N in the source AA phenylalanine and trophic position estimates were statistically insignificant. Our results are encouraging for resolving fine-scale natural variability using HPLC/EA-IRMS on chemically preserved specimens and for ultimately reconstructing biogeochemical records and trophic dynamics over long time scales.

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Stable isotope analysis indicates resource partitioning and trophic niche overlap in larvae of four tuna species in the Gulf of Mexico

Cited by 26 publications

References 85 publications

Amino acid nitrogen and carbon isotope data: Potential and implications for ecological studies

Amino acid nitrogen and carbon isotope data: Potential and implications for ecological studies

Trade-offs between risks of predation and starvation in larvae make the shelf break an optimal spawning location for Atlantic Bluefin tuna

Errors associated with compound‐specific δ¹⁵N analysis of amino acids in preserved fish samples purified by high‐pressure liquid chromatography

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Stable isotope analysis indicates resource partitioning and trophic niche overlap in larvae of four tuna species in the Gulf of Mexico

Cited by 26 publications

References 85 publications

Amino acid nitrogen and carbon isotope data: Potential and implications for ecological studies

Amino acid nitrogen and carbon isotope data: Potential and implications for ecological studies

Trade-offs between risks of predation and starvation in larvae make the shelf break an optimal spawning location for Atlantic Bluefin tuna

Errors associated with compound‐specific δ15N analysis of amino acids in preserved fish samples purified by high‐pressure liquid chromatography

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Errors associated with compound‐specific δ¹⁵N analysis of amino acids in preserved fish samples purified by high‐pressure liquid chromatography