Spatial variabilities and drivers of land use and land cover (LULC) change over time and are crucial for determining the region’s economic viability and ecological functionality. The North-Western Himalayan (NWH) regions have witnessed drastic changes in LULC over the last 50 years, as a result of which their ecological diversity has been under significant threat. There is a need to understand how LULC change has taken place so that appropriate conservation measures can be taken well in advance to understand the implications of the current trends of changing LULC. This study has been carried out in the Baramulla district of the North-Western Himalayas to assess its current and future LULC changes and determine the drivers responsible for future policy decisions. Using Landsat 2000, 2010, and 2020 satellite imagery, we performed LULC classification of the study area using the maximum likelihood supervised classification. The land-use transition matrix, Markov chain model, and CA-Markov model were used to determine the spatial patterns and temporal variation of LULC for 2030. The CA-Markov model was first used to predict the land cover for 2020, which was then verified by the actual land cover of 2020 (Kappa coefficient of 0.81) for the model’s validation. After calibration and validation of the model, LULC was predicted for the year 2030. Between the years 2000 and 2020, it was found that horticulture, urbanization, and built-up areas increased, while snow cover, forest cover, agricultural land, and water bodies all decreased. The significant drivers of LULC changes were economic compulsions, climate variability, and increased human population. The analysis finding of the study highlighted that technical, financial, policy, or legislative initiatives are required to restore fragile NWH regions experiencing comparable consequences.
Aims: Conversion of land from forest to cropping has a serious effect on soil phosphorus and its fractions Results: Land use is now widely understood to be a primary factor in environmental change across all time and space scales. The purpose of this research was to ascertain how different land uses affected the concentration of phosphorus in soil. Soil phosphorus (P) reserves are depleted when land is converted from natural vegetation to permanent agricultural cropping. The transformation of North-Western Himalayas from a forest-dominated to a grassland-dominated ecosystem is just one example of the diversity of land significantly less soil aggregation occurred when agricultural land was cleared of its native vegetation. Total organic carbon in soils was reduced when grassland was converted to cropland. Reduced total organic carbon (TOC) concentrations by 62-79% and organic phosphorus (Po) concentrations by 47-53%. Even though, the total silt+clay fraction's contribution was negligible, it contained a significant amount of C and Po reserves and the C/Po ratio has been holding fairly steady, they have proven to be more robust. This impact of cropping on soil P reserves has been demonstrated in research, but changing land use practices can alleviate these problems significantly.
The scientific study of the soil started almost 70-80 years ago with two school of thoughts, one worked in the lab and others in field. The main aim of the researchers studying in the field was to determine the profiles of soil along with its horizons so as to extent the knowledge on physical, chemical and biological properties. The distinctness of soil with depth means that soil has unique profile. All the soils in the world has some specific depth functions. The change of soil color or soil texture in a soil profile can be considered a good indicator of the soil formation and process and has been used as a proxy for degree of development or soil age. Uniform, gradational and rapidly changing soil textures are examples of soil profile forms used for soil classification. In the current study we studied twelve profiles having four different land uses and observed several horizons having various boundaries. The upper horizons were having diffused and wavy boundaries than the lower horizons. There was seen a clear relationship between the horizons and the various land uses. The study is very important as the soils in Himalayas are not very well developed and are prone to erosion. The study will help researchers and policy makers.
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