Increased importance of cool‐water fish at high latitudes emerges from individual‐level responses to warming

Author:

Smalås Aslak12ORCID,Primicerio Raul1,Kahilainen Kimmo K.3,Terentyev Petr M.4,Kashulin Nikolay A.4,Zubova Elena M.4,Amundsen Per‐Arne1

Affiliation:

1. Faculty of Bioscience, Fisheries and Economy, UiT The Arctic University of Norway Tromso Norway

2. Scandinavian Nature Surveillance (Skandinavisk Naturovervåking) Åkerblå Group AS Tromsø Norway

3. Lammi Biological Station University of Helsinki Helsinki Finland

4. Institute of the Industrial Ecology Problems of the North (INEP) KSC RAS Apatity Russia

Abstract

AbstractHigh latitude ecosystems are experiencing the most rapid warming on earth, expected to trigger a diverse array of ecological responses. Climate warming affects the ecophysiology of fish, and fish close to the cold end of their thermal distribution are expected to increase somatic growth from increased temperatures and a prolonged growth season, which in turn affects maturation schedules, reproduction, and survival, boosting population growth. Accordingly, fish species living in ecosystems close to their northern range edge should increase in relative abundance and importance, and possibly displace cold‐water adapted species. We aim to document whether and how population‐level effects of warming are mediated by individual‐level responses to increased temperatures, shift community structure, and composition in high latitude ecosystems. We studied 11 cool‐water adapted perch populations in communities dominated by cold‐water adapted species (whitefish, burbot, and charr) to investigate changes in the relative importance of the cool‐water perch during the last 30 years of rapid warming in high latitude lakes. In addition, we studied the individual‐level responses to warming to clarify the potential mechanisms underlying the population effects. Our long‐term series (1991–2020) reveal a marked increase in numerical importance of the cool‐water fish species, perch, in ten out of eleven populations, and in most fish communities perch is now dominant. Moreover, we show that climate warming affects population‐level processes via direct and indirect temperature effects on individuals. Specifically, the increase in abundance arises from increased recruitment, faster juvenile growth, and ensuing earlier maturation, all boosted by climate warming. The speed and magnitude of the response to warming in these high latitude fish communities strongly suggest that cold‐water fish will be displaced by fish adapted to warmer water. Consequently, management should focus on climate adaptation limiting future introductions and invasions of cool‐water fish and mitigating harvesting pressure on cold‐water fish.

Funder

Academy of Finland

H2020 Food

Norges Forskningsråd

Russian Science Foundation

Russian Foundation for Basic Research

Publisher

Wiley

Subject

Nature and Landscape Conservation,Ecology,Ecology, Evolution, Behavior and Systematics

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