生物多样性长叶松生态系统中的节肢动物和火灾。

IF 3 3区 农林科学 Q1 ENTOMOLOGY Annals of The Entomological Society of America Pub Date : 2021-11-24 eCollection Date: 2022-01-01 DOI:10.1093/aesa/saab037
Thomas N Sheehan, Kier D Klepzig
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引用次数: 0

摘要

长叶松 Pinus palustris Miller(松科)生态系统曾覆盖美国东南部多达 3700 万公顷的土地。由于火灾、开发和改种其他松树,这一覆盖面积已减少到不足 200 万公顷。最近对这一生态系统恢复的关注揭示了其复杂和生物多样性的本质。长叶松生态系统中的节肢动物数量之多、种类之丰富--无论是在功能上还是在分类学上--都令人难以置信。为了清楚地了解这些物种及其在长叶松林中的功能作用,我们彻底检索了文献,找到了近 500 篇参考文献。最后,我们列出了科学文献中提到的长叶松生态系统中出现的 51 477 科、1 949 属和 3 032 个节肢动物物种。我们借鉴的研究成果丰富多样,但远远不够全面。大部分工作涉及土地管理目标相关类群,如松树害虫、野生动物(红腹锦鸡、北部山鹑、地鼠龟、袋装地鼠等)的害虫和食物,以及与长叶松相关的多种植物底层的传粉者。我们探讨了频繁的火灾(对长叶松管理至关重要)在决定长叶松节肢动物群落中扮演的复杂角色,包括其对稀有和濒危物种的重要性。我们研究了与长叶松相关的节肢动物主要功能群的丰度和出现的已知模式。最后,我们确定了一些重要的知识空白,并为今后研究这个极其多样化的生态系统提供了建议。
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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Arthropods and Fire Within the Biologically Diverse Longleaf Pine Ecosystem.

The longleaf pine Pinus palustris Miller (Pinales: Pinaceae) ecosystem once covered as many as 37 million hectares across the southeastern United States. Through fire suppression, development, and conversion to other plantation pines, this coverage has dwindled to fewer than 2 million hectares. A recent focus on the restoration of this ecosystem has revealed its complex and biologically diverse nature. Arthropods of the longleaf pine ecosystem are incredibly numerous and diverse-functionally and taxonomically. To provide clarity on what is known about the species and their functional roles in longleaf pine forests, we thoroughly searched the literature and found nearly 500 references. In the end, we tabulated 51 orders 477 families, 1,949 genera, and 3,032 arthropod species as having been stated in the scientific literature to occur in longleaf pine ecosystems. The body of research we drew from is rich and varied but far from comprehensive. Most work deals with land management objective associated taxa such as pests of pine, pests of-and food for-wildlife (red-cockaded woodpecker, northern bobwhite quail, gopher tortoise, pocket gopher, etc.), and pollinators of the diverse plant understory associated with longleaf pine. We explored the complex role frequent fire (critical in longleaf pine management) plays in determining the arthropod community in longleaf pine, including its importance to rare and threatened species. We examined known patterns of abundance and occurrence of key functional groups of longleaf pine-associated arthropods. Finally, we identified some critical gaps in knowledge and provide suggestions for future research into this incredibly diverse ecosystem.

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来源期刊
CiteScore
4.90
自引率
0.00%
发文量
25
审稿时长
6-12 weeks
期刊介绍: The Annals of the Entomological Society of America exists to stimulate interdisciplinary dialogue across the entomological disciplines and to advance cooperative interaction among diverse groups of entomologists. It seeks to attract and publish cutting-edge research, reviews, collections of articles on a common topic of broad interest, and discussion of topics with national or international importance. We especially welcome articles covering developing areas of research, controversial issues or debate, and topics of importance to society. Manuscripts that are primarily reports of new species, methodology, pest management, or the biology of single species generally will be referred to other journals of the ESA. The most important criteria for acceptance are quality of work and breadth of interest to the readership.
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