Climate change in Asia

Warming

Köppen climate classification map for Central Asia for 1980–2016

2071–2100 map under the worst climate change scenario. Mid-range scenarios are currently considered more likely^[9][10][11]

Starting from the 20th century, there has been clear warming across the entire continent. The frequency of cold days and nights decreased, which had also lowered the need for heating.^[3]: 1463 Yet, the demand for air conditioning had increased far more as the frequency of hot days and warm nights had also grown, which had also increased the strain on power grids.^[3]: 1460 Hot temperature extremes appear to have increased the most in Central and West Asia, while heatwaves in East and South Asia are becoming longer, more frequent and more severe.^[3]: 1464

In 2016 and 2018, Asia has already experienced extreme heat that would have been statistically impossible without climate change.^[3]: 1464 New Delhi broke an all-time record when it reached 48 °C (118 °F) in 2018.^[12] North Asia has the coldest climate due to its proximity to the Arctic, but it also experiences greater relative warming due to what is known as the arctic amplification.^[3]: 1464 This has led to permafrost thaw, which acts as a climate change feedback and also places large quantities of infrastructure at risk of collapse.^[3]: 1500

All of these trends are expected to continue in the future. There will be greater frequency of extreme heatwaves across the continent and heat stress would become more persistent across South Asia. Under the mid-range climate change scenario, parts of West and South Asia would reach "critical health thresholds" for heat stress during the 21st century, and this would also occur in parts of East Asia under the high-emission scenario.^[3]: 1465 Growing urbanization in Asia would also subject more people to the urban heat island effect:^[3]: 1465 for instance, Hyderabad will likely be the hottest city in the world at the end of the century, with an average annual temperature around 30 °C (86 °F).^[3]: 1498 Yet, many rural people are agricultural workers, who are some of the most vulnerable to increasing heat.^[3]: 1468 The demand for air conditioning would continue to increase and managing it would become more challenging for the energy infrastructures, which are often already prone to blackouts in many countries on the continent.^[3]: 1470 In the Southeast Asia, heat-related deaths under a high-warming scenario could increase by 12.7% by 2100.^[3]: 1508

Water availability

Precipitation trends are more complex than temperature trends. While climate change is generally expected to increase precipitation due to greater evaporation from the oceans, the large increase in anthropogenic sulfate aerosols during most of the 20th century (sometimes described as global dimming) has had an opposite impact, as sulfates cause clouds to retain water for longer before rainfall occurs.^[14][15] Rainfall associated with the Monsoon of South Asia^[3]: 1464 and East Asian Monsoon had decreased by the end of the 20th century, and this is likely associated with aerosol pollution:^[16] there is already evidence of monsoon recovery when the aerosol concentrations decline.^[17] Because some clouds from South and East Asia go on to Central Asia, they could increase rainfall there with the same moisture they did not shed during the monsoon, and some evidence supports that.^[18]

However, this effect isn't very strong, as the overall rainfall in West and Central Asia had decreased, while drought likelihood had increased. The frequency and intensity of dust storms had increased in this region as well, although this is partly caused by poor land use practices.^[3]: 1465 At the same time, heavy precipitation events (defined as 400 mm or more in a day) had increased in South, Southeast and East Asia during the 21st century.^[3]: 1464 Over a third of the cities in Asia, with a combined population of around 932 million, are considered at high risk of flooding.^[3]: 1532

Future warming is expected to substantially increase annual precipitation across most of the continent. Monsoon regions would experience more heavy and even intense precipitation (defined as 50mm or more in an hour), making floods substantially more frequent.^[3]: 1465 100-year extremes in vapor transport (directly related to extreme precipitation) would become 2.6 times more frequent under 1.5 °C (2.7 °F) of global warming, yet 3.9 and 7.5 times more frequent under 2 °C (3.6 °F) and 3 °C (5.4 °F).^[13] While there has been no significant change in tropical cyclone (TC) frequency in Asia since the 1950s,^[3]: 1465 category 4-5 TCs are likely to become more frequent under high warming and generate more rainfall.^[3]: 1466

