TY - JOUR
T1 - Evolutionary ecology of dispersal in biodiverse spatially structured systems
T2 - what is old and what is new?
AU - Fronhofer, Emanuel A.
AU - Bonte, Dries
AU - Bestion, Elvire
AU - Cote, Julien
AU - Deshpande, Jhelam N.
AU - Duncan, Alison B.
AU - Hovestadt, Thomas
AU - Kaltz, Oliver
AU - Keith, Sally A.
AU - Kokko, Hanna
AU - Legrand, Delphine
AU - Malusare, Sarthak P.
AU - Parmentier, Thomas
AU - Saade, Camille
AU - Schtickzelle, Nicolas
AU - Zilio, Giacomo
AU - Massol, François
N1 - Publisher Copyright:
© 2024 The Author(s).
PY - 2024/6/24
Y1 - 2024/6/24
N2 - Dispersal is a well-recognized driver of ecological and evolutionary dynamics, and simultaneously an evolving trait. Dispersal evolution has traditionally been studied in single-species metapopulations so that it remains unclear how dispersal evolves in metacommunities and metafoodwebs, which are characterized by a multitude of species interactions. Since most natural systems are both species-rich and spatially structured, this knowledge gap should be bridged. Here, we discuss whether knowledge from dispersal evolutionary ecology established in single-species systems holds in metacommunities and metafoodwebs and we highlight generally valid and fundamental principles. Most biotic interactions form the backdrop to the ecological theatre for the evolutionary dispersal play because interactions mediate patterns of fitness expectations across space and time. While this allows for a simple transposition of certain known principles to a multispecies context, other drivers may require more complex transpositions, or might not be transferred. We discuss an important quantitative modulator of dispersal evolution-increased trait dimensionality of biodiverse meta-systems-and an additional driver: co-dispersal. We speculate that scale and selection pressure mismatches owing to co-dispersal, together with increased trait dimensionality, may lead to a slower and more 'diffuse' evolution in biodiverse meta-systems. Open questions and potential consequences in both ecological and evolutionary terms call for more investigation. This article is part of the theme issue 'Diversity-dependence of dispersal: interspecific interactions determine spatial dynamics'.
AB - Dispersal is a well-recognized driver of ecological and evolutionary dynamics, and simultaneously an evolving trait. Dispersal evolution has traditionally been studied in single-species metapopulations so that it remains unclear how dispersal evolves in metacommunities and metafoodwebs, which are characterized by a multitude of species interactions. Since most natural systems are both species-rich and spatially structured, this knowledge gap should be bridged. Here, we discuss whether knowledge from dispersal evolutionary ecology established in single-species systems holds in metacommunities and metafoodwebs and we highlight generally valid and fundamental principles. Most biotic interactions form the backdrop to the ecological theatre for the evolutionary dispersal play because interactions mediate patterns of fitness expectations across space and time. While this allows for a simple transposition of certain known principles to a multispecies context, other drivers may require more complex transpositions, or might not be transferred. We discuss an important quantitative modulator of dispersal evolution-increased trait dimensionality of biodiverse meta-systems-and an additional driver: co-dispersal. We speculate that scale and selection pressure mismatches owing to co-dispersal, together with increased trait dimensionality, may lead to a slower and more 'diffuse' evolution in biodiverse meta-systems. Open questions and potential consequences in both ecological and evolutionary terms call for more investigation. This article is part of the theme issue 'Diversity-dependence of dispersal: interspecific interactions determine spatial dynamics'.
KW - food web
KW - metacommunity
KW - metapopulation
KW - migration
KW - plasticity
KW - species interactions
UR - http://www.scopus.com/inward/record.url?scp=85196997713&partnerID=8YFLogxK
U2 - 10.1098/rstb.2023.0142
DO - 10.1098/rstb.2023.0142
M3 - Review article
C2 - 38913061
AN - SCOPUS:85196997713
SN - 1471-2970
VL - 379
SP - 20230142
JO - Philosophical transactions. Biological sciences
JF - Philosophical transactions. Biological sciences
IS - 1907
M1 - 20230142
ER -