India 3rd Most Vulnerable Country – Will Modi Still Say There Is No Climate Change?
Do you remember the summer season 2 years ago? Year 2022. It was called the Hottest Summer Ever in news media articles. It was so hot in India that it broke the 122-year-old record that year.
But then came the Summer of 2023. In 2023, the summer season was so scorching hot that scientists said it was the hottest summer in the last 2,000 years in Earth’s northern hemisphere.
But then we come to the year 2024. January 2024: Hottest January Ever Recorded. February 2024: Hottest February Ever Recorded. March 2024: Hottest March Ever Recorded. April 2024: Hottest Month Ever Recorded. The last 11 months on Earth have been record-breaking in terms of heat.
The scorching heat that you have to bear today is not normal. And you are not alone. Record-breaking heat waves were seen last month in South India and throughout Southeast Asia.
In the Philippines, the heat index had crossed 53°C. In Uttarakhand, there were forest fires. In the first week of May 2024, forest fires occurred in Odisha, Chhattisgarh, Madhya Pradesh, and Jharkhand.
Heatwave warnings are being issued nationwide, even in places like Kerala, where there aren’t usually heat waves. And now temperatures have been soaring above 46°C in North India. Global warming and climate change are the main reasons for all this. But are they the only reasons? No.
Climate Change: A Global Phenomenon
First, we need to understand that such extreme weather events are seen in India, Southeast Asia, and every corner of the world. In South America, at least 83 people died after days of heavy rain in Southern Brazil, and more than a hundred are missing. Floods have displaced another 123,000 people. Entire cities were submerged.
In South Africa, we are witnessing a terrible drought, with many families unable to cater to their daily needs like food. This type of drought, unparalleled in the past several decades, is said to be the first occurrence since 1947. So, this is not a normal circumstance.
Many Southern African countries have requested $5.5 billion from the rest of the world to prevent starvation.
There is one weather event behind all this destruction, which is considered the most significant cause. El Niño. It is a natural cycle of the Earth’s Climate that happens every 5-7 years.
However, due to climate change, it is becoming more extreme year after year. The full name of this cycle is El Niño Southern Oscillation. In short, it is called ENSO. According to the World Health Organization, this is a significant cause of climate change on Earth.
Understanding El Niño
In the first place is the relationship between the Earth and the Sun, the Earth’s revolution around the Sun, which causes the seasons to change. Winter following summer and summer following winter.
El Niño emerges from the Pacific Ocean. The Pacific Ocean is the world’s largest and deepest ocean between Asia and the Americas.
Winds blow over the Pacific Ocean, flowing from east to West. These winds are called Trade Winds, and most of the time, they move from the Americas to the direction of Asia and Australia because of Earth’s rotation. Since Earth rotates from West to East, the Trade Winds flow in the opposite direction (due to a physics phenomenon called the Coriolis effect).
Due to this, usually, the water on the surface of the Pacific Ocean starts flowing towards the West. It means it starts flowing towards Australia. And when the water on the surface starts flowing in that direction, in the east, the water below the sea’s surface level starts rising to the surface.
That is, near South America, the water from the depths of the sea rises towards the surface. This is called Upwelling. The water that rises from the ocean’s depths is much colder comparatively and has more nutrients. Because of this, fish and marine life also benefit.
So, in this typical situation, the hot water goes to Australia, and the cold water comes to South America. When water is hot, it evaporates more quickly. And because of that evaporation, clouds are formed, and more rain falls near Australia.
When these trade winds are weak, they do not flow as strongly over the Pacific Ocean. The Upwelling is weak, almost non-existent. The hot water on the surface consistently remains hot.
The clouds that were supposed to bring rain to Australia can rain anywhere over the Pacific Ocean. So the Australian region becomes very dry.
This is the phenomenon of El Niño. Sometimes, it happens every four to seven years. But when El Niño happens, it lasts for 6 to 12 months. But during the El Niño, the weather patterns of the world change.
