实验性物种移除会影响传粉网络的结构。
Experimental species removals impact the architecture of pollination networks.
作者信息
Brosi Berry J, Niezgoda Kyle, Briggs Heather M
机构信息
Environmental Sciences, Emory University, Atlanta, GA 30322, USA
Rocky Mountain Biological Laboratory, Crested Butte, CO 81224, USA.
出版信息
Biol Lett. 2017 Jun;13(6). doi: 10.1098/rsbl.2017.0243.
Abstract
Mutualistic networks are key for the creation and maintenance of biodiversity, yet are threatened by global environmental change. Most simulation models assume that network structure remains static after species losses, despite theoretical and empirical reasons to expect dynamic responses. We assessed the effects of experimental single bumblebee species removals on the structure of entire flower visitation networks. We hypothesized that network structure would change following processes linking interspecific competition with dietary niche breadth. We found that single pollinator species losses impact pollination network structure: resource complementarity decreased, while resource overlap increased. Despite marginally increased connectance, fewer plant species were visited after species removals. These changes may have negative functional impacts, as complementarity is important for maintaining biodiversity-ecological functioning relationships and visitation of rare plant species is critical for maintaining diverse plant communities.
摘要
互利网络是生物多样性创造和维持的关键,但却受到全球环境变化的威胁。尽管有理论和实证依据预期会有动态响应,但大多数模拟模型都假定物种丧失后网络结构保持不变。我们评估了实验性移除单个熊蜂物种对整个访花网络结构的影响。我们假设网络结构会随着将种间竞争与饮食生态位宽度联系起来的过程而发生变化。我们发现,单个传粉者物种的丧失会影响授粉网络结构:资源互补性降低,而资源重叠增加。尽管连接度略有增加,但物种移除后被访问的植物物种减少。这些变化可能会产生负面的功能影响,因为互补性对于维持生物多样性与生态功能关系很重要,而访问珍稀植物物种对于维持多样化的植物群落至关重要。
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