Ecosystem Carbon Stock and Stable Isotopic Signatures of Soil Organic Carbon Sources Across the Mangrove Ecosystems of Kerala, Southern India

Ecosystem Carbon Stock and Stable Isotopic Signatures of Soil Organic Carbon Sources Across the Mangrove Ecosystems of Kerala, Southern India

Mangrove ecosystems have high carbon storage and sequestration rates and become substantial sources of greenhouse gases when disturbed by land-use change. Thus, they are extremely valuable for inclusion in climate change mitigation and adaptation strategies. However in Kerala, a west coast state of...

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Bibliographic Details
Published in:Wetlands (Wilmington, N.C.) Vol. 42; no. 4; p. 29
Main Authors: Sreelekshmi, S., Harikrishnan, M., Nandan, S. Bijoy, Kaimal, V. Sreejith, Hershey, N. Regina
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-04-2022
Springer Nature B.V
Subjects:
Biomedical and Life Sciences
Bulk density
Carbon dioxide
Carbon sequestration
Carbon sources
Climate change
Climate change mitigation
Coastal Sciences
Coasts
Deforestation
Ecology
Ecosystem services
Ecosystems
Emissions
Environmental impact
Environmental Management
Estuaries
Forested Wetlands
Forests
Freshwater & Marine Ecology
Global climate
Greenhouse gases
Hydrogeology
Land use
Landscape Ecology
Life Sciences
Mangroves
Organic carbon
Organic matter
Organic soils
Signatures
Soil chemistry
Soil pH
Soil structure
Soil water
Soils
Suspended organic matter
Tidewater
Vegetation
Kerala India
India
Mangroves
Carbon stock
Stable isotope
Kerala
Vegetation
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Summary:Mangrove ecosystems have high carbon storage and sequestration rates and become substantial sources of greenhouse gases when disturbed by land-use change. Thus, they are extremely valuable for inclusion in climate change mitigation and adaptation strategies. However in Kerala, a west coast state of India, has lost 95% of its mangroves in the last three decades, posing a serious threat to global climate. The regional carbon stock data of mangroves that are at risk of depletion are rarely reported, despite the fact that they are crucial for mitigating and managing climate change impacts. In response, the study estimated the ecosystem carbon stocks and soil organic carbon sources of three different estuarine mangrove habitats of Kerala. The mean total ecosystem carbon stock of Kerala mangroves was estimated to be 218.98 ± 169.86 Mg C ha − 1 which is equivalent to 803.66 ± 621.47 Mg CO 2 ha − 1 , contributing a substantial amount of carbon to the global ecosystem carbon. Further 88% of the estimated ecosystem carbon stock was represented by vegetation biomass and 22% by the soil carbon stock. The stable isotopic signatures revealed that the accumulated autochthonous mangrove source attributed to the organic carbon in the soils of site 1 (Munroe island) and site 3 (Vypin) while the suspended organic matter in tidal water contributed to the soil organic carbon of site 2 (Ayiramthengu) mangroves. Mangrove structure, salinity, soil pH and bulk density were found to be the correlating factors for the carbon stock variations across the study sites. Hence, the understanding of the amount of carbon stocks in the mangroves of Kerala coupled with other ecosystem services they offer highlights their importance in the creation of conservation, restoration and climate change mitigation plans in the country.
ISSN:0277-5212
1943-6246
DOI:10.1007/s13157-022-01540-y