Dispersal limitation shapes distance‐decay patterns of European spiders at the continental scale

Martín‐Devasa, Ramiro; Jiménez‐Valverde, Alberto; Leprieur, Fabien; Baselga, Andrés; Gómez‐Rodríguez, Carola

doi:10.1111/geb.13810

Global Ecol Biogeogr

2024

DOI: 10.1111/geb.13810

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Dispersal limitation shapes distance‐decay patterns of European spiders at the continental scale

Ramiro Martín‐Devasa,

Alberto Jiménez‐Valverde,

Fabien Leprieur

et al.

Abstract: AimTo assess the relative relevance of dispersal limitation and species sorting as drivers of spatial turnover between spider faunas of European territories.LocationContinental Europe.Time periodPresent.Major taxa studiedSpiders (Order Araneae).MethodsWe analysed how distance‐decay patterns differ between northern and southern Europe (broadly, territories covered vs. not covered by ice sheets during the last glacial maximum, respectively) in 15 spider families, using standardized distances to allow a direct co… Show more

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Cited by 4 publications

References 127 publications

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Spatial pattern of woody plant species richness and composition in primary warm temperate evergreen forest in Kasugayama Hill, Japan

Watanabe,

Maesako,

Inada

2024

Sci Rep

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Plant species richness and composition are influenced by complex interactions between biotic and abiotic factors that operate on different spatial scales. Since spatial scales vary continuously in nature, it is expected that multiple factors simultaneously affect species richness and composition at an intermediate spatial scale (i.e., the mesoscale landscape level). Previous studies have shown that local topography and elevation are important factors for shaping intermediate spatial scale plant species richness; however, the relative importance of these factors has rarely been examined. Here, we used spatially explicit woody plant data to examine the factors that characterize the spatial pattern of primary evergreen forest biodiversity at the intermediate spatial scale. We found that the spatial pattern of species diversity in a predominantly warm temperate evergreen forest at the landscape level is mainly characterized by shifts in species composition along the elevation gradient. Our study also found that compositional shift along the elevational gradient was mainly caused by habitat specialization among congeneric species, suggesting that niche partitioning among closely-related species is a fundamentally important feature of the intermediate spatial scale species richness pattern. Furthermore, we found that specialization in a habitat of closely-related species can be established even within a limited environmental gradient. This suggests that biotic interactions among closely-related species may be an important factor driving habitat specialization, and biotic interactions may play an important role in shaping landscape-scale biodiversity patterns. Supplementary Information The online version contains supplementary material available at 10.1038/s41598-024-77438-y.

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Spatial pattern of woody plant species richness and composition in primary warm temperate evergreen forest in Kasugayama Hill, Japan

Watanabe,

Maesako,

Inada

2024

Sci Rep

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Dispersal, glacial refugia and temperature shape biogeographical patterns in European freshwater biodiversity

Cortés‐Guzmán,

Sinclair,

Hof

et al. 2024

Global Ecol Biogeogr

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AimTemperature is regarded as an important driver of broad‐scale biodiversity patterns. However, less is known of the role of dispersal in shaping broad‐scale species and trait distributions, particularly given that species had to disperse out of glacial refugia after the Last Glacial Maximum (LGM). Here, we used a unique dataset describing the distributions of freshwater fauna combined with trait information to evaluate biodiversity relationships to distance to glacial refugia and temperature.LocationTwenty‐five biogeographical regions across Europe.Time PeriodData from species occurrence were gathered in 1978.Major Taxa StudiedA total of 2816 freshwater invertebrate species and 230 freshwater fish species.MethodsUsing the occurrence of invertebrate and fish species in the biogeographical regions, and publicly available trait information, we analysed patterns in diversity indices (i.e. species richness, trait richness and trait redundancy), trait distribution and species and trait β‐diversity, and their relationship to distance to known glacial refugia and regional temperature.ResultsWe show that distributions of European invertebrate and fish species and traits are primarily explained by distance to refugia and its covarying effect with temperature (i.e. refugia tend to be warmer). Specifically, species and trait richness were higher in regions proximate to refugia and lower in distant regions. Additionally, communities in colder and distant regions exhibited reduced niche dimensions and slower life histories, suggesting increased vulnerability to environmental change.Main ConclusionsSpecies more distant from their refugia were characterized by higher dispersal capacities. Accordingly, since the LGM, only a subset of species was able to colonize distant regions, while many species have spatial ranges constrained by their dispersal capacity, increasing their potential for extinction under ongoing climate change. Therefore, additional conservation measures considering species' dispersal capacities are required.

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Global patterns and determinants of phylogenetic beta diversity among liverwort floras

Qian,

Wang

et al. 2024

Journal of Biogeography

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AimInvestigating phylogenetic beta diversity, and its turnover and nestedness components, can shed light on the evolutionary causes shaping the similarity (or dissimilarity) in composition between biological assemblages. Liverworts are important constituents of most terrestrial ecosystems worldwide but studies on phylogenetic beta diversity in liverworts are scarce. Here, we explore geographic patterns of phylogenetic beta diversity and its two components in liverworts across the world and evaluate the relative importance of dispersal limitation and environmental filtering processes in shaping beta diversity patterns at different spatial extents by relating phylogenetic beta diversity or phylogenetic turnover to geographic and climatic distances.LocationGlobal.TaxonLiverworts.MethodsWe conducted correlation and regression analyses to relate phylogenetic beta diversity and its two components (turnover and nestedness) to six variables representing current climate conditions and two variables representing historical (Quaternary) climate change, and to geographic and climatic distances at different spatial extents (global, continental, and regional).ResultsWe found that of the eight variables of current and historical climates considered, precipitation seasonality was the strongest determinant of phylogenetic beta diversity in liverworts. At the global extent, geographic and climatic distances explained similar amounts of the variation in phylogenetic turnover, whereas at the continental extent, climatic distance explained more variation than geographic distance in five of the seven continents, and at a regional extent (roughly a circle of 4000 km in diameter), geographic distances generally had a greater effect than climatic distance on phylogenetic turnover.Main ConclusionsWe conclude that both dispersal limitation and environmental filtering played an important role in shaping phylogenetic structure of liverwort floras, but their relative importance varies at different spatial scales and among geographic regions.

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Dispersal limitation shapes distance‐decay patterns of European spiders at the continental scale

Cited by 4 publications

References 127 publications

Spatial pattern of woody plant species richness and composition in primary warm temperate evergreen forest in Kasugayama Hill, Japan

Spatial pattern of woody plant species richness and composition in primary warm temperate evergreen forest in Kasugayama Hill, Japan

Dispersal, glacial refugia and temperature shape biogeographical patterns in European freshwater biodiversity

Global patterns and determinants of phylogenetic beta diversity among liverwort floras

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