Species’ range dynamics affect the evolution of spatial variation in plasticity under environmental change

Schmid, Max; Dallo, Ramon; Guillaume, Frédéric

doi:10.1101/344895

Cited by 2 publications

(2 citation statements)

References 82 publications

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“…In our study, the asymmetrical increase in species richness is likely underpinned by faster rates of warming occurring at high latitudes (Loarie et al, ; IPCC, ), as well as within Finland (Virkkala & Lehikoinen, ). Therefore, populations at the poleward range margin may be able to expand quickly into new geographical areas, following faster shifting local conditions (Schmid, Dallo, & Guillaume, ; Sunday et al, ). On the other hand, trailing‐edge populations at the equatorial range margin, which are likely expericencing slower local changes, may not be moving as quickly, nor may they be facing conditions beyond their thermal optima.…”

Section: Discussionmentioning

confidence: 99%

Contrasting latitudinal patterns in diversity and stability in a high‐latitude species‐rich moth community

Antão

Pöyry

Leinonen

et al. 2020

Global Ecol Biogeogr

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Aim Biodiversity is currently undergoing rapid restructuring across the globe. However, the nature of biodiversity change is not well understood, as community‐level changes may hide differential responses in individual population trajectories. Here, we quantify spatio‐temporal community and stability dynamics using a long‐term high‐quality moth monitoring dataset. Location Finland, Northern Europe. Time period 1993–2012. Major taxa studied Nocturnal moths (Lepidoptera). Methods We quantified patterns of change in species richness, total abundance, dominance and temporal variability at different organizational levels over a 20 year period and along a latitudinal gradient of 1,100 km. We used mixed‐effects and linear models to quantify temporal trends for the different community and stability metrics and to test for latitudinal (or longitudinal) effects. Results We found contrasting patterns for different community metrics, and strong latitudinal patterns. While total moth abundance has declined, species richness has simultaneously increased over the study period, but with rates accelerating with latitude. In addition, we revealed a latitudinal pattern in temporal variability—the northernmost locations exhibited higher variability over time, as quantified by both metrics of richness and aggregated species population trends. Main conclusions When combined, our findings likely reflect an influx of species expanding their ranges poleward in response to warming. The overall decline in abundance and the latitudinal effect on temporal variability highlight potentially severe consequences of global change for community structure and integrity across high‐latitude regions. Importantly, our results underscore that increases in species richness may be paralleled by a loss of individuals, which in turn might affect higher trophic levels. Our findings suggest that the ongoing global species redistribution is affecting both community structure and stability over time, leading to compounded and partly opposing effects of global change depending on which biodiversity dimension we focus on.

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Section: Discussionmentioning

confidence: 99%

Contrasting latitudinal patterns in diversity and stability in a high‐latitude species‐rich moth community

Antão

Pöyry

Leinonen

et al. 2020

Global Ecol Biogeogr

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“…Yet, plasticity is also a trait that can evolve during population adaptation to new or varying environments (Draghi & Whitlock, 2012; Gavrilets & Scheiner, 1993; Lande, 2009; Schmid, Dallo, & Guillaume, 2019; Via & Lande, 1985). The extent of plasticity can be represented as a reaction norm (Scheiner, 1993), which is the phenotypic trait value as a function of an environmental variable.…”

Section: Introductionmentioning

confidence: 99%

Restoring ancestral phenotypes is a general pattern in gene expression evolution during adaptation to new environments in Tribolium castaneum

Koch

Guillaume

2020

Molecular Ecology

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Whenever facing environmental change, populations can adapt to new phenotypic optima by plasticity and evolution. Plasticity is the ability of a single genotype to produce multiple phenotypes as a function of the environment. It is often seen as an immediate response of individuals to changes in their environment. In contrast, evolution requires a change in allele frequencies within a population. This process occurs over several generations and represents a more long-term response, which can result in local adaptation. It is still not well understood how these two processes are related and in

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Species’ range dynamics affect the evolution of spatial variation in plasticity under environmental change

Cited by 2 publications

References 82 publications

Contrasting latitudinal patterns in diversity and stability in a high‐latitude species‐rich moth community

Contrasting latitudinal patterns in diversity and stability in a high‐latitude species‐rich moth community

Restoring ancestral phenotypes is a general pattern in gene expression evolution during adaptation to new environments in Tribolium castaneum

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