The Indian heat-low, a strong atmospheric circulation pattern marked by low pressure and high temperatures, significantly impacts weather patterns over Pakistan and northern India. Understanding how terrestrial heating patterns vary over time is critical to climate change. Such changes can profoundly impact large-scale systems such as the heat-low and monsoon. The evolving characteristics of the heat-low area over the Indian subcontinent from 1950 to 2020 are investigated using a decadal analysis of reanalysis data (ERA5). The data show that the heat-low trend shifted eastward over this period. Furthermore, as part of the CMIP5 RCP8.5 ensemble, the CMCC-CMS model predicts a further eastward shift of this circulation pattern between 2050 and 2100. The heat-low pattern's eastward movement substantially impacts the monsoon circulation system, potentially resulting in large adjustments in rainfall patterns across the Indian subcontinent. The results of both the ERA5 and CMCC-CMS models support the idea of an eastward shift in rainfall, demonstrating the possibility of altered precipitation distribution in the future. Furthermore, this study emphasizes the possible drying of the western Indian subcontinent, including Pakistan and western India, because of the altering heat-low trend. These findings highlight the necessity of considering changing atmospheric circulation patterns in climate change assessments and the need for a better understanding of the associated implications for regional climate dynamics.
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Significance of summertime heat-low over northern Indian Subcontinent in the changing climate
Published:
30 May 2025
by MDPI
in The 7th International Electronic Conference on Atmospheric Sciences
session Climatology
Abstract:
Keywords: India Monsoon, Heat-Low, ERA5, CMIP, Precipitation
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