Abstract
The persistent rise in concentrations of greenhouse gases (GHGs) in the earth’s atmosphere is responsible for global warming and climate change. Besides the known source of GHGs emissions like energy, industry, and agriculture, intrinsic emissions from natural inland water bodies like wetland, rivers, reservoirs, estuaries, etc. have also been identified as other hotspots of GHGs emission and gaining the attention of the scientific communities in recent times. Inland fisheries in India are threatened by climate changes such as a change in temperature, precipitation, droughts, storm, sea-level rise, saltwater intrusion, floods that affect mostly the production, productivity and ultimately affect the fishers’ livelihood. There are, however, different mitigation and adaptation strategies to cope with the effects of climate change. Carbon sequestration and other related management interventions are one of the options available minimizing GHGs emissions from inland open waters, particularly the wetlands and coastal mangroves which are well known worldwide for their significant role in the storage of carbon. Assessment of C efflux from exposed sediments in dry streams, reservoirs, lakes, rivers, and ponds into the atmosphere can be considered imperative for a better understanding of their role as a C-sink or as a C-source to the atmosphere.
Highlights
According to global warming potentials (GWP), the most dangerous greenhouse gases (GHGs) present in the atmosphere consisted of CO2, CH4, N2O, water vapor, and anthropogenically produced gases like hydrofluorocarbons and perfluorocarbons
Necessary to accurately estimate the atmospheric dynamics of greenhouse gas (GHG) fluxes to gain an insight into the global carbon (C) budget
Some other related activities which contributed to GHGs emissions are the fossil fuels and construction materials used during the erection of dam, clearing of land for establishing resettlement sites, essential lines of transmission and roads, and the expansion in irrigated farming
Summary
Most of the simulation studies suggested that the change in the mean global annual surface temperature between 1850 and the end of the 21st century is likely to exceed 1.5 ̊C, and temperature rise of 2 ̊C is anticipated to be dangerous for sustainability of life forms. It is still uncertain how great climate change would impact the earth. There are several scientific studies [4]-[9] on the role of reservoirs in global GHGs emissions more so in the tropical and sub-tropical region
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