Soil is the largest terrestrial carbon pool and has been increasingly recognized to play crucial role to mitigate global warming resulting from climate change and land use and land cover change. The carbon cycle is closely linked with nitrogen cycles and needs to be studied together for their important implications for mitigating land degradations and associated declining productivity. Within the global biodiversity hotspot ofHimalayas, which constitutes more than one third of India's carbon pool, the Eastern Himalayas in spite of having highest forest cover, protected area network coverage, biodiversity, and endemicity have been understudied for soil carbon and nitrogen dynamics. The present study was designed to assess the patterns and determinants of soil carbon stock, SOC stocks, nitrogen stocks, and carbon/nitrogen (C:N) ratio along the altitudinal gradient, forest type, and depth in Darjeeling Himalayas, India. We followed standard protocol for soil sampling and analysis. The soil carbon stocks (257.02 to 527.79MgCha(-1)), SOC stocks (152.55 to 398.88MgCha(-1)), and soil nitrogen stocks (15.10 to 32.38MgNha(-1)) increased (but C:N ratio 15.13 to 19.12 declined) along the altitudinal gradient (154 to 3170m), forest types (tropical moist deciduous forest: MWLS < East Himalayan temperate forest: NVNP < East Himalayan sub-alpine forest: SNP) and annually (year 1
1.Pondicherry Univ, Sch Life Sci, Dept Ecol & Environm Sci, Kalapet 605014, Puducherry, India 2.Govt West Bengal, Working Plan North, West Bengal Forest Dept, Darjeeling 734101, W Bengal, India
Recommended Citation:
Devi, Samjetsabam Bharati,Sherpa, Suratna Sur Shan Sher. Soil carbon and nitrogen stocks along the altitudinal gradient of the Darjeeling Himalayas, India[J]. ENVIRONMENTAL MONITORING AND ASSESSMENT,2019-01-01,191(6)