Abstract
The alpine grasslands of Kashmir Himalaya act as a treasure house of floristic biodiversity. They have remained largely unstudied because of their remoteness and inaccessibility. It is imperative to have quantitative studies of these areas to allow the long-term monitoring of flora in these fragile ecosystems. During the present study, nutrient analysis and species diversity of some alpine grasslands were investigated. Electroconductivity (EC) of the soils ranged between 0.12 and 0.33 (dSm−1). With an increase in altitude and precipitation and a decrease in temperature, soil pH and available macro-nutrients (OC, N, P, K) show a considerable decrease. Sixty-six plant species belonging to twenty-nine families and fifty-one genera were reported with members predominantly from the Asteraceae, Rosaceae and Plantaginaceae families. Seven species were common to all study areas and Renyi diversity profiles showed that Kongwattan was the most diverse followed by Poshpathri and Yousmarg. The results of the Sorensen β diversity index showed a relatively lower dissimilarity index among the three studied alpine sites. In the majority of the growth forms, growth initiation was recorded in April, whereas senescence occurred in September. The highest bloom was seen in June-July. The plant species exhibited a greater variability in their phenophases under different environmental conditions and altitudinal gradients. Plants were more vigorous at lower altitudes and showed rapid response to the prevailing conditions. Stoloniferous forbs and tussock forming graminoids such as Sibbaldia cuneata, Trifolium repens, Plantago major, Trifolium pratense, Poa compressa, Poa angustifolia, and Plantago lanceolata showed a greater importance value index (IVI). The sedentary system of livestock rearing at Yousmarg resulted in the decreased density of the palatable species. This study allowed us to conclude that direct knowledge of soil nutrient composition and species diversity in alpine ecosystems can enhance conservation and ensure better management practices over a period of time.
Highlights
The Himalaya is home to one of the most diverse and unique ecosystems on the planet [1]
Himalayan alpine plant communities are ecologically significant because they govern soil stability, play an important role in ecosystem functioning, and are important in cultural, ethical, and aesthetic aspects [2]
We evaluated the relative effects of altitude, temperature, and precipitation on different phenological events with the generalized linear mixed models (GLMMs) and a Poisson error distribution using the lme4package [66]
Summary
The Himalaya is home to one of the most diverse and unique ecosystems on the planet [1]. Himalayan alpine plant communities are ecologically significant because they govern soil stability, play an important role in ecosystem functioning, and are important in cultural, ethical, and aesthetic aspects [2] These regions show low productivity due Sustainability 2022, 14, 887. Jammu and Kashmir, the western extremity of the Himalayan Mountain chain, sustain a predominantly large number of alpine grasslands [7] which spread above the timberline and below the snow-covered mountain peaks of the Zanskar and Pir Panjal mountain ranges. Such grasslands are dominated by herbaceous plant communities that grow in tussocks [8,9]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
