Danovaro Roberto, Levin Lisa A, Fanelli Ginevra, Scenna Lorenzo, Corinaldesi Cinzia
Department of Life and Environmental Sciences, Polytechnic University of Marche, Ancona, Italy.
National Biodiversity Future Center, Palermo, Italy.
Nat Ecol Evol. 2024 Aug;8(8):1407-1419. doi: 10.1038/s41559-024-02407-7. Epub 2024 Jun 6.
Despite their small individual size, marine prokaryotic and eukaryotic microbes can form large 3D structures and complex habitats. These habitats contribute to seafloor heterogeneity, facilitating colonization by animals and protists. They also provide food and refuge for a variety of species and promote novel ecological interactions. Here we illustrate the role of microbes as ecosystem engineers and propose a classification based on five types of habitat: microbial mats, microbial forests, microbial-mineralized habitats, microbial outcrops and microbial nodules. We also describe the metabolic processes of microbial habitat formers and their ecological roles, highlighting current gaps in knowledge. Their biogeography indicates that these habitats are widespread in all oceans and are continuously being discovered across latitudes and depths. These habitats are also expected to expand under future global change owing to their ability to exploit extreme environmental conditions. Given their high ecological relevance and their role in supporting endemic species and high biodiversity levels, microbial habitats should be included in future spatial planning, conservation and management measures.
尽管海洋原核生物和真核微生物个体微小,但它们能够形成大型三维结构和复杂的栖息地。这些栖息地增加了海底的异质性,便于动物和原生生物定殖。它们还为各种物种提供食物和庇护所,并促进新的生态相互作用。在这里,我们阐述了微生物作为生态系统工程师的作用,并基于五种栖息地类型提出了一种分类:微生物席、微生物森林、微生物矿化栖息地、微生物露头和微生物结核。我们还描述了微生物栖息地形成者的代谢过程及其生态作用,突出了当前知识上的空白。它们的生物地理学表明,这些栖息地在所有海洋中广泛分布,并且不断在不同纬度和深度被发现。由于它们有能力利用极端环境条件,预计这些栖息地在未来全球变化下还会扩大。鉴于其高度的生态相关性以及在支持特有物种和高生物多样性水平方面的作用,微生物栖息地应纳入未来的空间规划、保护和管理措施中。
