Abstract
ABSTRACTA major goal of evolutionary science is to understand how biological diversity is generated and altered. Despite considerable advances, we still have limited insight into how phenotypic variation arises and is sorted by natural selection. Here we argue that an integrated view, which merges ecology, evolution and developmental biology (eco evo devo) on an equal footing, is needed to understand the multifaceted role of the environment in simultaneously determining the development of the phenotype and the nature of the selective environment, and how organisms in turn affect the environment through eco evo and eco devo feedbacks. To illustrate the usefulness of an integrated eco evo devo perspective, we connect it with the theory of resource polymorphism (i.e. the phenotypic and genetic diversification that occurs in response to variation in available resources). In so doing, we highlight fishes from recently glaciated freshwater systems as exceptionally well‐suited model systems for testing predictions of an eco evo devo framework in studies of diversification. Studies on these fishes show that intraspecific diversity can evolve rapidly, and that this process is jointly facilitated by (i) the availability of diverse environments promoting divergent natural selection; (ii) dynamic developmental processes sensitive to environmental and genetic signals; and (iii) eco evo and eco devo feedbacks influencing the selective and developmental environments of the phenotype. We highlight empirical examples and present a conceptual model for the generation of resource polymorphism – emphasizing eco evo devo, and identify current gaps in knowledge.
Highlights
Spatial and temporal variability and discreteness of niches arise from ecological and geographical features of the environments in which resource polymorphisms occur
We argue that to understand how phenotypic variation originates, evolves and feeds back on ecological processes, it is necessary to integrate the fields of evo devo and eco evo into a ‘eco evo devo’ framework where all disciplines are on an equal footing (Fig. 1)
We provide an overview of resource polymorphism theory and argue that freshwater fishes inhabiting recently de-glaciated systems are well suited to the investigation of adaptive divergence using an integrated eco evo devo approach
Summary
The term ‘eco evo devo’ was first put forward as a recognition that a more complete understanding of the evolution of biodiversity (in this case the morphology and phylogeny of plants) requires the integration of more than two approaches (Givnish, 2003). Resource polymorphism has been identified in a number of animal species (Smith & Skulason, 1996) and has featured prominently in studies of northern freshwater fishes inhabiting recently de-glaciated systems, including charrs (genus: Salvelinus), whitefish (genera: Coregonus and Prosopium), three-spined stickleback (Gasterosteus aculeatus) and Eurasian perch (Perca fluviatilis) (Fig. 2; and see reviews in Smith & Skulason, 1996; Skulason et al, 1999; Robinson & Schluter, 2000; Snorrason & Skulason, 2004; Hendry, 2009; Hendry et al, 2009) These fishes typically play a key role in their ecosystems and are well-suited model organisms for the investigation of adaptive divergence using an integrated eco evo devo approach. This combination of characteristics offers exciting opportunities to study interacting evolutionary processes in multiple highly tractable systems
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