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On the evolution of trophic position

Moosmann, Marvin ; Cuenca-Cambronero, Maria ; De Lisle, Stephen LU ; Greenway, Ryan ; Hudson, Cameron M. ; Lürig, Moritz LU and Matthews, Blake (2021) In Ecology Letters 24(12). p.2549-2562
Abstract

The trophic structure of food webs is primarily determined by the variation in trophic position among species and individuals. Temporal dynamics of food web structure are central to our understanding of energy and nutrient fluxes in changing environments, but little is known about how evolutionary processes shape trophic position variation in natural populations. We propose that trophic position, whose expression depends on both environmental and genetic determinants of the diet variation in individual consumers, is a quantitative trait that can evolve via natural selection. Such evolution can occur either when trophic position is correlated with other heritable morphological and behavioural traits under selection, or when trophic... (More)

The trophic structure of food webs is primarily determined by the variation in trophic position among species and individuals. Temporal dynamics of food web structure are central to our understanding of energy and nutrient fluxes in changing environments, but little is known about how evolutionary processes shape trophic position variation in natural populations. We propose that trophic position, whose expression depends on both environmental and genetic determinants of the diet variation in individual consumers, is a quantitative trait that can evolve via natural selection. Such evolution can occur either when trophic position is correlated with other heritable morphological and behavioural traits under selection, or when trophic position is a target of selection, which is possible if the fitness effects of prey items are heterogeneously distributed along food chains. Recognising trophic position as an evolving trait, whose expression depends on the food web context, provides an important conceptual link between behavioural foraging theory and food web dynamics, and a useful starting point for the integration of ecological and evolutionary studies of trophic position.

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author
; ; ; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
food webs, intraspecific variation, natural selection, phenotypic plasticity, trait evolution, trophic position
in
Ecology Letters
volume
24
issue
12
pages
2549 - 2562
publisher
Wiley-Blackwell
external identifiers
  • pmid:34553481
  • scopus:85115310317
ISSN
1461-023X
DOI
10.1111/ele.13888
language
English
LU publication?
yes
additional info
Funding Information: We thank the members of the department for fish ecology and evolution at Eawag for their insightful input during the development of the manuscript. We are grateful to Hanna ten Brink, Catalina Chaparro Pedraza, Rishi De‐Kayne and Gaurav Baruah for their comments and feedback to improve the manuscript. MM and MDL were supported by the Swiss National Science Foundation Grants No 31003A_175614 and P2EZP3_191804, respectively. Open access funding provided by ETH‐Bereich Forschungsanstalten. Publisher Copyright: © 2021 The Authors. Ecology Letters published by John Wiley & Sons Ltd. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
id
6d9ee889-e1ce-49a9-8d7a-7c231198f622
date added to LUP
2021-09-29 10:00:21
date last changed
2024-04-20 12:01:01
@article{6d9ee889-e1ce-49a9-8d7a-7c231198f622,
  abstract     = {{<p>The trophic structure of food webs is primarily determined by the variation in trophic position among species and individuals. Temporal dynamics of food web structure are central to our understanding of energy and nutrient fluxes in changing environments, but little is known about how evolutionary processes shape trophic position variation in natural populations. We propose that trophic position, whose expression depends on both environmental and genetic determinants of the diet variation in individual consumers, is a quantitative trait that can evolve via natural selection. Such evolution can occur either when trophic position is correlated with other heritable morphological and behavioural traits under selection, or when trophic position is a target of selection, which is possible if the fitness effects of prey items are heterogeneously distributed along food chains. Recognising trophic position as an evolving trait, whose expression depends on the food web context, provides an important conceptual link between behavioural foraging theory and food web dynamics, and a useful starting point for the integration of ecological and evolutionary studies of trophic position.</p>}},
  author       = {{Moosmann, Marvin and Cuenca-Cambronero, Maria and De Lisle, Stephen and Greenway, Ryan and Hudson, Cameron M. and Lürig, Moritz and Matthews, Blake}},
  issn         = {{1461-023X}},
  keywords     = {{food webs; intraspecific variation; natural selection; phenotypic plasticity; trait evolution; trophic position}},
  language     = {{eng}},
  number       = {{12}},
  pages        = {{2549--2562}},
  publisher    = {{Wiley-Blackwell}},
  series       = {{Ecology Letters}},
  title        = {{On the evolution of trophic position}},
  url          = {{http://dx.doi.org/10.1111/ele.13888}},
  doi          = {{10.1111/ele.13888}},
  volume       = {{24}},
  year         = {{2021}},
}