Evolution of Technology Laboratory, Institute of Evolutionary Biology, CSIC-Universitat Pompeu Fabra, Barcelona, Spain.
European Centre for Living Technology, Venice, Italy.
Nat Ecol Evol. 2020 Apr;4(4):568-577. doi: 10.1038/s41559-020-1130-9. Epub 2020 Mar 9.
The long-term coevolution of hosts and pathogens in their environment forms a complex web of multi-scale interactions. Understanding how environmental heterogeneity affects the structure of host-pathogen networks is a prerequisite for predicting disease dynamics and emergence. Although nestedness is common in ecological networks, and theory suggests that nested ecosystems are less prone to dynamic instability, why nestedness varies in time and space is not fully understood. Many studies have been limited by a focus on single habitats and the absence of a link between spatial variation and structural heterogeneity such as nestedness and modularity. Here we propose a neutral model for the evolution of host-pathogen networks in multiple habitats. In contrast to previous studies, our study proposes that local modularity can coexist with global nestedness, and shows that real ecosystems are found in a continuum between nested-modular and nested networks driven by intraspecific competition. Nestedness depends on neutral mechanisms of community assembly, whereas modularity is contingent on local adaptation and competition. The structural pattern may change spatially and temporally but remains stable over evolutionary timescales. We validate our theoretical predictions with a longitudinal study of plant-virus interactions in a heterogeneous agricultural landscape.
宿主和病原体在其环境中的长期共同进化形成了一个复杂的多尺度相互作用网络。了解环境异质性如何影响宿主-病原体网络的结构是预测疾病动态和出现的前提。尽管嵌套现象在生态网络中很常见,并且理论表明嵌套生态系统不易发生动态不稳定,但嵌套现象为何随时间和空间而变化还不完全清楚。许多研究受到限于对单个栖息地的关注,以及缺乏空间变异与结构异质性(如嵌套性和模块性)之间的联系。在这里,我们提出了一个在多个栖息地中宿主-病原体网络进化的中性模型。与以前的研究不同,我们的研究表明,局部模块性可以与全局嵌套性共存,并表明由种内竞争驱动的真实生态系统存在于嵌套-模块和嵌套网络之间的连续体中。嵌套性取决于群落组装的中性机制,而模块性取决于局部适应和竞争。结构模式可能会随时间和空间发生变化,但在进化时间尺度上保持稳定。我们通过对异质农业景观中植物-病毒相互作用的纵向研究验证了我们的理论预测。
