Upper Thermal Tolerances of Two Native and One Invasive Crayfish in Missouri, USA

IF 0.8 Q4 MARINE & FRESHWATER BIOLOGY
Jacob T. Westhoff, Hisham A. Abdelrahman, James A. Stoeckel
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Abstract

The spread of invasive crayfish requires invaded habitats to be thermally suitable, and differences in thermal tolerances among species could provide thermal refugia for native crayfish affected by the invader. We estimated upper thermal tolerances for the invasive Faxonius hylas and native F. peruncus and F. quadruncus in Missouri, USA, using critical thermal maxima (CTmax) methodology to determine if there were ecologically exploitable differences in estimates among species and if areas within their distributional ranges exceed their thermal maximums. Estimates of CTmax did not differ among species or sexes but differed among groups acclimated to different temperatures. Additionally, crayfish size had a small, yet significant effect on CTmax estimates with smaller crayfish having lower CTmax estimates than larger crayfish. The similarity among CTmax estimates indicates that for at least upper thermal tolerance, areas thermally available to the native species will also be thermally suitable for the invader. We did not observe water temperatures in the field that exceeded CTmax estimates for any species. However, areas within the mainstem St. Francis River did have warming tolerance estimates of less than 5°C, indicating that establishment of the invader in the mainstem could be limited by water temperature.
美国密苏里州两种本地螯虾和一种外来螯虾的最高耐热能力
入侵螯虾的扩散需要入侵栖息地具有适宜的热环境,而物种间热耐受性的差异可为受入侵者影响的本地螯虾提供热庇护所。我们使用临界热最大值(CTmax)方法估算了美国密苏里州入侵的Faxonius hylas和本地的F. peruncus和F. quadruncus的热耐受上限,以确定物种之间的估算值是否存在生态学上可利用的差异,以及它们分布范围内的区域是否超过了它们的热最大值。CTmax的估计值在物种或性别之间没有差异,但在适应不同温度的群体之间存在差异。此外,小龙虾的大小对CTmax估计值的影响很小,但也很显著,小龙虾的CTmax估计值低于大龙虾。CTmax估算值之间的相似性表明,至少对于热耐受性上限而言,本地物种可利用的区域在温度上也适合入侵者。我们在野外没有观测到任何物种的水温超过 CTmax 估计值。不过,圣弗朗西斯河干流中的一些区域的耐温估计值确实低于 5°C,这表明入侵者在干流中的建立可能会受到水温的限制。
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来源期刊
Freshwater Crayfish
Freshwater Crayfish MARINE & FRESHWATER BIOLOGY-
CiteScore
2.70
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0.00%
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0
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