On the contrary, drought frequency is expected to increase in the West and Central Asia.^[3]: 1465 Even in the regions where precipitation increases, plants' water losses to evapotranspiration may increase even more, which could still increase the overall agricultural drought frequency.^[20] Across the continent, drought conditions would on average increase by between 5% to 20% by 2100.^[3]: 1459 Around 2050, populations living in the Amu Darya, Ganges and Indus may be faced with severe water scarcity due to both climate and socioeconomic reasons.^[3]: 1486

Glaciers in the Hindu Kush region feed the water basin of over 220 million people.^[3]: 1487 In the Indus River basin alone, they contribute to up to 60% of irrigation outside of the monsoon season.^[21] These glaciers have already experienced melting in the 21st century, and it would continue in the future, as up to two-thirds of glacier ice may melt by 2100 under high warming.^[3]: 1487 While glacier water supply would likely increase until 2050, it would be permanently diminished afterwards.^[3]: 1486 Although the increases in monsoon strength may offset these losses, agriculture in the region would still become more reliant on it than ever before, while hydropower generation would become less predictable and reliable.^[22][19][23]

Sea level rise

Between 1901 and 2018, average global sea level rose by 15–25 cm (6–10 in), an average of 1–2 mm (0.039–0.079 in) per year.^[24] This rate accelerated to 4.62 mm (0.182 in)/yr for the decade 2013–2022.^[25] While the rate of sea level rise in Asia is usually similar to the global average, it has been around 10% faster in the Indo-Pacific region since the 1990s.^[3] Future sea level rise on Japan's Honshu Island would be up to 25 cm faster than the global average under RCP8.5, the intense climate change scenario.^[3]

Asia has the largest population at risk from sea level. As of 2022, some 63 million people in East and South Asia were already at risk from a 100-year flood. This is largely due to inadequate coastal protection in many countries. This will get much worse in the future. Bangladesh, China, India, Indonesia, Japan, Pakistan, the Philippines, Thailand and Vietnam alone account for 70% of people exposed to sea level rise during the 21st century.^[3][26] This is due to the dense population on the region's coasts. 2019 research indicated that globally, 150 million will be under the water line during high tide and 300 million will live in zones with flooding every year. By the year 2100, those numbers differ sharply depending on the emission scenario. In a low emission scenario, 140 million will be under water during high tide and 280 million will have flooding each year. In high emission scenario, the numbers reach up to 540 million and 640 million, respectively. Large parts of Ho Chi Minh City, Mumbai, Shanghai, Bangkok and Basra could be inundated.^[27][28][29] These figures are, on average, triple that of past estimates, and the increases are even larger for certain Asian countries.

Modeling results predict that Asia will suffer direct economic damages of US$167.6 billion at 0.47 meters of sea level rise. This rises to US$272.3 billion at 1.12 meters and US$338.1 billion at 1.75 meters. There is an additional indirect impact of US$8.5, 24 or 15 billion from population displacement at those levels. China, India, the Republic of Korea, Japan, Indonesia and Russia experience the largest economic losses.^[3] Nations like Bangladesh, Vietnam and China with extensive rice production on the coast are already seeing adverse impacts from saltwater intrusion.^[30][31] High-emission RCP8.5 scenario would see the loss of at least one third of Japanese beaches and 57–72% of Thai beaches.^[3]

Sea level rise in Bangladesh may force the relocation of up to one third of power plants by 2030. A similar proportion would have to deal with increased salinity of their cooling water. Recent search indicates that by 2050 sea-level rise will displace 0.9-2.1 million people. This would require the creation of about 594,000 new jobs and 197,000 housing units in the areas receiving the displaced persons. It would also be necessary to supply an additional 783 billion calories worth of food.^[3] Another paper in 2021 estimated that sea-level rise would displace 816,000 people by 2050. This would increase to 1.3 million when indirect effects are taken into account.^[32] Both studies assume that most displaced people would travel to the other areas of Bangladesh. They try to estimate population changes in different places.

