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Hot weather hazard analysis over India.

Akhil Srivastava1, M Mohapatra2, Naresh Kumar2

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Summary
This summary is machine-generated.

Heat waves are a growing threat, with factors beyond temperature significantly increasing their impact. This study quantifies how various meteorological parameters affect heat wave severity across India.

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Area of Science:

  • Environmental Science
  • Meteorology
  • Climate Change Studies

Background:

  • Heat waves are increasingly recognized as devastating extreme weather events, causing significant human mortality and economic losses.
  • Beyond high temperatures, meteorological parameters like humidity, wind speed, and heat wave duration critically influence heat stress impacts.
  • There is a growing need to understand these contributing factors for effective heat wave management.

Purpose of the Study:

  • To quantify the influence of individual and cumulative meteorological parameters on heat wave impacts across different Indian regions.
  • To analyze these effects for various summer months (March-June) using historical data.
  • To develop a heat hazard analysis and zonation for India to aid mitigation and adaptation strategies.

Main Methods:

  • Analysis of 30 years of meteorological data (1981-2010) from 300 stations across India.
  • Quantification of the impact of individual meteorological parameters (temperature, humidity, wind speed, duration, intensity) on heat waves.
  • Calculation of cumulative scores for heat hazard analysis and regional zonation.

Main Results:

  • Identified specific meteorological parameters that aggravate heat wave impacts in different regions and months.
  • Developed cumulative heat hazard scores for various regions across India.
  • Established regional thresholds for heat wave impact based on meteorological parameters.

Conclusions:

  • Meteorological parameters significantly modulate heat wave severity, necessitating a multi-factor approach to impact assessment.
  • The developed heat hazard zonation provides a foundational tool for national-level mitigation and adaptation planning.
  • This research supports improved operational forecasting and timely disaster management for heat wave events.