Resource omnivory in soil food webs and meta-ecosystem connections

IF 3 2区 环境科学与生态学 Q2 ECOLOGY
Anton M. Potapov
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引用次数: 0

Abstract

Soil food webs were long considered an ecosystem sink for primary production and a black box of reticulated interactions. Quantification of multiple and changing interactions among consumers and resources within and beyond soil food webs stands up as a major challenge. In this mini-review/opinion paper, I present development of ideas on soil food-web structure focusing on resource omnivory – a central characteristic that is linked to food-web structure and stability. There is plenty of empirical evidence for trophic differentiation among soil invertebrates along different food-web dimensions (food resources, trophic levels, microhabitats, time). This comes along with the pervasive idea of widespread omnivory in soil food webs. I argue that we need to quantitatively assess multiple-resource feeding by soil consumers and related drivers across various taxa and different ecosystem types to come closer to predictions of soil food-web structure and dynamics. At the meta-ecosystem level, cross-ecosystem omnivory (i.e. feeding across energy fluxes from different ecosystems) plays an important role in connecting soil with aboveground and aquatic food webs. Aboveground-belowground studies have been focusing on the interfaces such as the rhizosphere and litter surface. Broader cascading impacts of the energy and organismic fluxes across these interfaces within the recipient ecosystem are, however, less understood. Of particular interest here are connections of vertebrate communities to soil food webs and the central role of soil-borne insects in cross-ecosystem energy exchange. Interactions between soil and aquatic food webs span for dozens to hundreds of meters from the terrestrial-aquatic interface, transferring significant amount of energy and matter between these ecosystems. Consequent changes of the structure and functioning in the recipient ecosystem requires more attention, especially how biodiversity-ecosystem functioning relationships manifest across ecosystems. Continuously developing methods, such as compound-specific isotopic analyses, can facilitate quantification of cross-ecosystem omnivory, helping to understand effects of food-web changes across the ecosystem borders. Overall, I present soil food webs as an open and dynamic pool with multiple cross-ecosystem connections and call for quantitative studies in this direction.
土壤食物网中的资源杂食性和元生态系统联系
长期以来,土壤食物网一直被认为是初级生产的生态系统汇和网状相互作用的黑匣子。如何量化土壤食物网内外消费者与资源之间多重且不断变化的相互作用是一项重大挑战。在这篇微型综述/观点论文中,我介绍了土壤食物网结构的发展思路,重点是资源杂食性--这是食物网结构和稳定性的核心特征。有大量经验证据表明,土壤无脊椎动物在不同食物网维度(食物资源、营养级、微生境、时间)上存在营养分化。与此同时,人们普遍认为土壤食物网中普遍存在杂食现象。我认为,我们需要定量评估不同类群和不同生态系统类型中土壤消费者的多资源取食及相关驱动因素,以接近对土壤食物网结构和动态的预测。在元生态系统层面,跨生态系统杂食(即跨越不同生态系统的能量通量取食)在连接土壤与地上和水生食物网方面发挥着重要作用。地面-地下研究主要集中在根瘤菌层和枯落物表面等界面。然而,人们对这些界面上的能量和有机物通量在受体生态系统中产生的更广泛的级联影响了解较少。这里特别值得关注的是脊椎动物群落与土壤食物网的联系,以及土生昆虫在跨生态系统能量交换中的核心作用。土壤食物网与水生食物网之间的互动距离从陆地-水域交界处的几十米到几百米不等,在这些生态系统之间传递着大量的能量和物质。受体生态系统的结构和功能随之发生的变化需要得到更多关注,尤其是生物多样性-生态系统功能关系如何在不同生态系统间体现。不断发展的方法,如特定化合物同位素分析,可以促进跨生态系统杂食的量化,有助于了解食物网变化对跨生态系统边界的影响。总之,我认为土壤食物网是一个开放的、动态的、具有多种跨生态系统联系的池塘,并呼吁朝着这个方向进行定量研究。
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来源期刊
Basic and Applied Ecology
Basic and Applied Ecology 环境科学-生态学
CiteScore
6.90
自引率
5.30%
发文量
103
审稿时长
10.6 weeks
期刊介绍: Basic and Applied Ecology provides a forum in which significant advances and ideas can be rapidly communicated to a wide audience. Basic and Applied Ecology publishes original contributions, perspectives and reviews from all areas of basic and applied ecology. Ecologists from all countries are invited to publish ecological research of international interest in its pages. There is no bias with regard to taxon or geographical area.
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