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      Divergent ecological responses to typhoon disturbance revealed via landscape‐scale acoustic monitoring

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          Abstract

          Climate change is increasing the frequency, intensity, and duration of extreme weather events across the globe. Understanding the capacity for ecological communities to withstand and recover from such events is critical. Typhoons are extreme weather events that are expected to broadly homogenize ecological dynamics through structural damage to vegetation and longer‐term effects of salinization. Given their unpredictable nature, monitoring ecological responses to typhoons is challenging, particularly for mobile animals such as birds. Here, we report spatially variable ecological responses to typhoons across terrestrial landscapes. Using a high temporal resolution passive acoustic monitoring network across 24 sites on the subtropical island of Okinawa, Japan, we found that typhoons elicit divergent ecological responses among Okinawa's diverse terrestrial habitats, as indicated by increased spatial variability of biological sound production (biophony) and individual species detections. This suggests that soniferous communities are capable of a diversity of different responses to typhoons. That is, spatial insurance effects among local ecological communities provide resilience to typhoons at the landscape scale. Even though site‐level typhoon impacts on soundscapes and bird detections were not particularly strong, monitoring at scale with high temporal resolution across a broad spatial extent nevertheless enabled detection of spatial heterogeneity in typhoon responses. Further, species‐level responses mirrored those of acoustic indices, underscoring the utility of such indices for revealing insight into fundamental questions concerning disturbance and stability. Our findings demonstrate the significant potential of landscape‐scale acoustic sensor networks to capture the understudied ecological impacts of unpredictable extreme weather events.

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              Primary forests are irreplaceable for sustaining tropical biodiversity.

              Human-driven land-use changes increasingly threaten biodiversity, particularly in tropical forests where both species diversity and human pressures on natural environments are high. The rapid conversion of tropical forests for agriculture, timber production and other uses has generated vast, human-dominated landscapes with potentially dire consequences for tropical biodiversity. Today, few truly undisturbed tropical forests exist, whereas those degraded by repeated logging and fires, as well as secondary and plantation forests, are rapidly expanding. Here we provide a global assessment of the impact of disturbance and land conversion on biodiversity in tropical forests using a meta-analysis of 138 studies. We analysed 2,220 pairwise comparisons of biodiversity values in primary forests (with little or no human disturbance) and disturbed forests. We found that biodiversity values were substantially lower in degraded forests, but that this varied considerably by geographic region, taxonomic group, ecological metric and disturbance type. Even after partly accounting for confounding colonization and succession effects due to the composition of surrounding habitats, isolation and time since disturbance, we find that most forms of forest degradation have an overwhelmingly detrimental effect on tropical biodiversity. Our results clearly indicate that when it comes to maintaining tropical biodiversity, there is no substitute for primary forests.
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                Author and article information

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                Journal
                Global Change Biology
                Global Change Biology
                Wiley
                1354-1013
                1365-2486
                January 2024
                December 07 2023
                January 2024
                : 30
                : 1
                Affiliations
                [1 ] Integrative Community Ecology Unit Okinawa Institute of Science and Technology Graduate University Onna‐son Okinawa Japan
                [2 ] Zoology, School of Natural Sciences Trinity College Dublin Dublin Ireland
                [3 ] Environmental Informatics Section Okinawa Institute of Science and Technology Graduate University Onna‐son Okinawa Japan
                [4 ] Centre for Taxonomy and Morphology Leibniz Institute for the Analysis of Biodiversity Change Hamburg Germany
                [5 ] Environmental Science Section Okinawa Institute of Science and Technology Graduate University Onna‐son Okinawa Japan
                [6 ] Biodiversity & Biocomplexity Unit Okinawa Institute of Science and Technology Graduate University Onna‐son Okinawa Japan
                Article
                10.1111/gcb.17067
                10d631f1-291f-4f45-b568-e3e69578ef30
                © 2024

                http://creativecommons.org/licenses/by-nc/4.0/

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