TDFCAM: A method for estimating stable isotope trophic discrimination in wild populations

Devin L Johnson; Michael T Henderson; Alastair Franke; George J F Swan; Robbie A McDonald; David L Anderson; Travis L Booms; Cory T Williams

doi:10.1002/ece3.9709

TDF_CAM: A method for estimating stable isotope trophic discrimination in wild populations

Ecol Evol. 2023 Jan 6;13(1):e9709. doi: 10.1002/ece3.9709. eCollection 2023 Jan.

Authors

Devin L Johnson¹, Michael T Henderson², Alastair Franke³, George J F Swan⁴, Robbie A McDonald⁵, David L Anderson², Travis L Booms⁶, Cory T Williams⁷

Affiliations

¹ Department of Biology and Wildlife University of Alaska Fairbanks Fairbanks Alaska USA.
² The Peregrine Fund Boise Idaho USA.
³ Arctic Raptor Project Rankin Inlet Nunavut Canada.
⁴ Instituto de Conservación, Biodiversidad y Territorio, Facultad de Ciencias Forestales y Recursos Naturales Universidad Austral de Chile Valdivia Chile.
⁵ Environment and Sustainability Institute University of Exeter Cornwall UK.
⁶ Alaska Department of Fish and Game Fairbanks Alaska USA.
⁷ Department of Biology Colorado State University Fort Collins Colorado USA.

Abstract

Stable isotope mixing models (SIMMs) are widely used for characterizing wild animal diets. Such models rely upon using accurate trophic discrimination factors (TDFs) to account for the digestion, incorporation, and assimilation of food. Existing methods to calculate TDFs rely on controlled feeding trials that are time-consuming, often impractical for the study taxon, and may not reflect natural variability of TDFs present in wild populations.We present TDF_CAM as an alternative approach to estimating TDFs in wild populations, by using high-precision diet estimates from a secondary methodological source-in this case nest cameras-in lieu of controlled feeding trials, and provide a framework for how and when it should be applied.In this study, we evaluate the TDF_CAM approach in three datasets gathered on wild raptor nestlings (gyrfalcons Falco rusticolus; peregrine falcons Falco perigrinus; common buzzards Buteo buteo) comprising contemporaneous δ¹³C & δ¹⁵N stable isotope data and high-quality nest camera dietary data. We formulate Bayesian SIMMs (BSIMMs) incorporating TDFs from TDF_CAM and analyze their agreement with nest camera data, comparing model performance with those based on other relevant TDFs. Additionally, we perform sensitivity analyses to characterize TDF_CAM variability, and identify ecological and physiological factors contributing to that variability in wild populations.Across species and tissue types, BSIMMs incorporating a TDF_CAM outperformed any other TDF tested, producing reliable population-level estimates of diet composition. We demonstrate that applying this approach even with a relatively low sample size (n < 10 individuals) produced more accurate estimates of trophic discrimination than a controlled feeding study conducted on the same species. Between-individual variability in TDF_CAM estimates for ∆¹³C & ∆¹⁵ N increased with analytical imprecision in the source dietary data (nest cameras) but was also explained by natural variables in the study population (e.g., nestling nutritional/growth status and dietary composition).TDF_CAM is an effective method of estimating trophic discrimination in wild animal populations. Here, we use nest cameras as source dietary data, but this approach is applicable to any high-accuracy method of measuring diet, so long as diet can be monitored over an interval contemporaneous with a tissue's isotopic turnover rate.

Keywords: Bayesian mixing model; animal diet; nest camera; raptor; stable isotope; trophic discrimination factor; trophic ecology.