It causes higher temperatures and drier weather conditions in Australia and Southeast Asia. The risk of heat waves increases. The violent wildfires in Australia in 2020 were a result of El Niño, too.
The last El Niño event was in 2018-19, which lasted till January 2020.
Since then, today, from January 2023 till now, another El Niño is in effect. The exciting thing here is that El Niño has the opposite effect in South America as it does in Asia and Australia. That is, it rains more there. The risk of floods increases.
This is why today we see many devastating floods in Brazil.
Now, apart from this, there is an opposite phenomenon of El Niño, which is La Niña.
Understanding La Niña
El Niño means the boy, and La Niña means the girl in Spanish.
The La Niña effect is an extreme situation of the El Niño. The trade winds strongly start blowing towards the West. Because of this, colder water flows to South America, hotter water flows towards Australia, and it starts raining more in Australia due to La Niña.
La Niña’s events usually last longer. They can last for 1-4 years. After the El Niño of 2018-19, when La Niña came in 2020-21, it became so extreme that it caused flooding in Australia.
This graph depicts the El Niño and La Niña events over the last 30 years. The red peaks are the El Niño events, and the higher it is, the stronger the El Niño event is.
The strongest El Niño to date was seen in 2015-16 after that was the 1997-98 event, followed by the current 2023-24 event.
The latest La Niña was in 2020-21, which lasted up till January 2023. Before this, the strongest La Niña was in 1999-2000. As the graph of El Niño is going down again, scientists believe that La Niña can start by July-August.
Heat Index
How will this impact India? India’s monsoon can be better than average this year. Last year, in the rainy season of 2023, there wasn’t a lot of rain because of El Niño. El Niño is a big reason why the summers of 2023 and 2024 were sweltering.
Scientists believe that climate change caused by humans is making the El Niño effect more extreme. That is, floods caused by El Niño are becoming more dangerous. Heat waves are becoming more and more violent. This is why a heat wave warning has already been issued twice in Kerala. The first time was in 2016, and the second time was in 2024. Both times, during an El Niño event.
The Indian Meteorological Department has essential criteria for declaring a heat wave. They say that if the temperature in the plains is above 40°C, above 37°C in the coastal areas, and above 30°C in the mountains, apart from this, if for two consecutive days, the temperature is 4.5°C above normal, then a heat Wave will be declared.
If it is 6.4°C above normal for two consecutive days, a severe heat wave will be declared. But if the temperature crosses 45°C, a heat wave is declared without checking any other condition.
But, in itself, temperature is not a very useful metric. It is easier to tolerate 45°C in Delhi in May than 38°C in Mumbai. 38°C in Mumbai seems more unbearable compared to 45°C in Delhi. It is because of the humidity.
The more humidity there is in the air, the more difficult it is to tolerate higher temperatures.
Relative humidity means the maximum moisture content in the air at a particular temperature. 100% relative humidity means that air saturates at a specific temperature. It is holding as much moisture as it possibly can and can not hold anymore.
The hotter the air is, the more its capacity to retain moisture is. This means that if the relative humidity of cold and hot air is 100%, hot air will have more moisture.
And as the humidity increases, the more difficult it becomes for our body for the sweat on our body to evaporate.
Sweating is the number one way for our body to keep us cool. If it’s really hot and there’s high humidity, we will not be able to sweat, and our bodies will not be able to keep themselves cool. That can be lethal for us.
This is why it is important to consider both temperature and humidity. And one metric that considers both of these things together is the Heat Index. The heat index tells us how hot the weather outside will feel for us.
On your phone’s weather app, you would have noticed the “feel like” or “real feel” temperature, which is computed from the heat index.
If the temperature is 35°C and the relative humidity is 50%, then it will feel like 41°C. But if the relative humidity is at 75% at the same temperature, then it will feel like a dangerous 53°C. This comes under the Red category, which means extreme danger.
On this heat index, you have a high chance of getting a heat stroke or a sunstroke. This explains why the latest heat wave in the Philippines was so dangerous and deadly, as the heat index there had reached 53°C.
