Climate change and its impacts on hydrological regimes over the Bengal delta
M Ali, Partha Biswas, Muhammad Qumrul Hassan, Md. Ariful Islam
Abstract
• The Bengal delta is among the top ten countries globally that might face severe consequences from climate change. • The January and April temperature of Bangladesh will increase by 1.7- 2.4 °C, and 3.1 – 4.3 °C respectively, under SSP4.5. • Higher temperatures are expected under SSP8.5 compared to those of SSP4.5. • The evapotranspiration will increase by 50-150 mm, runoff and recharge will decrease by 50-150 mm and 60-100 mm, respectively under SSP8.5 • Monthly rainfall exhibited varying degree of changes, with increase in monsoon period (May to Sept.) and decrease in winter (Nov. to March); which has implications for agricultural practices. • The ET 0 and ET showed an increasing trend, implying increasing future water demand for the agriculture sector. • The drought indices indicate a relatively greater water deficit during the ‘ dry period ’ and greater water surplus during the ‘ monsoon period ’. Global warming and climate change are causing temperature to rise, which is having an impact on hydrology and water resources. Simulating the potential impacts of future climate change on hydrologic regimes provides opportunities to improve the climate change resilience of agricultural and other water-related systems. Bangladesh, the largest delta of the world, is confronted with substantial challenges from climate change risks and the depletion of the aquifer's groundwater supply. This study quantifies the impacts of climate change on hydrologic regimes (recharge, runoff, ET0, ET). Future climatic data projected by the CMIP6 GCM (ACCESS) under two shared socioeconomic pathways (SSPs) SSP2-4.5 (moderate emission scenario) and SSP5-8.5 (high emission scenario) were used. The projected climatic data demonstrate variations in rainfall and temperature across the country and as well as in the upcoming decades (2041-50 to 2091-2100). In most situations, there is a discernible and significant upward trend in the predicted future temperature. Under SSP4.5, the yearly rainfall deviated from -14 to 58%, January temperature from -3.7 to 31.4%, April temperature from 2 to 17.3%, ET 0 from 1.8 to 9.8%, PET from 1.9 to 9.6%, runoff from -25 to 144%, and groundwater recharge from -33.1 to 44.7%. Under SSP8.5, the magnitude of variation of the parameters is generally higher than those of SSP4.5. The dry winter period is getting drier and falls under semi-arid to hyper-arid categories according to the drought indices. It is anticipated that over the 2040–2070 timeframe, the Rajshahi region would receive the least quantity of precipitation overall. Predominantly in response to the amount and pattern of rainfall, surface runoff and groundwater recharge exhibit rising or falling behavior. Both scenarios predict rising temperatures in all locations throughout the cold (January) and hot (April) months throughout the 21 st century, with higher increasing trends under SSP8.5. The rising temperature raises concerns about crop heat stress and probable yield loss. Decreasing rainfall and groundwater recharge and increasing evapotranspiration may underscore the sustainability of water supply. Therefore, it is essential for policymakers to take some appropriate measures and strategies in advance to strengthen the resilience to climate change.