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The Qinghai-Tibetan Plateau (QTP) is vital for stabilizing climate in East and South Asia and its glaciers and snow meltwater nourish key continental rivers. The region’s forests are not only ecologically essential but also fragile. The practices of local herdsmen, shaped by long-standing cultural traditions, significantly affect forest dynamics. This study examines the vital role that Tibetan Buddhist monasteries play in forest conservation on the QTP. We utilize data sources including extensive field surveys and geospatial data to assess the impact of monastery and village locations on forest conditions. Spatial analysis techniques, such as Moran’s I and Ripley’s K function, reveal significant clustering of monasteries and villages, which are closely linked with forest conditions. Our findings indicate that forests near Buddhist monasteries have higher aboveground biomass and better quality compared to other areas, suggesting that their presence supports better forest conservation practices. This positive influence is attributed to the cultural significance of these sites and the environmental consciousness promoted by Buddhist cultural teachings. Additionally, this study employs analytical methods including Random Forest and Partial Least Squares Structural Equation Modeling (PLS-SEM) to explore the drivers of forest quality. Initial aboveground biomass, climatic factors, and monastery density emerge as key influences on forest quality within monastery buffer zones, indicating that cultural factors are crucial in shaping forest landscapes.
The Qinghai-Tibetan Plateau (QTP) is vital for stabilizing climate in East and South Asia and its glaciers and snow meltwater nourish key continental rivers. The region’s forests are not only ecologically essential but also fragile. The practices of local herdsmen, shaped by long-standing cultural traditions, significantly affect forest dynamics. This study examines the vital role that Tibetan Buddhist monasteries play in forest conservation on the QTP. We utilize data sources including extensive field surveys and geospatial data to assess the impact of monastery and village locations on forest conditions. Spatial analysis techniques, such as Moran’s I and Ripley’s K function, reveal significant clustering of monasteries and villages, which are closely linked with forest conditions. Our findings indicate that forests near Buddhist monasteries have higher aboveground biomass and better quality compared to other areas, suggesting that their presence supports better forest conservation practices. This positive influence is attributed to the cultural significance of these sites and the environmental consciousness promoted by Buddhist cultural teachings. Additionally, this study employs analytical methods including Random Forest and Partial Least Squares Structural Equation Modeling (PLS-SEM) to explore the drivers of forest quality. Initial aboveground biomass, climatic factors, and monastery density emerge as key influences on forest quality within monastery buffer zones, indicating that cultural factors are crucial in shaping forest landscapes.
Biological invasions pose a significant threat to sustenance of biodiversity and ecosystem services, with their incidence expected to rise due to globalization and climate change. Regional inventories of alien species are important for monitoring and managing the biological invasions, particularly in world’s mountains which till recently were immune to invasions but are increasingly becoming vulnerable to invasive species. This study presents the first comprehensive inventory and status assessment of the alien flora in Ladakh – a remote and unique biogeographic region in Indian Trans-Himalaya. Based on field data collected from 2018 to 2023, we provide taxonomic composition of alien flora in Ladakh, including information on invasion status (cultivated, naturalized and invasive), biogeographic affiliation, habitat and life-form characteristics, and pathways of introduction. In total, we recorded 104 alien plant species, accounting ∼ 5.7% to the region's flora. Of these, 24 alien species are under cultivation, while the remaining 80 are aliens growing in wild, with 52 naturalized and 28 invasive. The most species-rich families are Asteraceae (20 species), Amaranthaceae (12 species), Poaceae (7 species), Salicaceae (6 species), and Fabaceae (5 species). Most alien species in the region are native to temperate Asia (34 species), followed by Europe (30 species). The alien species primarily colonize human-dominated habitats, such as roadsides and agricultural fields. Additionally, we found that the elevational distribution of the alien species richness in the region exhibits a unimodal hump-shaped pattern, with the highest number of alien species (73 species) occurring between 2600–3000 meters. The elevational width and maximum elevation of alien species was positively correlated with the maximum elevation in their native region. In an era of rising risks of climate change and rapid land-use transformation in the Himalayan highlands, this first assessment of the alien flora of the Ladakh will foster further research, inform early eradication, and guide pro-active plant invasion management in the region, with lessons for such environments elsewhere.
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