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Title

Do stream fish track climate change? Assessing distribution shifts in recent decades

Publication Year

2013

Author(s)
  • Comte, Lise
  • Grenouillet, Gael
Source
ECOGRAPHY Volume: 36 Issue: 11 Pages: 1236-1246 Published: 2013
ISSN
0906-7590 eISSN: 1600-0587
Abstract

Understanding the ability of species to shift their distribution ranges in response to climate change is crucial for conservation biologists and resources managers. Although freshwater ecosystems include some of the most imperilled fauna worldwide, such range shifts have been poorly documented in streams and rivers and have never been compared to the current velocity of climate change. Based on national monitoring data, we examined the distributional changes of 32 stream fish species in France and quantified potential time lags in species responses, providing a unique opportunity to analyze range shifts over recent decades of warming in freshwater environments. A multi-facetted approach, based on several range measures along spatial gradients, allowed us to quantify range shifts of numerous species across the whole hydrographic network between an initial period (1980-1992) and a contemporary one (2003-2009), and to contrast them to the rates of isotherm shift in elevation and stream distance. Our results highlight systematic species shifts towards higher elevation and upstream, with mean shifts in range centre of 13.7 m decade(-1) and 0.6 km decade(-1), respectively. Fish species displayed dispersal-driven expansions along the altitudinal gradient at their upper range limit (61.5 m decade(-1)), while substantial range contractions at the lower limit (6.3 km decade(-1)) were documented for most species along the upstream-downstream gradient. Despite being consistent with the geographic variation in climate change velocities, these patterns reveal that the majority of stream fish have not shifted at a pace sufficient to track changing climate, in particular at their range centre where range shifts lag far behind expectation. Our study provides evidence that stream fish are currently responding to recent climate warming at a greater rate than many terrestrial organisms, although not as much as needed to cope with future climate modifications.

Author Keyword(s)
    KeyWord(s) Plus
    • FRESH-WATER BIODIVERSITY
    • GEOGRAPHIC RANGE SIZE
    • SPECIES DISTRIBUTION
    • POLEWARD SHIFTS
    • CHANGE IMPACTS
    • BROWN TROUT
    • CONSERVATION
    • 20TH-CENTURY
    • RESPONSES
    • BIRDS
    ESI Discipline(s)
    • Environment/Ecology
    Web of Science Category(ies)
    • Biodiversity Conservation
    • Ecology
    Adress(es)

    [Comte, Lise; Grenouillet, Gael] CNRS, UPS, ENFA, EDB UMR5174,Lab Evolut & Diversite Biol, FR-31062 Toulouse, France; [Comte, Lise; Grenouillet, Gael] Univ Toulouse, UPS, EDB UMR5174, FR-31062 Toulouse, France

    Reprint Adress

    Comte, L (reprint author), CNRS, UPS, ENFA, EDB UMR5174,Lab Evolut & Diversite Biol, 118 Route Narbonne, FR-31062 Toulouse, France.

    Country(ies)
    • France
    CNRS - Adress(es)
    • Evolution et diversité biologique (EDB), UMR5174
    Accession Number
    WOS:000326327800010
    uid:/0T7Q31KB
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