Mathur, Manish, Mathur, Preet (2025). Assessment of Habitat Suitability of Carissa carandas L. in India Using Bio-Climatic Variables, GHG Scenarios, Land Use, and Land Cover Predictors. , 27(6), 1249-1268. doi: 10.48311/jast.2025.16810
Manish Mathur; Preet Mathur. "Assessment of Habitat Suitability of Carissa carandas L. in India Using Bio-Climatic Variables, GHG Scenarios, Land Use, and Land Cover Predictors". , 27, 6, 2025, 1249-1268. doi: 10.48311/jast.2025.16810
Mathur, Manish, Mathur, Preet (2025). 'Assessment of Habitat Suitability of Carissa carandas L. in India Using Bio-Climatic Variables, GHG Scenarios, Land Use, and Land Cover Predictors', , 27(6), pp. 1249-1268. doi: 10.48311/jast.2025.16810
Mathur, Manish, Mathur, Preet Assessment of Habitat Suitability of Carissa carandas L. in India Using Bio-Climatic Variables, GHG Scenarios, Land Use, and Land Cover Predictors. , 2025; 27(6): 1249-1268. doi: 10.48311/jast.2025.16810

Assessment of Habitat Suitability of Carissa carandas L. in India Using Bio-Climatic Variables, GHG Scenarios, Land Use, and Land Cover Predictors

Journal of Agricultural Science and Technology
Article 3, Volume 27, Issue 6, November and December 2025, Pages 1249-1268    PDF (12.2 M)
Document Type: Original Research
DOI: 10.48311/jast.2025.16810
Authors
Manish Mathur1; Preet Mathur* 2
1ICAR- Central Arid Zone Research Institute, 342 003, Jodhpur, India.
2Department of Computer Science, Thapar Institute of Engineering and Technology, Patiala, Punjab, India.
Abstract
This study was conducted to assess the habitat suitability of Carissa carandas in India, which is crucial for its sustainable integration into agriculture under changing climatic conditions. We utilized Maximum Entropy (MaxEnt) modelling to evaluate the species’ distribution across current and future scenarios (2050 and 2070) under four Representative Concentration Pathways (RCPs: 2.6, 4.5, 6.0, and 8.5). Results indicated that temperature-related variables, particularly the Minimum Temperature of the Coldest Month (MiTCM, contributing 46.8% in 2070 RCP 2.6) and Isothermality (contributing up to 35.2% in 2070 RCP 8.5), are the dominant climatic drivers. Land Use and Land Cover (LULC) factors such as urbanization (49.8%), total cultivated land (28.1%), and grassland (9.0%) significantly influence habitat suitability. Under the current conditions, optimal habitat spans 4,588 km², decreasing by 38.95% under LULC scenarios. Projected habitat changes indicate 2.04% gain under 2070, but 11.06% decline under 2050 RCP 2.6. Southern and western regions, including Karnataka, Tamil Nadu, Maharashtra, and Gujarat exhibit high suitability. Habitat fragmentation is projected in northern and western India due to climate change and land use modifications. These findings underscore the need for proactive conservation planning and climate-adaptive agricultural strategies to optimize the cultivation of C. carandas. Policymakers and stakeholders should focus on preserving suitable regions while mitigating urbanization-induced habitat loss.
Keywords
Climate Change; Maximum Entropy modelling; Underutilized crop; Urbanization
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