Publication: Impact of land use changes on soil quality and species diversity in the Vindhyan dry tropical region of India
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Date
2020
Journal Title
Journal of Tropical Ecology
Journal ISSN
Volume Title
Publisher
Cambridge University Press
Abstract
Conversion of forest land into different land use types is the primary cause of degradation of land resources, which in turn alters nutrient and carbon cycles, land productivity and diversity of species. There is scarcity of information about land-use changes (LUC) and their effect on relationship of soil quality and species diversity at landscape level in the Vindhyan dry tropical region. We evaluated the impact of land-use changes on soil physicochemical quality and the influence of these qualities on species diversity and organic matter accumulation. We also established the relationship between soil quality indicators and species diversity parameters. To examine impact of LUC, we did a detailed field survey and analysed selected soil quality indicators by standard methods. We examined species diversity parameters and established the relationship between soil quality and species diversity. We found that there is a marked decline in soil porosity, water-holding capacity and soil moisture due to LUC. Conversion from forest land (FL) to savanna land (SL) resulted in soil organic carbon decreasing by ∼40-50%. The decrease was more pronounced in cultivated land (CL) and degraded land (DL) (65-70% and 83-85%, respectively). In the case of total N, maximum decrease in total N of 83-87% was noted in DL as compared with FL. The poor soil quality indicators in degraded and agricultural land can be explained by the interaction between the soil organic carbon and nitrogen loss with diversity loss. This study recommends that for management/restoration of land resources, planning strategies should consider the current landscape structure, with land-use planning. © The Author(s) 2020. Published by Cambridge University Press.
Description
Keywords
Land use change, soil organic carbon, soil quality indicators, species diversity, tropical forest