Temporal scale‐dependence of plant–pollinator networks

物种丰富度 时间尺度 生态学 传粉者 生态网络 比例(比率) 采样(信号处理) 网络结构 网络动力学 计算机科学 生物 授粉 生态系统 地理 机器学习 地图学 数学 花粉 滤波器(信号处理) 计算机视觉 离散数学
作者
Benjamin Schwarz,Diego P. Vázquez,Paul J. CaraDonna,Tiffany M. Knight,Gita Benadi,Carsten F. Dormann,Benoît Gauzens,Elena Motivans Švara,Julian Resasco,Nico Blüthgen,Laura A. Burkle,Qiang Fang,Christopher N. Kaiser‐Bunbury,Rubén Alarcón,Justin A. Bain,Natacha P. Chacoff,Shuang‐Quan Huang,Gretchen LeBuhn,Molly MacLeod,Theodora Petanidou
出处
期刊:Oikos [Wiley]
卷期号:129 (9): 1289-1302 被引量:93
标识
DOI:10.1111/oik.07303
摘要

The study of mutualistic interaction networks has led to valuable insights into ecological and evolutionary processes. However, our understanding of network structure may depend upon the temporal scale at which we sample and analyze network data. To date, we lack a comprehensive assessment of the temporal scale‐dependence of network structure across a wide range of temporal scales and geographic locations. If network structure is temporally scale‐dependent, networks constructed over different temporal scales may provide very different perspectives on the structure and composition of species interactions. Furthermore, it remains unclear how various factors – including species richness, species turnover, link rewiring and sampling effort – act in concert to shape network structure across different temporal scales. To address these issues, we used a large database of temporally‐resolved plant–pollinator networks to investigate how temporal aggregation from the scale of one day to multiple years influences network structure. In addition, we used structural equation modeling to explore the direct and indirect effects of temporal scale, species richness, species turnover, link rewiring and sampling effort on network structural properties. We find that plant–pollinator network structure is strongly temporally‐scale dependent. This general pattern arises because the temporal scale determines the degree to which temporal dynamics (i.e. phenological turnover of species and links) are included in the network, in addition to how much sampling effort is put into constructing the network. Ultimately, the temporal scale‐dependence of our plant–pollinator networks appears to be mostly driven by species richness, which increases with sampling effort, and species turnover, which increases with temporal extent. In other words, after accounting for variation in species richness, network structure is increasingly shaped by its underlying temporal dynamics. Our results suggest that considering multiple temporal scales may be necessary to fully appreciate the causes and consequences of interaction network structure.

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