Carbon Sequestration Potential of the Forest Ecosystems in the Western Ghats, a Global Biodiversity Hotspot

Global warming with the burgeoning anthropogenic greenhouse gas (GHG) emissions (400 parts per million from 280 ppm CO 2 emissions of pre-industrial era) has altered climate, eroding the ecosystem productivity and sustenance of water, affecting the livelihood of people. The anthropogenic activities...

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Bibliographic Details
Published in:Natural resources research (New York, N.Y.) N.Y.), 2020-08, Vol.29 (4), p.2753-2771
Main Authors: Ramachandra, T. V., Bharath, Setturu
Format: Article
Language:English
Subjects:
Agricultural industry
Agriculture
Anthropogenic factors
Biodiversity
Biodiversity hot spots
Carbon content
Carbon dioxide
Carbon dioxide emissions
Carbon sequestration
Carbon sinks
Chemistry and Earth Sciences
Climate change
Climatic conditions
Computer Science
Coniferous forests
Conservation
Deforestation
Earth and Environmental Science
Earth Sciences
Ecosystems
Emissions
Emissions trading
Evolution
Farm buildings
Food security
Forest ecosystems
Forest management
Forests
Fossil fuels
Fossil Fuels (incl. Carbon Capture)
Geography
Global climate
Global warming
Greenhouse effect
Greenhouse gases
Human influences
Land cover
Land use
Mathematical Modeling and Industrial Mathematics
Mineral Resources
Original Paper
Physics
Plantations
Protected areas
Remote sensing
Statistics for Engineering
Sustainability management
Sustainable Development
Terrestrial ecosystems
Water pollution
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Summary:Global warming with the burgeoning anthropogenic greenhouse gas (GHG) emissions (400 parts per million from 280 ppm CO 2 emissions of pre-industrial era) has altered climate, eroding the ecosystem productivity and sustenance of water, affecting the livelihood of people. The anthropogenic activities such as burning fossil fuel, power generation, agriculture, industry, polluting water bodies and urban activities are responsible for increasing GHG footprint of which 72% constitute CO 2 . GHG footprint needs to be in balance with sequestration of carbon to sustain ecosystem functions. Forests are the major carbon sinks (about 45%) that aid in mitigating global warming. The current research focusses on the carbon budgeting through quantification of emissions and sinks in the forest ecosystems and changes in climatic conditions of Western Ghats. This would help in evolving appropriate mitigation strategies toward sustainable management of forests and mitigate impacts of global warming. The land-use land-cover (LULC) dynamics are the prime driver of climate change due to the loss of carbon sequestration potential as well as emissions. The Western Ghats are one among 36 global biodiversity hotspots and forests in this region sequester atmospheric carbon, which aid in moderating the global climate and sustaining water to ensure water and food security in the peninsular India. Assessment of LULC dynamics using temporal remote sensing data shows the decline of evergreen forest by 5% with an increase in agriculture, plantations and built-up area. The interior or intact forests have declined by 10%, and they are now confined to protected areas. The simulation of likely changes indicates that the region will have only 10% evergreen cover and 17% agriculture, 40% plantations and 5% built-up. Quantification of carbon reveals that the WG forest ecosystem holds 1.23 MGg (million gigagrams or Gt) in vegetation and soils. The annual incremental carbon is about 37,507.3 Gg, (or 37.5 million tons, Mt) and the highest in the forests of Karnataka part of WG. Simulation of the likely changes in carbon content indicates the loss of 0.23 MGg (2018–2031) carbon sequestration potential under business as usual scenario. The conservation scenario depicts an increase in carbon sequestration potential of WG forests with the protection. Sequestered carbon in WG is about INR 100 billion ($1.4 billion) at carbon trading of INR 2142 ($30) per tonne. Large-scale land-cover changes leading to d
ISSN:1520-7439
1573-8981
DOI:10.1007/s11053-019-09588-0