By 2030, major Indian cities such as Mumbai, Kolkata, Cuttack and Kochi are expected to end up with much of their territory below the tide level.^[33] In Mumbai alone, failing to adapt to this would result in damages of US$112–162 billion by 2050, which would nearly triple by 2070.^[3] Thus, the authorities are carrying out adaptation projects like the Mumbai Coastal Road, even at the likely expense of local coastal ecosystems and fishing livelihoods.^[3] Out of the 20 coastal cities expected to see the highest flood losses by 2050, 13 are in Asia. Nine of these are the so-called sinking cities, where subsidence (typically caused by unsustainable groundwater extraction in the past) would compound sea level rise.^[34] These are Bangkok, Guangzhou, Ho Chi Minh City, Jakarta, Kolkata, Nagoya, Tianjin, Xiamen and Zhanjiang.^[3]

By 2050, Guangzhou would see 0.2 meters of sea level rise and estimated annual economic losses of US$254 million – the highest in the world. One estimate calculates that in the absence of adaptation, cumulative economic losses caused by sea level rise in Guangzhou under RCP8.5 would reach about US$331 billion by 2050, US$660 billion by 2070 and US$1.4 trillion by 2100. The impact of high-end ice sheet instability would increase these figures to about US$420 billion, US$840 billion and US$1.8 trillion respectively.^[3] In Shanghai, coastal inundation amounts to about 0.03% of local GDP. But this would increase to 0.8% by 2100 even under the "moderate" RCP4.5 scenario in the absence of adaptation.^[3] The city of Jakarta is sinking so much (up to 28 cm (11 in) per year between 1982 and 2010 in some areas^[35]) that in 2019, the government had committed to relocate the capital of Indonesia to another city.^[36]

Natural environment

Multiple biomes in Asia have already experienced visible shifts in response to climate change. These include changes in growing season length, habitat losses (particularly of the amphibian species^[3]: 1473) or greater invasive species frequency.^[3]: 1476 Many animal species have been observed to move into warming areas to the north.^[3]: 1473 In Siberia, tundra extent shrinks as it is gradually replaced by boreal forest (taiga).^[3]: 1472 At the same time, wildfires have also become more severe in Siberia, although this is partly connected to increased pressure from mineral exploration and illegal logging.^[3]: 1474 Greater warming has also generally made it easier for trees to move into the previously unsuitable mountain areas, and this trend is expected to continue in the future.^[3]: 1472 This could also result in existing mountain ecosystems, such as the Korean fir forests, getting replaced by more temperate ones.^[3]: 1475

Some freshwater fish species will lose parts of their range.^[3]: 1477 Many marine and coastal ecosystems at risk of irreversible loss after just of warming. Notable examples include coastal seagrass meadows, which are deteriorating at the rate of 7%/year, and the mangrove forests, 42% of which are in Asia.^[3]: 1480 By 2018, over 60% of Asia's past mangrove extent and 40% of coral reefs had already been lost.^[3]: 1482 At the same tide, "golden tide" blooms of Sargassum horneri might become more frequent.^[3]: 1481

In the South China Sea alone, there are nearly 600 coral species, and they have been severely impacted by climate change and other human activities.^[3]: 1478 In general, the remaining coral reefs will experience irreversible losses soon after 1.5 °C (2.7 °F) of warming.^[4][5] That Coral Triangle is considered one of the 12 "priority" ecosystems in Asia, and research shows that they could lose up to 26% of their species under 2 °C (3.6 °F), and up to 56% under 4.5 °C (8.1 °F) warming.^[3]: 1476

Some of the species in the Coral Triangle region. Clockwise from the left: Table coral Acropora latistella, sea slug Nembrotha kubaryana, Mobula ray, green sea turtle, Christmas tree worms (Spirobranchus giganteus) and a Parrotfish

