Six decades of change across all North American bird interaction networks

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This study analyzed broad, multi-decadal shifts in North American bird interaction networks using AvianMetaNetwork, drawing on 13,762 pairwise interactions among 687 species reported from the North American Breeding Bird Survey. Across six decades, network modeling quantified six types of trophic and non-trophic network layers at regional to continental scales, finding that changes in species abundance turnover since 1970 explain most observed changes in both network structure and function, with the largest effects in eastern North America. The authors report that increased human pressures over multiple decades are highly correlated with these network trends, particularly human intrusion into habitat, infrastructure, and pollution, and conclude these shifts had large implications for ecosystem functioning. The paper’s major limitation is that it relies on available bird interaction records assembled into this database, which constrains the resolution of interaction data across taxa and geography. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

Species interactions are essential for maintaining biodiversity in the face of global changes. Yet lack of interaction data has hindered progress in understanding spatiotemporal changes in ecological network structure and function. To address this shortfall, we perform network analysis on a continental-scale metanetwork of bird interactions (AvianMetaNetwork), and quantify shifts in trophic, commensalism, parasitism, competition, mobbing, and facilitation networks using 13762 interactions among 687 North American birds. Since 1970, changes in species’ abundance and human activity drove network shifts, especially in eastern North America. With this metanetwork, we uncovered more than a half century of previously undocumented shifts in the structure of each avian network at a continental scale, with large implications for the functioning of bird communities and the ecosystems that rely on them.
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Abstract Global changes are altering patterns of biodiversity on Earth and species interactions are essential for maintaining this biodiversity. Understanding how interaction networks are shifting in structure and function across time and space provides important insights about the underlying drivers of biodiversity, ultimately improving predictions across scales. Yet lack of interaction data across broad geographic areas and taxa has hindered progress. Birds are ideal taxa to address this shortfall because they are involved in numerous types of positive, negative, and neutral interactions that provide essential ecosystem functions and services. Here we leverage AvianMetaNetwork, a novel and comprehensive database of avian interactions in North America, to quantify six types of network layers using 13,762 pairwise interactions among 687 species from the North American Breeding Bird Survey. Using network modelling, we quantify six decades of bird interaction network shifts, at regional to continental scales. We find that turnover of species’ abundance since 1970 accounts for the vast majority of changes in trophic and non-trophic interaction networks, and that this turnover results in large changes in network structure and function, especially in eastern North America. Increased human pressures over multiple decades are highly correlated with these trends (especially human intrusion into habitat, infrastructure, and pollution), suggesting that humans are driving these changes. With this metanetwork, we uncovered more than a half century of previously undocumented shifts in the structure of all avian networks at a continental scale, with large implications for the functioning of bird communities and the ecosystems that rely on them. Competing Interest Statement The authors have declared no competing interest.

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last seen: 2026-05-20T01:45:00.602351+00:00