Evidence for the role of climate in the local extinction of a cool-water triclad

Journal of the North American Benthological Society Pub Date : 2010-10-26 DOI:10.1899/09-159.1

I. Durance, S. Ormerod

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引用次数: 73

Abstract

Abstract Climate change is expected to alter freshwater communities and accelerate extinction, but the exact processes are poorly known. Here, we appraise interannual variation between 2 sympatric planarians (Crenobia alpina and Phagocata vitta) in upland Welsh streams over 25 y during which 1 of this pair (C. alpina) disappeared. We tested 3 nonexclusive hypotheses involving: 1) long-term changes in stream chemistry, 2) interspecific competition, and 3) climatic variation or directional change to explain this apparent local extinction. Several lines of evidence revealed potential exploitation competition between C. alpina and P. vitta. Coexistence was confined to conditions with high prey abundance (recorded as the abundance of Ephemeroptera, Plecoptera, and Trichoptera) and summer temperatures <12.5°C, whereas P. vitta dominated at sites with higher temperature, greater discharge, and lower prey abundance. The loss of C. alpina in the Llyn Brianne experimental catchments coincided with the largest-ever positive amplification of the North Atlantic Oscillation (NAO) in 1989 to 1994, accompanied by increased stream temperature, increased winter discharge, 2 summer droughts, and markedly reduced prey abundance. We suggest that interspecific competition and this prolonged climatic event acted in concert to favor P. vitta over C. alpina. Since its local loss, summer stream temperatures have generally exceeded the favorable range for C. alpina and, coupled with weak dispersal ability, probably explain its continued absence. Our data are consistent with the prediction that extreme climatic events will affect small, fluctuating populations. Nevertheless, this case study demonstrates clear difficulties in identifying unequivocally the exact climatic processes causing extinction where: 1) evidence is confined to weak inference, 2) responses to complex climatic events are nonlinear, 3) interactions occur among species or between climate and ecological processes, and 4) assessments are made retrospectively following extinctions.

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气候在冷水三头虫局部灭绝中所起作用的证据

气候变化预计会改变淡水群落并加速物种灭绝，但确切的过程尚不清楚。本文对威尔士高地河流中2种同域涡虫(Crenobia alpina和Phagocata vitta)的年际变化进行了评价，其中1种(C. alpina)在25年内消失。我们测试了3个非排他的假设，包括:1)河流化学的长期变化，2)种间竞争，以及3)气候变化或方向变化来解释这种明显的局部灭绝。几条证据线揭示了高山杉和矮山杉之间潜在的开发竞争。在高猎物丰度(记录为蜉蝣目、翼翅目和毛翅目丰度)和夏季温度<12.5℃的条件下共存，而在温度较高、流量较大、猎物丰度较低的条件下，维塔纲占优势。1989 ~ 1994年，Llyn Brianne实验集水区高寒梭子鱼的减少与北大西洋涛动(NAO)最大正放大期同时发生，同时河流温度升高，冬季流量增加，夏季2次干旱，猎物丰度明显降低。我们认为，种间竞争和这种长期的气候事件共同作用，使维塔草优于高山草。由于其局部损失，夏季溪流温度通常超过了对高山木的有利范围，加上较弱的扩散能力，可能解释了其持续消失的原因。我们的数据与预测一致，即极端气候事件将影响小的、波动的种群。然而，本案例研究表明，在明确确定导致物种灭绝的确切气候过程方面存在明显困难:1)证据仅限于微弱的推断;2)对复杂气候事件的响应是非线性的;3)物种之间或气候与生态过程之间存在相互作用;4)在物种灭绝后进行回顾性评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of the North American Benthological Society 生物-海洋与淡水生物学

自引率

0.00%

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审稿时长

3 months