AI Insight
A study in Northern Borneo examined how human land-use change, particularly the proliferation of commercial swiftlet nest farms, affects the co-occurrence of six sympatric swiftlet and swallow species. Using species distribution models and joint species distribution models with citizen-science and structured survey data, researchers found that distance to nest farms was the strongest predictor of species occurrence, with land-use variables producing high niche overlap across species. The results suggest that artificial nesting structures drive community composition primarily through environmental filtering rather than through direct interspecific competition, as residual correlations indicating unexplained biotic interactions were weak.
Why it matters
The swiftlet nest farming industry is rapidly expanding across Southeast Asia, and understanding how artificial structures reshape entire aerial insectivore communities has direct implications for land-use planning, conservation policy, and the management of biodiversity in human-modified landscapes.
⚠️ Preprint – Noch nicht peer-reviewed
Dieser Artikel wurde noch nicht von unabhängigen Experten begutachtet. Die Ergebnisse sind vorläufig und sollten mit Vorsicht interpretiert werden.
Aim Human land-use change contributes to biodiversity declines, but also creates new niches that facilitate novel biotic interactions. These interactions can reshape ecological communities and ecosystem function, yet remain poorly understood. Swiftlets and swallows in Southeast Asia present a classic example: coexistence is facilitated by fine-scale diet partitioning, with population sizes historically limited by available nesting substrates. However, several species now nest on manmade structures, particularly "nest farms" built to harvest edible swiftlet nests. We evaluated whether land-use change, especially the spread of nest farms, is leading to breakdowns in niche partitioning and increased competition among six sympatric swiftlets and swallows. Location Northern Borneo Methods We calculated geographic niche overlap using species distribution models (SDMs) with different environmental predictors, hypothesizing greater overlap when land-use variables were included. We then implemented joint species distribution models (JSDMs) to partition shared environmental responses from potential biotic interactions, predicting that competition would emerge as negative residual correlations. We used sightings from citizen-science datasets and structured surveys to evaluate the influence of climate, land-use, nest farms, morphology, and foraging behavior on species occurrences. Results SDMs that included land-use variables showed high niche overlap, suggesting that human activity homogenizes niches. The optimal JSDM, based on structured survey data, identified distance to nest farms as the strongest predictor of occurrence for all species, with species showing both positive and negative responses. Morphology and behavior had small effects, and residual correlations were weak, indicating limited unexplained biotic interactions. Main conclusions Human activity, through the creation of artificial nesting sites, broadly drives co-occurrence of swallows and swiftlets across our study region. These effects appear to operate primarily through environmental filtering rather than direct competition. Our findings reveal substantial and complex impacts of land-use change and anthropogenic nest sites on the distribution and composition of aerial insectivore communities.