Published online April 23, 2024
https://doi.org/10.5141/jee.24.011
Journal of Ecology and Environment (2024) 48:16
Dipesh Karki1, Bijay Pandeya2 , Rachana Bhandari2 , Dikshya Basnet1 , Balkrishna Ghimire1 , Shreehari Bhattarai1 and Bharat Babu Shrestha3*
1Faculty of Forestry, Agriculture and Forestry University, Hetauda 44107, Nepal
2Boreal Terrestrial Ecosystems Laboratory (ECOTER), University of Quebec at Chicoutimi, Chicoutimi, QC G7H 2B1, Canada
3Central Departments of Botany, Tribhuvan University, Kritipur 44613, Nepal
Correspondence to:Bharat Babu Shrestha
E-mail shresthabb@gmail.com
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Background: Plant species of the alpine treeline ecotone are highly sensitive to climate change and may adjust their population dynamics, and functional traits in response to changing climate. This study examined regeneration patterns and leaf traits variations in an important treeline ecotone element Rhododendron campanulatum along the elevation gradient in western Nepal to assess its potential adaptive responses to climate change. The distribution range of R. campanulatum (3,400–3,800 m above sea level [a.s.l.]) was divided into five horizontal bands, each with a 100 m elevational range. Eight plots (10 m × 10 m) were sampled in each band, resulting into a total of 40 plots. In each plot, all R. campanulatum individuals and co-occurring tree species were counted. From each elevation, R. campanulatum leaf samples were collected to determine leaf dimensions, leaf density, specific leaf area (SLA), and stomatal density (SD).
Results: The density-diameter curve indicated that R. campanulatum was regenerating well, with enhanced regeneration at higher elevation (3,800 m a.s.l.) than at lower. Tree canopy cover appeared to be the major determinant of R. campanulatum regeneration, as indicated by a higher number of seedlings in treeless stands. With increasing elevation, the leaf length, width, SLA, and stomata length decreased but leaf thickness and SD increased.
Conclusions: Overall, a higher regeneration and lower SLA with the high SD in the leaves at the upper limit of the species distribution suggested that R. campanulatum is well adapted at its upper distribution range with the possibility of upslope range shift as temperature increases.
Keywords: climate change, leaf stomata, Nepal Himalaya, plant functional traits, specific leaf area, treeline ecotone
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