Species' Traits As Predictors of Range Shifts Under Contemporary Climate Change: A Review and Meta-analysis

Overview

Journal Glob Chang Biol

Specialties Biology
Environmental Health

Date 2017 Apr 28

PMID 28449200

Citations 55

Authors

Sarah A MacLean

Steven R Beissinger

Affiliations

Soon will be listed here.

Abstract

A growing body of literature seeks to explain variation in range shifts using species' ecological and life-history traits, with expectations that shifts should be greater in species with greater dispersal ability, reproductive potential, and ecological generalization. Despite strong theoretical support for species' traits as predictors of range shifts, empirical evidence from contemporary range shift studies remains limited in extent and consensus. We conducted the first comprehensive review of species' traits as predictors of range shifts, collecting results from 51 studies across multiple taxa encompassing over 11,000 species' responses for 54 assemblages of taxonomically related species occurring together in space. We used studies of assemblages that directly compared geographic distributions sampled in the 20th century prior to climate change with resurveys of distributions after contemporary climate change and then tested whether species traits accounted for heterogeneity in range shifts. We performed a formal meta-analysis on study-level effects of body size, fecundity, diet breadth, habitat breadth, and historic range limit as predictors of range shifts for a subset of 21 studies of 26 assemblages with sufficient data. Range shifts were consistent with predictions based on habitat breadth and historic range limit. However, body size, fecundity, and diet breadth showed no significant effect on range shifts across studies, and multiple studies reported significant relationships that contradicted predictions. Current understanding of species' traits as predictors of range shifts is limited, and standardized study is needed for traits to be valid indicators of vulnerability in assessments of climate change impacts.

Citing Articles

Identifying species traits that predict vulnerability to climate change.

Fordham D Camb Prism Extinct. 2025; 2:e21.

PMID: 40078807 PMC: 11895733. DOI: 10.1017/ext.2024.24.

Phenotypic plasticity vs. local genetic adaptation: essential oil diversity of natural immortelle ( (Roth.) G.Don) populations along eastern Adriatic coast.

Nincevic Runjic T, Pljevljakusic D, Runjic M, Grdisa M, Satovic Z Front Plant Sci. 2025; 16:1467421.

PMID: 39974731 PMC: 11836004. DOI: 10.3389/fpls.2025.1467421.

The Metapopulation Bridge to Macroevolutionary Speciation Rates: A Conceptual Framework and Empirical Test.

Januario M, Pinsky M, Rabosky D Ecol Lett. 2024; 28(1):e70021.

PMID: 39737715 PMC: 11687345. DOI: 10.1111/ele.70021.

Effect of elevated incubation temperatures on learning and brain anatomy of hatchling and juvenile lizards.

Beltran I, Vila-Pouca C, Loiseleur R, Webb J, Herculano-Houzel S, Whiting M J Comp Physiol B. 2024; 195(1):67-79.

PMID: 39648166 DOI: 10.1007/s00360-024-01595-9.

The influence of sample size and sampling design on estimating population-level intra specific trait variation (ITV) along environmental gradients.

Fluck I, Record S, Strecker A, Zarnetske P, Baiser B Ecol Evol. 2024; 14(9):e70250.

PMID: 39318526 PMC: 11420108. DOI: 10.1002/ece3.70250.