Looking at the climate change challenges Pakistan and India face together, collective action — as unlikely as it seems — may just be what is needed to secure the lives and livelihoods of future generations.
According to climate researchers at Germanwatch, Pakistan ranks eighth on the Global Climate Risk Index, with over 145 catastrophic events — heat waves, droughts and floods — reported in the past 20 years. On the other hand, India ranks among the top 20 vulnerable countries in terms of climate risk. Pakistan is home to around 47 per cent of the Indus Basin, and India to around 39 per cent. The Indus Waters Treaty has been in effect since 1960. The recent political bickering aside, the Indus Waters Treaty has managed to survive the test of time, yet fails to comprehensively address climate change. Then again, at the time it was enacted, many of the stark realities we know today were not understood.
According to the Pakistan Council of Research in Water Resources, Pakistan officially crossed the water scarcity line in 2005. The United Nations Development Programme and the Pakistan Council of Research in Water Resources have issued warnings about the upcoming scarcity of groundwater in just six years.
According to some estimates, Pakistan is the fourth-largest user of its groundwater and over 70 per cent of drinking requirements and 50 per cent of irrigation needs are met through groundwater extraction. Due to excessive pumping, it is estimated that water tables could fall by as much as 20 per cent by 2025.
South Asia is drained by the Indus, Ganga and Brahmaputra river basins, which collectively form the Indo-Gangetic Basin (IGB) and include some of the highest-yielding aquifers of the world. The aquifers associated with these river basins cross the international borders of the contiguous South Asian countries, forming numerous trans-boundary aquifers, including the Indus basin aquifers (between India and Pakistan), Ganga and Brahmaputra basin aquifers (between Bangladesh and India), the aquifers of the tributaries to the Ganga (between Nepal and India), the aquifers of the tributaries to the Brahmaputra (between Bhutan and India, and between India and Bangladesh).
At the beginning of every hydrologic year, 4,000 billion cubic meters (bcm) water enters the South Asian hydrological systems, of which almost half is lost by poorly understood and un-quantified processes (such as overland flow, surface discharge through rivers to the oceans, submarine groundwater discharge and evaporation). The annual groundwater withdrawals in the region are estimated to exceed 340 bcm, and represent the most voluminous use of groundwater in the world. South Asia faces an acute shortage of drinking water and other usable waters in many areas, as it is seeing a rapid rise in water demand and change in societal water use pattern because of accelerated urbanisation and changes in lifestyle. In many urban and rural areas of the region, surface waters have been historically used as receptacles of sewage and industrial waste, rendering them unfit for domestic use, prompting a switch to groundwater and rainwater sources to meet drinking and agricultural water needs. At present, about 60–80 per cen t of the domestic water supplies across South Asia are met by groundwater.
Irrigation accounts for 85 per cent of groundwater withdrawals and is considered to be the main contributor to groundwater depletion with the maximum possible groundwater footprint seen in the Gangetic aquifers.
Among the main contributors to water stress in India and Pakistan are poor water resource management and poor water service delivery, including irrigation and drainage services. Moreover, the lack of reliable water data, subsequent analysis and consequent poor planning and allocation is leading to environmentally unviable methods of water withdrawal, causing an alarming reduction in groundwater.
In both countries, water stress is attributed first and foremost to the massive population growth. Another cause is the lack of sufficient urban water treatment facilities, which prevent the usability of river water for drinking and irrigation.
Air pollution contributes substantially to premature mortality and disease burden globally, with a greater impact in low-income and middle-income countries than in high-income countries. The northern plains of South Asia has one of the highest exposure levels to air pollution globally.
The major components of air pollution are ambient particulate matter pollution, household air pollution, and to a smaller extent ozone in the troposphere, the lowest layer of atmosphere. The major sources of ambient particulate matter pollution are coal burning for thermal power production, industry emissions, construction activity and brick kilns, transport vehicles, road dust, residential and commercial biomass burning, waste burning, agricultural stubble burning, and diesel generators.
In India and Pakistan, farm residues are burnt after harvesting in October to November, which affects the air quality of the region. In Pakistan, most of the rice cultivation takes place in Punjab, and the same is true for India’s Punjab due to suitable climatic conditions for the crop. In both countries, stubble burning is the key cause of smog. According to India’s new and renewable energy sources ministry, India’s Punjab contributes 44-51 million tonnes of residue annually. According to the estimates, paddy areas burnt every year in Indian Punjab and Haryana are 12.68 million hectares and 2.08 million hectares respectively. According to a study, farmers burn 30-90 per cent of residue, which contributes to the smog formation, not just in the immediate region, but the entire Indo-Gangetic plain. With air pollution levels lurking in the “extremely poor” band for almost half the year, the northern regions of South Asia may not be able to host healthy populations for very long.
The number of deaths attributable to ambient particulate matter pollution in India in 2017 was 0·67 million and the number attributable to household air pollution was 0·48 million. The number of deaths due to ambient particulate matter pollution in Pakistan in 2017 was 60,000.
Climate change over 3,000 years ago destroyed the Indus Valley Civilisation and it went into oblivion, leaving behind traces of what befell the people here before. The next few decades are extremely critical. Can we summon some good sense to survive or go the way of the Meluhans? The verses of Allama Iqbal, albeit in another context, still hold true: Watan ki fiqr kar nadaan museebat aane wali hai/ Teri barbadiyon ke mashware hain aasmanon mein…/ Na samjhoge tou mit jaoge Hindustan walon/ Tumari daastan tak bhi na hoge daastanon mein. (Think of the homeland, O ignorant one! Hard times are coming./Conspiracies for your destruction are afoot in the heavens./You will be finished if you do not care to understand, O ye people of India!/Even the mention of your being will disappear from the world’s chronicles).
The author is a prolific commentator on economic, security, and China issues. He is a Trustee/Governing Council member of TPF.This article was published earlier in Deccan Chronicle.
Image source: www.pri.org