Dietary protein content and digestibility influences discrimination of amino acid nitrogen isotope values in a terrestrial omnivorous mammal

Whiteman, John P.; Curras, Mauriel Rodriguez; Feeser, Kelli L.; Newsome, Seth D.

doi:10.1002/rcm.9073

Cited by 18 publications

(19 citation statements)

References 28 publications

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“…We define a single-source system where all food items have the same primary production origin (e.g., omnivore consuming C 3based protein and carbohydrates) and a mixed system where two or more food items differ in their primary production (e.g., omnivore consuming C 3 -based protein and C 4 -based carbohydrates). We hypothesized that, like TDF-δ 15 N (Robbins et al, 2005;Whiteman et al, 2021), TDF-δ 13 C would be primarily related to dietary protein (Farquhar et al, 1989). In marine systems, the δ 13 C values of phytoplankton (marine algae) are largely controlled by growth rates due to differences in temperature, nutrient availability, and levels of dissolved CO 2 (Graham et al, 2010), with δ 13 C values intermediate between C 3 and C 4 plants (À23.0‰ [À31.9 to À12.9], n = 1434) (Graham et al, 2010;McMahon et al, 2013).…”

Section: Conceptual Frameworkmentioning

confidence: 99%

“…We define a single‐source system where all food items have the same primary production origin (e.g., omnivore consuming C 3 ‐based protein and carbohydrates) and a mixed system where two or more food items differ in their primary production (e.g., omnivore consuming C 3 ‐based protein and C 4 ‐based carbohydrates). We hypothesized that, like TDF‐δ 15 N (Robbins et al, 2005; Whiteman et al, 2021), TDF‐δ 13 C would be primarily related to dietary protein content (Figure 2a–c) (McMahon et al, 2010) but that patterns would differ between a single‐source and mixed system because metabolic routing would lead TDF‐δ 13 C to strongly depend on the δ 13 C value of the dietary protein source relative to that of the energy source (Figure 2d,e) (Hobbie, 2017). We predicted that in a single‐source system, or a mixed system where protein has a higher δ 13 C value than the energy source, preferential routing would cause TDFs to be positive (Figure 2b–d).…”

Section: Introductionmentioning

confidence: 99%

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Reevaluating trophic discrimination factors (Δδ¹³CandΔδ¹⁵N) for diet reconstruction

Stephens

Ouimette

Hobbie

et al. 2022

Ecological Monographs

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Stable isotope analysis is increasingly being used to assess diet and trophic positions of animals. Such assessments require estimates of trophic discrimination factors (TDFs)-offset between the isotopic composition of diet and animal tissues-with imprecise applications of TDFs leading to biased conclusions in resource use. Because TDFs are unavailable for most species, ecologists often apply values from taxonomically similar species or use trophic step increases of approximately 1‰ for carbon (TDF-δ 13 C) and 3‰ for nitrogen (TDF-δ 15 N). Such practices may yield inaccuracies since TDFs vary greatly, even within a species. To better understand the factors that influence TDFs, we conducted a meta-analysis of TDF-δ 13 C and TDF-δ 15 N for mammals and quantified variation in relation to consumer type (herbivore, omnivore, carnivore) and diet source (C 3 -based, C 4 -based, marine-based, mixture). Additionally, to guide TDF choice, we used an isotopic data set of small mammal tissues and diet items to assess how predicted dietary contributions vary with TDFs estimated using (1) taxonomic relatedness, (2) consumer type and diet source, or (3) values derived from wild animals eating natural diets. Our metaanalysis revealed that metabolic routing and interactions between consumer class, dietary source, and the protein versus energy content of diets best explained variation in TDF-δ 13 C values (À1.5‰ to 7.3‰), whereas consumer class best explained variation in TDF-δ 15 N values (À0.5‰ to 7.1‰). Our test of methods to estimate TDFs indicated that ecologists should avoid relying on taxonomic relatedness when selecting TDF-δ 13 C because mixed-diet lab studies may produce misleading results for herbivores and omnivores. Additionally, field-derived estimates could help fill TDF gaps where diets within a consumer class are absent. Overall, we suggest that using standard TDF trophic step values should be abandoned, because feeding studies are often poor proxies for natural diets, particularly for herbivores and omnivores. Instead, we make recommendations on how to select TDFs, along with a range of TDF-δ 13 C and TDF-δ 15 N values depending on diet source, consumer class, and tissue type. Use of these more refined recommendations and TDF values in isotopic assessments will improve estimates of diets and trophic interactions in

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Section: Conceptual Frameworkmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Reevaluating trophic discrimination factors (Δδ¹³CandΔδ¹⁵N) for diet reconstruction

Stephens

Ouimette

Hobbie

et al. 2022

Ecological Monographs

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“…A feeding trial with mice showed that higher protein led to smaller TDF Glx – Phe , probably because proteins were used as an energy source instead of lipids (Whiteman et al. 2021 ). However, the TDF for proline to leucine spacing (TDF Pro – Lys ) did not change significantly, indicating that these two amino acids may provide a more precise estimate of trophic position when the diet quality is unknown ( figure 3 ).…”

