Heat Waves and its Impacts in India
- 02 Apr 2024
Why is it in the News?
The India Meteorological Department (IMD) has forecast a harsh and arid summer over a majority of regions of the country during April- June, with a high probability of heatwave episodes lasting as long as 10 to 20 days during the period.
Recent Prediction by India Meteorological Department (IMD):
- Extreme Heat Outlook: India is anticipated to face extreme heat from April to June, with central and western regions likely to be most affected.
- Expectations of 10 to 20 heatwave days across the country, exceed the normal range of four to eight days.
- Regions including Gujarat, central Maharashtra, north Karnataka, Rajasthan, Madhya Pradesh, Odisha, north Chhattisgarh, and Andhra Pradesh are forecasted to experience severe heatwaves in April.
- Pre-Monsoon Rainfall Performance: Below-average pre-monsoon rainfall is expected this month, particularly impacting coastal, eastern, and southern India.
- El Nino Conditions: El Nino conditions, marked by abnormal sea surface warming in the equatorial Pacific Ocean since last June, have the potential to reduce rainfall and increase temperatures, both locally in India and globally.
- Despite El Nino conditions easing after peaking in December, persistent warm conditions continue to elevate global temperatures.
- Recent Weather Conditions: February and March witnessed hotter-than-normal weather in southern India.
- Heatwave conditions were reported in Maharashtra, northern Karnataka, Saurashtra-Kutch, and parts of Rajasthan during late March.
- Maximum temperatures soared to 42.6 degrees Celsius in areas such as Akola in Maharashtra and Phalodi in Rajasthan.
What are Heat Waves?
- Heatwaves entail prolonged periods of exceptionally hot weather, posing adverse effects on human health, the environment, and the economy.
- Given India's tropical climate, the nation is especially susceptible to heat waves, which have witnessed increased frequency and intensity in recent times.
What is the Criterion for Declaring a Heat Wave?
For Plains and Hilly Regions:
- Heatwave is recognized when the maximum temperature of a station reaches at least 40°C or higher for Plains and at least 30°C or higher for Hilly regions.
- Determined based on Departure from Normal Heat Wave:
- Departure from normal temperature ranges from 4.50°C to 6.40°C, with anything exceeding 6.40°C classified as a Severe Heat Wave.
- Alternatively, based on Actual Maximum Temperature Heat Wave:
- A heat wave is declared when the actual maximum temperature equals or exceeds 45°C, while a Severe Heat Wave is acknowledged if the actual maximum temperature equals or exceeds 47°C.
- Declaration occurs when the above criteria are met in at least 2 stations within a Meteorological subdivision for a minimum of two consecutive days, with the declaration taking effect on the second day.
For Coastal Areas:
- A heat wave may be identified when the maximum temperature departure from normal is 4.50°C or more, provided the actual maximum temperature registers at 37°C or higher.
Fatality Risk:
- While high temperatures alone may not be lethal, it's the conjunction of elevated temperatures and humidity, known as the wet bulb temperature, that renders heatwaves perilous.
- Increased moisture levels impede sweat evaporation and hinder body cooling mechanisms, leading to a rapid rise in internal body temperature, frequently resulting in fatal outcomes.
What are the Causes of Heatwaves?
- Global Warming: A primary factor driving heatwaves in India is global warming, a consequence of sustained increases in Earth's average temperature linked to human activities like fossil fuel combustion, deforestation, and industrial operations.
- Elevated temperatures and altered weather patterns can stem from this phenomenon.
- Rapid Urbanization: Rapid urban expansion and the proliferation of urban landscapes contribute to the "urban heat island effect."
- Urban areas, dense with population, structures, and concrete surfaces, absorb and retain heat, intensifying temperatures, particularly during heatwaves.
- El Nino Influence: El Nino events, characterized by Pacific Ocean warming, exert global climatic impacts, triggering shifts in temperature, precipitation, and wind patterns.
- The conclusion of a strong La Nina phase in the equatorial Pacific Ocean and the untimely onset of an El Nino event are anticipated factors contributing to the exceptionally hot forecast for the summer of 2023.
What are the Impacts?
- Health Effects: Swift escalation in heat exposure can disrupt the body's ability to regulate temperature, resulting in various ailments such as heat cramps, heat exhaustion, heatstroke, and hyperthermia, potentially leading to fatalities or hospitalizations.
- Water Resources Impact: Heatwaves exacerbate water scarcity issues in India, causing water bodies to dry up, diminishing water availability for agriculture and domestic use, and intensifying competition for water resources, fostering conflicts and influencing irrigation practices and water-reliant industries.
- Energy Impact: Elevated temperatures heighten demand for cooling, straining power grids and heightening the risk of blackouts, disrupting economic operations, reducing productivity, and adversely affecting vulnerable communities without reliable access to cooling amenities during heatwaves.
How to Mitigate Extreme Heat Wave Events?
- To mitigate the adverse effects of heat waves and climate change, a comprehensive action plan must be implemented at various levels:
- Heat Wave Action Plan: Develop a long-term plan to protect human lives, livestock, and wildlife by prioritizing effective adaptation strategies and robust disaster management policies.
- Ensure proper implementation of the Sendai Framework for Disaster Risk Reduction, with governments taking the lead and engaging multiple stakeholders.
- Implementing Climate Action Plans: Commit to the National Action Plan for Climate Change (NAPCC) for inclusive growth and ecological sustainability.
- Emphasize nature-based solutions that uphold ethical standards and promote intergenerational justice.
- Sustainable Cooling: Adopt passive cooling technology to create naturally ventilated buildings, reducing the urban heat island effect in residential and commercial areas.
- Consider adapting ancient Indian building designs, as recommended by the Intergovernmental Panel on Climate Change (IPCC), to modern facilities.
- Heatwave Mitigation Plans: Implement measures to prevent heat-related fatalities, including providing access to water, oral rehydration solutions, shade in public spaces, flexible working hours, and accommodations for outdoor workers.
- Vigilant local administration and oversight by higher authorities are key to successful implementation.
- By implementing these strategies and fostering collaboration among stakeholders, we can create a more resilient future that effectively addresses the challenges posed by heat waves and climate change.
Indian Meteorological Department (IMD):
- India Meteorological Department is the country's National Meteorological Service.
- It deals with all matters relating to meteorology, seismology, and associated subjects.
- IMD is headquartered in Delhi and operates hundreds of observation stations across India and Antarctica.
- IMD units such as Forecasting Offices, Agrometeorological Advisory Service Centers, Hydro-meteorological Offices, Flood Meteorological Offices, Area Cyclone Warning Centers, and Cyclone Warning Centers are usually co-located with various observatories or meteorological centers.
- IMD is also one of the six Regional Specialized Meteorological Centres of the World Meteorological Organization.
- It is responsible for forecasting, naming, and distributing warnings for tropical cyclones in the Northern Indian Ocean region, including the Straits of Malacca, the Bay of Bengal, the Arabian Sea, and the Persian Gulf.
- Nodal Ministry: Ministry of Earth Sciences of the Indian Government