Roadmap for Answer Writing 1. Introduction (Approx. 40-50 words) Start by highlighting the significance of water scarcity in India’s major cities. Briefly mention the looming threat of water shortages as per reports from credible sources like the National Institute of Disaster Management ...
Model Answer Erratic Rainfall: Climate change has altered precipitation patterns, causing intense rainfall followed by long dry spells. This inconsistency reduces opportunities for groundwater recharge. For example, regions like the Indo-Gangetic basin are facing severe depletion due to fluctuatingRead more
Model Answer
- Erratic Rainfall: Climate change has altered precipitation patterns, causing intense rainfall followed by long dry spells. This inconsistency reduces opportunities for groundwater recharge. For example, regions like the Indo-Gangetic basin are facing severe depletion due to fluctuating rainfall patterns.
- Increased Irrigation: About 70% of India’s groundwater extraction is used for irrigation. With increasing agricultural demands, more water is drawn from underground sources, leading to a drop in water tables. This creates a cycle where continued extraction is required to maintain irrigation.
- Unregulated Access: India has limited regulation on well drilling and groundwater extraction. The lack of restrictions on water usage in farming and urban areas leads to over-extraction, resulting in rapid depletion of groundwater resources.
- Rapid Urbanization: Urban expansion leads to increased impermeable surfaces, such as roads and buildings, reducing the ability of rainwater to infiltrate the soil and recharge groundwater.
Strategies for Groundwater Restoration
- Agricultural Sector Management: Improving irrigation efficiency can significantly reduce water demand. For instance, India’s irrigation efficiency is only 25-40%, which can be improved by adopting water-efficient methods like drip and sprinkler irrigation. Using treated wastewater for irrigation and avoiding water-intensive crops can also help reduce groundwater extraction.
- River Catchment Management: Conservation of green corridors and mapping potential recharge zones such as paleo-channels can store floodwater and aid groundwater replenishment.
- Use of Recharge Structures: Constructing artificial recharge structures such as recharge wells, pits, and dug wells can help restore groundwater levels. Implementing rainwater harvesting techniques is also critical in regions with dwindling groundwater levels.
- Surface Water-Body Management: Revitalizing traditional water bodies such as ponds, lakes, and reservoirs improves infiltration, enhancing groundwater recharge.
- Community Involvement: Raising public awareness and involving local communities in groundwater conservation efforts ensures long-term sustainability. Communities can play an active role in monitoring and maintaining recharge structures.
By implementing these strategies, India can better manage its groundwater resources and mitigate the effects of climate change and over-extraction.
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Model Answer Rising Encroachments Rapid urbanization and population growth have led to extensive encroachments on vacant lands and water bodies. For example, Chennai's Pallikaranai wetlands have shrunk drastically from 15,000 acres in 1954 to just 1,500 acres by 2016. This encroachment hampers naturRead more
Model Answer
Rapid urbanization and population growth have led to extensive encroachments on vacant lands and water bodies. For example, Chennai’s Pallikaranai wetlands have shrunk drastically from 15,000 acres in 1954 to just 1,500 acres by 2016. This encroachment hampers natural water retention and exacerbates the water scarcity issue.
The growth of concrete structures and impermeable surfaces in cities like Bengaluru has significantly reduced groundwater recharge. In Bengaluru, built-up areas grew from 8% in 1973 to over 93% in 2023. This extensive concretisation impedes rainwater infiltration, leading to a steep decline in groundwater levels.
Overuse of groundwater is a critical issue in cities like Chennai, which in 2023 extracted 127.5% of its groundwater resources. The rising demand for water, coupled with insufficient rainfall, leads to the depletion of aquifers.
The irregularity and concentration of rainfall during the monsoon season affect the availability of water. Bengaluru, for instance, faces water scarcity due to weak monsoons and inadequate groundwater recharge.
Untreated sewage contaminates water sources, making them unfit for consumption. Mumbai generates 3,000 million liters per day (MLD) of sewage, but only 2,100 MLD gets treated, leading to polluted water bodies.
Solutions to Address the Water Crisis
- Integrated Water Management
- Decentralized Sewage Treatment Plants (STPs)
- Adoption of Water-Saving Technologies
See lessImplementing restoration projects for lakes, ponds, and wetlands, desilting water bodies, and promoting rainwater harvesting can help recharge groundwater and increase water storage.
Establishing more decentralized sewage treatment plants with proper financing, design optimization, and enforcement of standards will reduce water contamination.
Encouraging the use of water-efficient appliances, such as low-flow showerheads and smart meters, can reduce household water consumption and improve overall water use efficiency.
Investing in these solutions can help mitigate the water crisis in major Indian cities.