Hence, it is very important to pay attention to the Heat Index. Even for the heat index of 32°C to 41°C, extreme caution must be exercised.
The situation has worsened to the extent that in Delhi, the heat index is touching 50°C. Over the next few days, it can reach as high as 56°C.
Urban Heat Island Effect
Apart from this, there is another effect that increases the impact of heat waves on a local level. An effect whose solution is much easier than all other effects. The Urban Heat Island Effect.
In different areas of a city, some places are hotter, and some are colder. In places with more trees, like parks or any other place, the temperature is relatively more comfortable than in other areas. And the areas with only big concrete buildings, tall glass buildings, 8-lane highways, and asphalt-covered ground are way hotter.
These places are known as Urban Heat Islands. The glass and concrete in buildings and asphalt on roads all absorb heat. They absorb the sunlight.
When a city is covered with concrete, there is no proper ventilation or air circulation. So, what happens is that heat is absorbed throughout the day. The air does not circulate much, and at night, the absorbed heat is released into the air.
This effect was studied in Delhi, and it was found that the places where this urban heat island effect is present are Connaught Place, Sitaram Bazar, and Bhikaji Cama Place. These places were 3°C to 8°C hotter as compared to the places with more trees, such as the Hauz Khas District Park and Buddha Jayanti Park.
This is why having a web of roads in any city should not be an indicator of development. Cities should be designed so that the temperature outside is comfortable and there is enough greenery for people to walk to where they need to go. Cars should be used as little as possible. Cars also release heat, which increases the urban heat island effect.
Impact to India
India is the third most vulnerable country in the world to climate change. We have already been having irregular monsoons that harm the crops, floods in some parts, and drought-like conditions in other parts, and people are losing lives to this.
On the occasion of Teachers’ Day in 2014, while addressing hundreds of students and teachers, Narendra Modi said, “Climate has not changed. We have changed, our tolerance and habits have changed. If we change, then God has built the system in such a way that it can balance on its own.”
His words underplayed climate change happening in the country. Even though, over the past few years, he has been actively going to climate conferences and has pledged to make India net zero by 2070, the real on-ground work has been little.
At least 143 people have died, and another 41,000+ are suffering from heatwave ailments just this year. In India, 8-10% of households have air conditioners, a number which is expected to rise to 50% by 2037 as summer becomes intolerable year after year.
Air conditioners, albeit seeming like a promising solution in the short term, cause more harm than good to the environment in the long term. They are energy-intensive, meaning that a lot of electricity is required to keep ACs running – electricity primarily comes from thermal power plants.
This means that more coal is burned, more GHGs are released into the environment, and more heat is produced.
Impact | Effect | Mitigation |
Heat Wave | Hot weather events that are both unusual and unprecedented are anticipated to occur on a much larger scale and with a greater frequency.
The west coast and southern India are expected to transition to new, elevated temperatures environmental systems under a 4°C temperature rise scenario, which will have major effects on cultivation. |
Urban planners must implement measures to mitigate the phenomenon of “heat islands” that are swiftly forming in densely populated urban areas. Singapore is taking action in this direction. |
Changing Rainfall Patterns | The monsoon season will be highly unpredictable due to a 2°C increase in the average temperature worldwide.
An incredibly humid rainy season, which is presently only expected to occur once every 100 years, is expected to occur every 10 years by the end of the century at a 4°C warming. A significant crisis could be initiated by an abrupt shift in the monsoon, which would result in increased inundation and more frequent droughts in significant regions of India. The northwest coast of India and the southern coastal region may experience rainfall that exceeds the average. It is anticipated that dry years will be drier and rainy years will be wetter. |
The establishment of flood alert systems and the enhancement of hydro-meteorological systems for the prediction of weather can assist individuals in evacuating hazardous areas prior to the occurrence of weather disasters.