Section: Factors Affecting Isotope Valuesmentioning

confidence: 99%

“…Threonine, which becomes 15 N depleted during trophic transfer, has been proposed as a new biomarker for protein consumption (Fuller and Petzke 2017 ), but more studies are needed to understand how δ 15 N threonine is affected by diet quality (Whiteman et al. 2021 ).…”

Section: Factors Affecting Isotope Valuesmentioning

confidence: 99%

Reconstructing Hominin Diets with Stable Isotope Analysis of Amino Acids: New Perspectives and Future Directions

et al. 2022

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Stable isotope analysis of teeth and bones is regularly applied by archeologists and paleoanthropologists seeking to reconstruct diets, ecologies, and environments of past hominin populations. Moving beyond the now prevalent study of stable isotope ratios from bulk materials, researchers are increasingly turning to stable isotope ratios of individual amino acids to obtain more detailed and robust insights into trophic level and resource use. In the present article, we provide a guide on how to best use amino acid stable isotope ratios to determine hominin dietary behaviors and ecologies, past and present. We highlight existing uncertainties of interpretation and the methodological developments required to ensure good practice. In doing so, we hope to make this promising approach more broadly accessible to researchers at a variety of career stages and from a variety of methodological and academic backgrounds who seek to delve into new depths in the study of dietary composition.

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“…Values of δ 15 N bulk have traditionally been used to estimate trophic position (DeNiro and Epstein 1981 ; Minagawa and Wada 1984 ; Peterson and Fry 1987 ; Post 2002 ), whilst δ 13 C bulk data are more useful for determining sources of carbon for an organism (Rounick and Winterbourn 1986 ; Peterson and Fry 1987 ; O’Leary et al 1992 ; Post 2002 ). With the introduction of compound-specific stable isotope analysis (CSIA) of nitrogen in amino acids, it is now possible to more accurately assess an animal’s trophic position (TP) using δ 15 N values of certain amino acids ( δ 15 N AA ) (Chikaraishi et al 2011 , 2014 ; Whiteman et al 2019 , 2021 ). This approach is based on the fractionation between the so-called ‘trophic’ and ‘source’ amino acids in metabolic processes.…”

Section: Introductionmentioning

confidence: 99%

Extreme bill dimorphism leads to different but overlapping isotopic niches and similar trophic positions in sexes of the charismatic extinct huia

et al. 2021

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The New Zealand huia (Heteralocha acutirostris) had the most extreme bill sexual dimorphism among modern birds. Given the quick extinction of the species, the cause of the dimorphism could only be hypothesised to reflect different trophic niches and reduce male/female competition. We tested that hypothesis by combining museum specimens, geometric morphometrics, and isotopic analyses. We used geometric morphometrics to describe bill shape; measured bulk (δ15Nbulk) and (δ13Cbulk) values from feather as proxies of the birds’ foraging habitat and diet; and compared compound-specific stable isotopes analyses (CSIA) of nitrogen in amino acids (δ15NAA) in male–female pairs to estimate their trophic position. Sexes had significantly different, but overlapping feather δ15Nbulk and δ13Cbulk values, but δ15NAA indicated identical trophic positions and δ15Nbulk was not related to bill shape. Trophic position was less variable among females, consistent with a specialised foraging behaviour and, thus, supporting a partial male/female foraging segregation.

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Dietary protein content and digestibility influences discrimination of amino acid nitrogen isotope values in a terrestrial omnivorous mammal

Cited by 18 publications

References 28 publications

Reevaluating trophic discrimination factors (Δδ¹³CandΔδ¹⁵N) for diet reconstruction

Reevaluating trophic discrimination factors (Δδ¹³CandΔδ¹⁵N) for diet reconstruction

Reconstructing Hominin Diets with Stable Isotope Analysis of Amino Acids: New Perspectives and Future Directions

Extreme bill dimorphism leads to different but overlapping isotopic niches and similar trophic positions in sexes of the charismatic extinct huia

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Dietary protein content and digestibility influences discrimination of amino acid nitrogen isotope values in a terrestrial omnivorous mammal

Cited by 18 publications

References 28 publications

Reevaluating trophic discrimination factors (Δδ13CandΔδ15N) for diet reconstruction

Reevaluating trophic discrimination factors (Δδ13CandΔδ15N) for diet reconstruction

Reconstructing Hominin Diets with Stable Isotope Analysis of Amino Acids: New Perspectives and Future Directions

Extreme bill dimorphism leads to different but overlapping isotopic niches and similar trophic positions in sexes of the charismatic extinct huia

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Reevaluating trophic discrimination factors (Δδ¹³CandΔδ¹⁵N) for diet reconstruction

Reevaluating trophic discrimination factors (Δδ¹³CandΔδ¹⁵N) for diet reconstruction