Modelling the forest transition in Central Western Ghats, India
| Autor: | M. D. Subash Chandran, Bharath Setturu, T. V. Ramachandra, K. S. Rajan |
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| Rok vydání: | 2017 |
| Předmět: |
Sustainable development
Watershed 010504 meteorology & atmospheric sciences Land use Agroforestry Geography Planning and Development Global warming 0211 other engineering and technologies 021107 urban & regional planning 02 engineering and technology Land cover 01 natural sciences Computer Science Applications Geography Artificial Intelligence Hydroelectricity Deforestation Environmental protection Computers in Earth Sciences 0105 earth and related environmental sciences Forest transition |
| Zdroj: | Spatial Information Research. 25:117-130 |
| ISSN: | 2366-3294 2366-3286 |
| Popis: | The Western Ghats forms an important watershed for the entire peninsular India, being the source of 37 west flowing rivers and three major east flowing rivers and their numerous tributaries. However, deforestation due to large scale land cover changes has affected the water sustenance in the region evident from the quantity and duration of water availability during post monsoon period. Land use Land cover changes accelerated by unplanned anthropogenic activities have been the prime mover of global warming and consequent changes in the climate. This necessitates appropriate resource management with an understanding of drivers. Geo-visualization of landscape transitions considering the influential agents will aid in formulating strategies to mitigate global warming. Uttara Kannada district in the Central Western Ghats has the distinction of having highest forest cover in the country and this region is now experiencing rapid forest cover changes. Factors inducing changes in the land cover are normalized through fuzzyfication, considered for Multi criteria Evaluation using Analytical Hierarchy Process (AHP) under high protection and low protection scenarios. Likely land use transitions by 2022 across zones based on transitions during 2004–2007, 2007–2010, 2010–2013 was done through cellular automata and Markov chain process (MC). The analyses highlight the loss of forest cover by 66.55–56.76% by 2022 in the coastal zone with escalating population density. Similar situation of 65.98–55.62% decline in Sahyadri region is noticed with execution of dams, hydroelectric projects and monoculture plantations. Lower transitions as compared with the second scenario highlights regulatory framework’s role in protection. However, forests in plain region show loss of 27.38–11.09% in both scenarios due to population pressure and market induced land cover changes. This necessitates policy interventions by the federal government to mitigate forest loss towards sustainable development. |
| Databáze: | OpenAIRE |
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