Browsing by Autor "Kathryn E. Barry"

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Camelid herding may homogenize Andean grassland plant communities
(2023) Ana Patricia Sandoval‐Calderon; Ana P Sandoval-Calderon; Merel B. Soons; Marijke van Kuijk; P.A. Verweij; Kathryn E. Barry; Yann Hautier
10 The current global decline in biodiversity is a matter of pressing concern, necessitating the 11 conservation of diverse ecosystems across various spatial scales. Regions such as the 12 tropical Andes face the imminent threat of biotic homogenization due to intensive 13 livestock grazing, posing a significant risk to biodiversity. This study is focused on the 14 sub-humid grasslands of northwestern Bolivia, within the the National Park Apolobamba. 15 We investigate the influence of environmental factors on plant diversity within and among 16 communities across seven distinct sites. Our research reveals that local plant diversity, 17 quantified by species richness and the inverse Simpson index, is predominantly shaped by 18 soil pH. Notably, more acidic soil is associated with diminished diversity. Furthermore, 19 our findings highlight that the dissimilarity in species composition among local 20 communities may be linked to grazing intensity. This suggests that intensified grazing may 21 have the potential to homogenize plant communities across the landscape. A concerning 22 implication is the likelihood of communities becoming dominated by acquisitive species, 23 leaving them more susceptible to the impacts of climate variability. The study underlines 24 the necessity to analyze multiple facets of diversity for a comprehensive understanding of 25 the environmental factors regulating and therefore to address potential drivers of diversity 26 loss. To mitigate these threats, managers may consider adjusting livestock quantities and 27 the spatial range used by grazers, aiming to sustain multiple aspects of plant diversity and 28 prevent homogenization and degradation of grasslands in a changing world. 29
Camelid herding may homogenize Andean grassland plant communities
(Elsevier BV, 2024) Ana Patricia Sandoval‐Calderon; Merel B. Soons; Marijke van Kuijk; P.A. Verweij; Kathryn E. Barry; Yann Hautier
• The variance in alpha plant diversity is primarily influenced by soil pH. Higher acidity in the topsoil is linked with decreased species richness and lower Inverse Simpson index. • Beta diversity, quantified by the Bary-Curtis dissimilarity index, is predominantly shaped by grazing intensity, suggesting that camelid herding may homogenize plant communities across the landscape. • Elevated grazing intensities are associated with shifts in plant community composition towards dominance by acquisitive species. This trend may render ecosystems more susceptible to the impacts of climate variability. The current global decline in biodiversity is a matter of pressing concern, necessitating the conservation of diverse ecosystems across various spatial scales. Regions such as the tropical Andes face the imminent threat of biotic homogenization due to intensive livestock grazing, posing a significant risk to biodiversity. This study is focused on the sub-humid grasslands of northwestern Bolivia, within the the National Park Apolobamba. We surveyed a total of 105 plots distributed across seven sites, representing a natural gradient of grazing intensity. Within each site, the plots were organized into five clusters to explore the impact of environmental factors on plant diversity within and among communities. Our research reveals that local plant diversity, quantified by species richness and the inverse Simpson index, is predominantly shaped by soil pH. Notably, more acidic soil is associated with diminished diversity. Furthermore, our findings highlight that the dissimilarity in species composition among local communities may be linked to grazing intensity. This suggests that intensified grazing may have the potential to homogenize plant communities across the landscape. A concerning implication is the likelihood of communities becoming dominated by acquisitive species, leaving them more susceptible to the impacts of climate variability. The study underlines the necessity to analyze multiple facets of diversity for a comprehensive understanding of the environmental factors regulating and therefore to address potential drivers of diversity loss. To mitigate these threats, managers may consider adjusting livestock quantities and the spatial range used by grazers, aiming to sustain multiple aspects of plant diversity and prevent homogenization and degradation of grasslands in a changing world.