Predators mitigate the destabilising effects of heatwaves on multitrophic stream communities
- PMID: 34689388
- DOI: 10.1111/gcb.15956
Predators mitigate the destabilising effects of heatwaves on multitrophic stream communities
Abstract
Amidst the global extinction crisis, climate change will expose ecosystems to more frequent and intense extreme climatic events, such as heatwaves. Yet, whether predator species loss-a prevailing characteristic of the extinction crisis-will exacerbate the ecological consequences of extreme climatic events remains largely unknown. Here, we show that the loss of predator species can interact with heatwaves to moderate the compositional stability of ecosystems. We exposed multitrophic stream communities, with and without a dominant predator species, to realistic current and future heatwaves and found that heatwaves destabilised algal communities by homogenising them in space. However, this happened only when the predator was absent. Additional heatwave impacts on multiple aspects of stream communities, including changes to the structure of algal and macroinvertebrate communities, as well as total algal biomass and its temporal variability, were not apparent during heatwaves and emerged only after the heatwaves had passed. Taken together, our results suggest that the ecological consequences of heatwaves can amplify over time as their impacts propagate through biological interaction networks, but the presence of predators can help to buffer such impacts. These findings underscore the importance of conserving trophic structure, and highlight the potential for species extinctions to amplify the effects of climate change and extreme events.
世界的な絶滅危機にある現代において、気候変動は熱波のような極端な気候イベントを頻繁に生じさせ生態系に追い打ちをかけつつある。しかし、絶滅危機の一般的な特徴といえる捕食者種の喪失によって、極端な気候イベントの生態学的影響がより悪化するのかはわかっていない。本研究では、捕食者種の喪失が熱波と組み合わさることで、生態系の群集組成の安定性を弱めることを示す。私達は、複数の栄養段階からなる河川生物群集において、優占的な捕食者種がいる場合といない場合とで、現在や将来に起こりうる熱波がどのような影響を群集組成に与えるのかを実験的に調べた。その結果、熱波は藻類群集の空間的な均一化を通して群集動態を不安定化させることを発見した。しかし、これは捕食者がいない場合にのみ生じていた。藻類と大型無脊椎動物の群集構造の変化、藻類の総バイオマスとその時間的変動性など、河川群集のいくつかの特徴に対する熱波の影響は、熱波が起こっている間は明らかではなかったが、熱波が過ぎ去った後で現れた。まとめると、我々の研究結果は、「熱波の生態学的影響は生物間相互作用ネットワークを伝搬するにつれ時間的に増幅しうるが、捕食者にはこの影響を緩和する役割があること」を示している。この成果は、栄養構造を保全することの重要性を裏付けている。種の絶滅は、気候変動や極端な気候イベントの効果を大きくしかねないのだ。.
Keywords: Horonai stream; biodiversity; climate change; ecological stability; extreme events; food web; heatwaves; spatial variability; temporal variability.
© 2021 John Wiley & Sons Ltd.
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