Agriculture, economy and society

In 2019, Asia as a whole was estimated to have 400 million people living in extreme poverty (below 1.9$/day), and 1.2 billion below 3.2$/day.^[3]: 1468 It also accounts for two-thirds of the world's agricultural production^[3]: 1490 and nearly three-quarters of the fisheries and aquaculture output.^[3]: 1491 In India, Pakistan and Bangladesh, around 56%, 43% and 50% of the population work in agriculture, respectively.^[39][40] Even so, 11.4% of Asia's population (515 million people) were undernourished in 2017, which is the largest fraction in the world.^[3]: 1508 While total food production to date had been increasing, climate risks to agriculture and food security are expected to accelerate after 1.5 °C (2.7 °F) is exceeded.^[3]: 1490

These risks will be regionally uneven, as food security is expected to improve in some countries or even country sub-regions, while declining in others.^[3]: 1494 For instance, coral reefs support 1.5 million fishers in the Indian Ocean and 3.35 million in the Southeast Asia, yet they are highly vulnerable to even low-emission climate change.^[3]: 1479 Southeast Asia may lose around 30% of its aquaculture area and 10-20% of production by 2050-2070.^[3]: 1491 Major agricultural pests such as Colorado potato beetle and Ixodes ricinus have been able to expand their range,^[3]: 1473 and other expansions, such as those of locusts and the golden apple snail are expected in the future.^[3]: 1475 Livestock production in the South Asia region and the country of Mongolia is highly vulnerable to climate change.^[3]: 1493 Global food price spikes and market volatility threaten to affect sociopolitical stability.^[3]: 1494

In the absence of intervention, malaria incidence could nearly double by 2050 in northern China, and over 100 million people are likely to become exposed to malaria in the near future. Infectious diarrhoea mortality and dengue fever incidence in South Asia is likely to increase as well.^[3]: 1508 Under the high-emission scenario, 40 million people in South Asia (nearly 2% of the population) may be driven to internal migration by 2050 due to climate change.^[3]: 1469 Some research suggests that South Asia would lose 2% of its GDP to climate change by 2050, while these losses would approach 9% by the end of the century under the most intense climate change scenario.^[3]: 1468

In the 2017 edition of Germanwatch's Climate Risk Index, Bangladesh and Pakistan ranked sixth and seventh respectively as the countries most affected by climate change in the period from 1996 to 2015, while India ranked fourth among the list of countries most affected by climate change in 2015.^[42] India is estimated to have the world's highest social cost of carbon - meaning that it experiences the greatest impact from greenhouse gas emissions.^[43] Other estimates describe Bangladesh as the country most likely to be the worst-affected.^[44][45][46]

Central Asia

• Climate change in Kazakhstan
• Climate change in Kyrgyzstan
• Climate change in Tajikistan
• Climate change in Turkmenistan
• Climate change in Uzbekistan

East Asia

• Climate change in China
• Climate change in Japan
• Climate change in North Korea
• Climate change in South Korea
• Climate change in Mongolia
• Climate change in Taiwan

North Asia

• Climate change in Russia

Southeast Asia

• Climate change in Cambodia
• Climate change in Indonesia
• Climate change in Malaysia
• Climate change in Myanmar
• Climate change in Singapore
• Climate change in the Philippines
• Climate change in Thailand
• Climate change in Vietnam

South Asia

• Climate change in Afghanistan
• Climate change in Bangladesh
• Climate change in Bhutan
• Climate change in India
• Climate change in the Maldives
• Climate change in Nepal
• Climate change in Pakistan
• Climate change in Sri Lanka

West Asia

• Climate change in Armenia
• Climate change in Azerbaijan
• Climate change in Cyprus
• Climate change in Georgia (country)
• Climate change in Iran
• Climate change in Iraq
• Climate change in Israel
• Climate change in Jordan
• Climate change in Turkey