弹尾虫(弹尾虫)半个世纪的耐热性研究:指标、时空趋势综述

IF 2.2 Q1 ENTOMOLOGY
Pablo Escribano-Álvarez , Luis R. Pertierra , Brezo Martínez , Steven L. Chown , Miguel Á. Olalla-Tárraga
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引用次数: 6

摘要

全球土壤表面温度的变化正在改变世界范围内无脊椎动物物种的丰度和分布范围,包括对弹跳虫等土壤微节肢动物的影响,它们对维持土壤健康和提供生态系统服务至关重要。对土壤无脊椎动物耐热极限的研究有可能提供关于人口对气候变化的反应的信息,并指导评估对生态系统结构和功能可能产生的影响。本文综述了线虫热容极限的研究现状。热容指标随着时间的推移而多样化,在进行大规模比较研究时应考虑到这一点。时间趋势表明,“临界热极限”(CTL)的估计正变得比“过冷点”(SCP)的调查更普遍,尽管后者是最广泛使用的度量。事实上,大多数关于线虫的研究(66%)都集中在耐寒性上;很少有人评估耐热性。大多数热耐受性数据来自温带和极地地区,来自热带和亚热带纬度的评估较少。虽然在低纬度地区的记录中大部分是半地生命形式,但与温带和高纬度地区的情况相比,这些地区的土壤和土壤类群在很大程度上仍未被采样,在温带和高纬度地区,采样记录显示不同生命形式之间的分布更为平衡。大多数CTL数据是在一年中最温暖的时期获得的,而SCP和“致死温度”(LT)在收集数据时显示出更多的季节变化。我们的结论是,应该更多地关注热带地区研究不足的动物地理区域,以及某些研究较少的分支,如Neanuridae,以确定热耐受性限制在气候变化下物种再分配中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Half a century of thermal tolerance studies in springtails (Collembola): A review of metrics, spatial and temporal trends

Half a century of thermal tolerance studies in springtails (Collembola): A review of metrics, spatial and temporal trends

Global changes in soil surface temperatures are altering the abundances and distribution ranges of invertebrate species worldwide, including effects on soil microarthropods such as springtails (Collembola), which are vital for maintaining soil health and providing ecosystem services. Studies of thermal tolerance limits in soil invertebrates have the potential to provide information on demographic responses to climate change and guide assessments of possible impacts on the structure and functioning of ecosystems. Here, we review the state of knowledge of thermal tolerance limits in Collembola. Thermal tolerance metrics have diversified over time, which should be taken into account when conducting large-scale comparative studies. A temporal trend shows that the estimation of ‘Critical Thermal Limits’ (CTL) is becoming more common than investigations of ‘Supercooling Point’ (SCP), despite the latter being the most widely used metric. Indeed, most studies (66%) in Collembola have focused on cold tolerance; fewer have assessed heat tolerance. The majority of thermal tolerance data are from temperate and polar regions, with fewer assessments from tropical and subtropical latitudes. While the hemiedaphic life form represents the majority of records at low latitudes, euedaphic and epedaphic groups remain largely unsampled in these regions compared to the situation in temperate and high latitude regions, where sampling records show a more balanced distribution among the different life forms. Most CTL data are obtained during the warmest period of the year, whereas SCP and ‘Lethal Temperature’ (LT) show more variation in terms of the season when the data were collected. We conclude that more attention should be given to understudied zoogeographical regions across the tropics, as well as certain less-studied clades such as the family Neanuridae, to identify the role of thermal tolerance limits in the redistribution of species under changing climates.

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来源期刊
Current Research in Insect Science
Current Research in Insect Science Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
3.20
自引率
0.00%
发文量
22
审稿时长
36 days
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