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| Last Updated::23/08/2024

Journals & Scientific Papers

Title: Impact of the grazing ban on the forest soil nutrient dynamics in the Sikkim Himalaya
KeyWords: grazing exclusion policy, grazing treatments, seasonal variation of nutrients, soil nutrient availability, regulated and rotational grazing
Year of Publication: 2024
ISSN No: ISSN 2837-4010
Author Name: Ghanashyam Sharma, Bharat K. Pradhan, Prakash Chhetri
Details:

Abstract: With more than two decades of livestock grazing prohibition in Sikkim, understanding its impact on forest ecosystem, particularly soil nutrient dynamics, is crucial. Soil nutrient analyses were conducted on samples from four study sites at two depths (0–15 cm and 15–30 cm) during rainy and winter seasons. The treatments were (1) current grazing forests (CGFs; areas where herders graze their animals), (2) old grazed forests (OGFs; grazing was prevalent before the ban on grazing), (3) ungrazed forests (UGFs; not impacted by livestock grazing), and (4) abandoned Kharkas (AKs; open-grazing pastures). Mean soil total nitrogen content in CGF (0.45%) > OGF (0.41%) > UGF (0.37%) > AK (0.34%) showed significant differences (p < 0.05). Similarly, the mean available phosphorus content in CGF (0.12%) and OGF (0.009%) was significantly (p < 0.05) higher than UGF (0.007%) and AK (0.006%). Likewise, the mean soil total phosphorus in CGF (108.21 mg 100 gm–1) > OGF (94.75 mg 100 gm–1) > UGF (89.02 mg 100 gm–1) > AK (83.24 mg 100 gm–1) revealed significant (p < 0.05) variation. Mean soil organic carbon and soil organic matter in CGF (3.86%, 6.64%) > OGF (3.76%, 6.47%) > UGF (3.56%, 6.13%) > AK (3.34%, 5.75%) and carbon:nitrogen ratio in CGF (8.61) < OGF (9.19) < UGF (9.53) < AK (9.97) showed significant differences (p < 0.05). Our results confirm that the management of controlled, regulated, and rotational grazing is beneficial for improving the forest ecosystem health in terms of soil nutrient availability.