A Review of the Engineering Role of Burrowing Animals: Implication of Chinese Pangolin as an Ecosystem Engineer

S. Sun, H. Dou, Shichao Wei, Yaxue Fang, Z. Long, Wang Jiao, An Fuyu, Xu Jinqian, T. Xue, Huangjie Qiu, Hua Yan, Guangshun Jiang
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引用次数: 4

Abstract

Ecosystem engineers are organisms that alter the distribution of resources in the environment by creating, modifying, maintaining and/or destroying the habitat. They can affect the structure and function of the whole ecosystem furthermore. Burrowing engineers are an important group in ecosystem engineers as they play a critical role in soil translocation and habitat creation in various types of environment.However, few researchers have systematically summarized and analyzed the studies of burrowing engineers. We reviewing the existing ecological studies of burrowing engineer about their interaction with habitat through five directions: (1) soil turnover; (2)changing soil physicochemical properties; (3) changing plant community structure; (4) providing limited resources for commensal animals;and/or (5) affecting animal communities. The Chinese pangolin (Manis pentadactyla) is a typical example of burrowing mammals, in part (5), we focus on the interspecific relationships among burrow commensal species of Chinese pangolin. The engineering effects vary with environmental gradient, literature indicates that burrowing engineer play a stronger role in habitat transformation in the tropical and subtropical areas.The most common experiment method is comparative measurements (include different spatial and temporal scale),manipulative experiment is relatively few. We found that most of the engineering effects had positive feedback to the local ecosystem, increased plant abundance and resilience, increased biodiversity and consequently improved ecosystem functioning. With the global background of dramatic climate change and biodiversity loss in recent decades, we recommend future studies should improving knowledge of long-term engineering effects on population scale and landscape scale, exploring ecological cascades through trophic and engineering pathways, to better understand the attribute of the burrowing behavior of engineers to restore ecosystems and habitat creation. The review is presented as an aid to systematically expound the engineering effect of burrowing animals in the ecosystem, and provided new ideas and advice for planning and implementing conservation management.
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穴居动物的工程作用综述:中国穿山甲作为生态系统工程师的启示
生态系统工程师是通过创造、修改、维持和/或破坏栖息地来改变环境中资源分布的生物。它们可以进一步影响整个生态系统的结构和功能。穴居工程师是生态系统工程师中一个重要的群体,它们在各种环境下的土壤迁移和生境创造中起着至关重要的作用。然而,很少有人系统地总结和分析挖掘工程师的研究。本文从五个方面综述了现有的挖洞工程师与生境相互作用的生态学研究:(1)土壤周转;(2)改变土壤理化性质;(3)改变植物群落结构;(4)为共生动物提供有限的资源;及/或(5)影响动物群落。中国穿山甲(Manis pentadactyla)是一种典型的穴居哺乳动物,在第(5)部分,我们重点研究了中国穿山甲穴居共生种间的种间关系。工程效应随环境梯度的变化而变化,文献表明,在热带和亚热带地区,挖洞工程师对生境改造的作用更强。最常见的实验方法是比较测量(包括不同的时空尺度),操作实验相对较少。研究发现,大多数工程效应对当地生态系统具有正反馈作用,增加了植物丰度和恢复力,增加了生物多样性,从而改善了生态系统功能。在近几十年来全球气候变化和生物多样性急剧减少的背景下,我们建议未来的研究应提高对种群尺度和景观尺度上的长期工程效应的认识,通过营养和工程途径探索生态级联,以更好地理解工程师挖洞行为对生态系统和栖息地创造的属性。本文旨在系统阐述穴居动物在生态系统中的工程效应,为规划和实施保护管理提供新的思路和建议。
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