Applying stable isotopes to examine food-web structure: an overview of analytical tools

Craig A. Layman; Marcio S. Araujo; Ross Boucek; Caroline M. Hammerschlag-Peyer; Elizabeth Harrison; Zachary R. Jud; Philip Matich; Adam E. Rosenblatt; Jeremy J. Vaudo; Lauren A. Yeager; David M. Post; Stuart Bearhop

doi:10.1111/j.1469-185x.2011.00208.x

Applying stable isotopes to examine food-web structure: an overview of analytical tools

Craig A. Layman
, Marcio S. Araujo
, Ross Boucek
, Caroline M. Hammerschlag-Peyer
, Elizabeth Harrison
, Zachary R. Jud
, Philip Matich
, Adam E. Rosenblatt
, Jeremy J. Vaudo
, Lauren A. Yeager
, David M. Post
, Stuart Bearhop

Research output: Contribution to journal › Article › peer-review

Abstract

Stable isotope analysis has emerged as one of the primary means for examining the structure and dynamics of food webs, and numerous analytical approaches are now commonly used in the field. Techniques range from simple, qualitative inferences based on the isotopic niche, to Bayesian mixing models that can be used to characterize food-web structure at multiple hierarchical levels. We provide a comprehensive review of these techniques, and thus a single reference source to help identify the most useful approaches to apply to a given data set. We structure the review around four general questions: (1) what is the trophic position of an organism in a food web?; (2) which resource pools support consumers?; (3) what additional information does relative position of consumers in isotopic space reveal about food-web structure?; and (4) what is the degree of trophic variability at the intrapopulation level? For each general question, we detail different approaches that have been applied, discussing the strengths and weaknesses of each. We conclude with a set of suggestions that transcend individual analytical approaches, and provide guidance for future applications in the field.

Original language	American English
Pages (from-to)	545-562
Number of pages	18
Journal	Biological Reviews
Volume	87
Issue number	3
DOIs	https://doi.org/10.1111/j.1469-185x.2011.00208.x
State	Published - Aug 1 2012
Externally published	Yes

Bibliographical note

Layman, C.A., M.S. Araujo, R. Boucek, E. Harrison, Z.R. Jud, P. Matich, C.M. Hammerschlag-Peyer, A.E. Rosenblatt, J.J. Vaudo, L.A. Yeager, D. Post, S. Bearhop. 2012. Applying Stable Isotopes to Examine Food Web Structure: An Overview of Analytical Tools. Biological Reviews 87: 542-562.

Keywords

Bayesian statistics
dietary variation
individual specialization
mixing model
predator-prey interactions
trophic structure
Mixing model
Trophic structure
Predator-prey interactions
Individual specialization
Dietary variation

Disciplines

Life Sciences
Marine Biology
Oceanography and Atmospheric Sciences and Meteorology

Access to Document

10.1111/j.1469-185x.2011.00208.x

Applying stable isotopes to examine food-web structure an overviFinal published version, 303 KBLicense: CC BY

Cite this

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title = "Applying stable isotopes to examine food-web structure: an overview of analytical tools",

abstract = " Stable isotope analysis has emerged as one of the primary means for examining the structure and dynamics of food webs, and numerous analytical approaches are now commonly used in the field. Techniques range from simple, qualitative inferences based on the isotopic niche, to Bayesian mixing models that can be used to characterize food-web structure at multiple hierarchical levels. We provide a comprehensive review of these techniques, and thus a single reference source to help identify the most useful approaches to apply to a given data set. We structure the review around four general questions: (1) what is the trophic position of an organism in a food web?; (2) which resource pools support consumers?; (3) what additional information does relative position of consumers in isotopic space reveal about food-web structure?; and (4) what is the degree of trophic variability at the intrapopulation level? For each general question, we detail different approaches that have been applied, discussing the strengths and weaknesses of each. We conclude with a set of suggestions that transcend individual analytical approaches, and provide guidance for future applications in the field.",

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note = "Layman, C.A., M.S. Araujo, R. Boucek, E. Harrison, Z.R. Jud, P. Matich, C.M. Hammerschlag-Peyer, A.E. Rosenblatt, J.J. Vaudo, L.A. Yeager, D. Post, S. Bearhop. 2012. Applying Stable Isotopes to Examine Food Web Structure: An Overview of Analytical Tools. Biological Reviews 87: 542-562.",

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AU - Harrison, Elizabeth

AU - Jud, Zachary R.

AU - Matich, Philip

AU - Rosenblatt, Adam E.

AU - Vaudo, Jeremy J.

AU - Yeager, Lauren A.

AU - Post, David M.

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N2 - Stable isotope analysis has emerged as one of the primary means for examining the structure and dynamics of food webs, and numerous analytical approaches are now commonly used in the field. Techniques range from simple, qualitative inferences based on the isotopic niche, to Bayesian mixing models that can be used to characterize food-web structure at multiple hierarchical levels. We provide a comprehensive review of these techniques, and thus a single reference source to help identify the most useful approaches to apply to a given data set. We structure the review around four general questions: (1) what is the trophic position of an organism in a food web?; (2) which resource pools support consumers?; (3) what additional information does relative position of consumers in isotopic space reveal about food-web structure?; and (4) what is the degree of trophic variability at the intrapopulation level? For each general question, we detail different approaches that have been applied, discussing the strengths and weaknesses of each. We conclude with a set of suggestions that transcend individual analytical approaches, and provide guidance for future applications in the field.

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KW - Predator-prey interactions

KW - Individual specialization

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ER -

Applying stable isotopes to examine food-web structure: an overview of analytical tools

Abstract

Bibliographical note

Keywords

Disciplines

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