Abstract
The response of the Indian Summer Monsoon (ISM) to global warming, solar geoengineering and its termination is examined using the multi-model mean of seven global climate model simulations from G2 experiment of the Geoengineering Model Intercomparison Project. Under the global warming scenario, land–ocean temperature contrasts and low-level monsoon circulation progressively strengthen accompanied by enhanced precipitation over the Indian subcontinent. Notably, in the solar geoengineered scenario, marginal surface cooling is projected over the majority of the ISM region, and there is strengthening of both upper and lower level circulation. However, preferential precipitation near Western Ghats leads to dry bias over majority of Indian land. Upon the termination of the geoengineering, the climatic conditions—temperature, precipitation, winds and moisture would abruptly change to what it would have been under the global warming scenario. Thus, this may be important to note that such changes may need attention for the future mitigation and adaptation purposes if solar geoengineering is required to implement in future.
Highlights
The response of the Indian Summer Monsoon (ISM) to global warming, solar geoengineering and its termination is examined using the multi-model mean of seven global climate model simulations from G2 experiment of the Geoengineering Model Intercomparison Project
Using data from multi-model simulations for solar geoengineering (G2), global warming (1pctCO2), and pre-industrial control simulations, this paper provides a detailed description of the changes in temperature, wind speed, moisture, and precipitation for different parts of the Indian Summer Monsoon (ISM) region (15S–45 N, 40E–120E) in response to idealized CO2 warming along with deployment and termination
Considering the large population affected by ISM, this study has regional implications, to the end product of the application of solar geoengineering and to the intermediate climatic conditions and processes occurring during the implementation of geoengineering
Summary
The response of the Indian Summer Monsoon (ISM) to global warming, solar geoengineering and its termination is examined using the multi-model mean of seven global climate model simulations from G2 experiment of the Geoengineering Model Intercomparison Project. We utilized the model outputs from GeoMIP experiment G2, in which, starting from a preindustrial baseline (piControl), the CO2 concentration was increased by 1% per year (the corresponding simulation with only CO2 increase and no geoengineering is referred to as 1pctCO2), while total solar irradiance was reduced commensurately to offset global mean temperature change This was conducted for 50 years, and geoengineering was abruptly terminated, and the model was run for an additional 20 years. Using data from multi-model simulations for solar geoengineering (G2), global warming (1pctCO2), and pre-industrial control (piControl) simulations, this paper provides a detailed description of the changes in temperature, wind speed, moisture, and precipitation for different parts of the Indian Summer Monsoon (ISM) region (15S–45 N, 40E–120E) in response to idealized CO2 warming along with deployment and termination
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