In order to guarantee the safety of infrastructure and residences, it will be necessary to enforce building regulations. |
Droughts | It is anticipated that droughts will occur more frequently in certain regions, particularly in northwestern India, Jharkhand, Orissa, and Chhattisgarh. By the 2040s, it is anticipated that extreme temperatures will result in a substantial decrease in crop production. |
Investing in development and research to create drought-resistant crops can mitigate some adverse effects. |
Groundwater | It is challenging to forecast potential groundwater levels; however, the demand for water from an expanding population, higher-income lifestyles, as well as the services sector and industry, will likely end in further reductions in water tables. | It will be necessary to incentivize the efficient utilization of groundwater resources. |
Glacier Melt | The strength and dependability of northern India’s glacier-fed streams, notably the Indus and the Brahmaputra, are anticipated to be jeopardized by the dissolving of glaciers at a rising rate of 2.5°C. The Ganges will be less reliant on glacial water as a result of the substantial yearly precipitation that occurs downstream during the monsoon season.
Flows are anticipated to increase in the Indus and Brahmaputra during the spring as the snow melts, followed by a decrease in the late spring and summer. It could impact irrigation, affecting the financial security of millions of people (209 million in the Indus basin, 478 million in the Ganges basin, and 62 million in the Brahmaputra basin). |
Significant improvements in storage facilities for water would be required to capitalize on rising river flows in the spring and to offset the lower flows that will occur later. |
Sea Water Rise | India’s proximity to the equator would lead to a surge in sea levels. The coastal regions would have a large saltwater seepage, which could increase epidemics of cholera and diarrhea cases, as the bacteria responsible for cholera is more persistent in saline water. This could have a negative impact on agriculture, degrade groundwater quality, and contaminate potable water.
Kolkata and Mumbai, both densely populated cities, are particularly susceptible to the effects of tropical cyclones, riverine inundation, and sea-level rise. |
Building codes must be rigorously enforced, and planning for cities must be prepared for disasters caused by climate change.
In the event that coastal embankments are required, they must be constructed, and the Coastal Regulation Zone codes must be rigorously enforced. |
Agriculture & Food Security | In the near and medium term, it is reasonable to anticipate significant yield reductions in both rice and wheat if current trends continue.
The country may be compelled to import over twice the amount of food grain than it would require in the absence of climate change by the 2050s if the temperature rises by 2°C. |
The creation of drought-proof crops, enhanced soil management practices, and improved consumption of water, in conjunction with crop diversification, can help mitigate some of the adverse effects. |
Energy Security | A significant threat to hydropower facilities, the increased unpredictability and long-term declines in river flows additionally raise the possibility of physical harm from glacial lake outbursts, landslides, flash floods, and other climate-related natural disasters.
Production of thermal power can be affected by a decline in water flow and a rise in temperature. |
Energy forecasting is to be done in a proper way before summer to ensure availability and increase the capacity of renewable energy. It will be necessary to plan projects with climatic hazards in mind. |
Water Security | Water constraints in certain regions are anticipated to worsen due to an increase in the fluctuation of rainfall.
A danger to water security is significant in central India, the Western Ghats mountain range, and the northeastern states of India. |
Implementing enhanced crop water management, water harvesting techniques, and drip irrigation systems.
Collaboration between regions regarding water matters will be required. |
Health | Increase in malnutrition and related health disorders, especially in infants. The poor are expected to be the most severely affected community. In comparison to a scenario without climate change, child stunting may increase by 35% by 2050.
Malaria and other vector-borne diseases, as well as diarrheal infections, which are a significant cause of child mortality, are expected to expand into regions where transmission was previously restricted by frigid temperatures. Heat waves will probably lead to mortality and fatality increases, as well as an increase in injuries from extreme weather events. |
Provide vaccinations and severe climatic event warnings. Increase the medical care capacity during seasons in which the risk of health problems is the highest. |
The government has to take concrete steps to mitigate climate change, and the action has to be taken fast. Otherwise, a lot of urban areas, especially in North India, such as Lucknow, Delhi, and Jaipur, would become inhabitable.