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Read the passage and answer the question based on it.
India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.
Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.
Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?
To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.
This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.
In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.
Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demand
  • a)
    Growing less water intensive crops in dry season
  • b)
    Constructions of large water-holding dams and reservoirs
  • c)
    Transitioning towards irrigation intensive systems where there is less water
  • d)
    None of the above
Correct answer is option 'A'. Can you explain this answer?
Verified Answer
Read the passage and answer the question based on it.India is the worl...
Option A- is correct as less water-intensive crops in dry season would reduce the need for water and also saves cost of construction etc.
Option B- Construction of dams and reservoirs is not going to be cost-effective.
Option C- In fact the opposite. Need is to move away from irrigating where there is less water.
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Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. What is the primary purpose of the passage?

Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. What do you infer from the first and second paragraph?

Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. What does the author think about the ground water stress?

Directions: Read the passage and answer the following question.As climate change accelerates, its impact on agriculture has become a subject of significant research and debate. In many developing countries, agriculture is not just an economic activity but a way of life that defines the cultural and social fabric of the community. The increasing unpredictability of weather patterns, due to climate change, has led to erratic rainfall, prolonged droughts, and unexpected frost, all of which pose severe threats to agricultural productivity and food security.In a small village in West Africa, a community that has depended on rain-fed agriculture for generations is now facing the brunt of these changes. The traditional knowledge systems, passed down over centuries, are becoming less reliable as the climatic cues they depend on are shifting. Crops are failing, and food shortages are becoming more common, leading to malnutrition and increased poverty levels.In response to this, a group of local farmers have begun experimenting with drought-resistant crop varieties and have started adopting water conservation techniques such as rainwater harvesting. These adaptation strategies are a blend of traditional knowledge and modern science, an approach that has shown promise in mitigating some of the adverse effects of climate change on agriculture.However, the challenges are not just environmental. There is also a socio-economic dimension to this issue. Many of these communities lack the financial resources to invest in new technologies or infrastructure that could help them adapt more effectively. Moreover, there is often a lack of access to accurate and timely information about weather patterns, which is crucial for making informed agricultural decisions.International organizations and local governments have a role to play in supporting these communities. Investments in climate-resilient infrastructure, research in sustainable agricultural practices, and the dissemination of climate information are vital steps that can help vulnerable populations adapt to the changing climate and secure their livelihoods.Q. According to the passage, what role should international organizations and local governments play in addressing the impact of climate change on agriculture?

Directions: Answer the given question based on the following passage:Agriculture occupies a pivotal position for ensuring livelihood, food and nutritional security, sustainable development and eradication of poverty in India. It is the prime sector for generating employment opportunities for majority of the population of any country.The contribution of agriculture sector to the national gross domestic product (GDP) has been continuously declining over the years, while other sectors, especially the service sector, are showing an increasing trend. In 1970-71, agriculture sector contributed about 44 per cent of GDP, which declined substantially to 13.5 per cent in 2010-11 (at 2004-05).During the last decade, there was a paradigm shift in the patterns of production, consumption, and trade in Indian agriculture through the use of new technologies. The shift in production and consumption from food-grains to high-value agricultural commodities such as fruits and vegetables, milk and milk products, meat, eggs, fish, etc. took place in a big way. Now there is a declining share of traditional crops/commodities in production, consumption and trade in India. Agriculture, horticulture and other non-traditional high-value agricultural crops occupy an important place in income growth in rural areas.Despite being one of the largest producers of many agricultural commodities such as fruits, vegetables, milk and livestock, etc. in the world, the extent of value addition to raw food material in India is only 8%, while it is 23%, 45% and 188% in China, Philippines and UK, respectively. Furthermore, only 2.2% of total fruits and vegetables are processed in India as compared to 30% in Thailand, 80% in Malaysia and 70% in UK.It is pertinent to mention here that total annual loss during the post harvest operations under agriculture produce is approximately Rs. 88,000 crore. This trend can be reversed by properly financing secondary agriculture, which can lead to 2-3 times value addition to primary agriculture products. Most of the primary agriculture produce requires processing before being finally consumed and the value addition/processing of the farm production to transform it into consumable item which is called secondary agriculture. It includes processing and value addition in all food and non-food products for human, animal and industrial use.Q.The phrase paradigm shift in the passage, refers to

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Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer?
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Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer? for CAT 2024 is part of CAT preparation. The Question and answers have been prepared according to the CAT exam syllabus. Information about Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer? covers all topics & solutions for CAT 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer?.
Solutions for Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer? in English & in Hindi are available as part of our courses for CAT. Download more important topics, notes, lectures and mock test series for CAT Exam by signing up for free.
Here you can find the meaning of Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer?, a detailed solution for Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer? has been provided alongside types of Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice Read the passage and answer the question based on it.India is the world’s largest user of groundwater and, since the 1980s, its groundwater levels have been dropping. The severity of the problem is particularly acute in the northwest, where levels have plunged from 8m below ground to 16m, so that water needs to be pumped from even greater depths. Worse yet, much of this is non-renewable since recharge rates are less than extraction rates and replenishing this resource can take thousands of years.Moreover, the future of monsoon rainfall remains uncertain; while some climate models predict an increase, others forecast a weakening monsoon, although changes in monsoon variability are already underway and will continue into the future. Historical records show the number of dry spells and the intensity of wet spells have risen over the past 50 years. As climate change alters the monsoon, the large stresses on India’s groundwater resources may increase.Diverting water to drier areas, for example, can encourage demand for water-intensive crops and further expand irrigation — leading to more stress on the physical system, the environment, and the people it supports. Understanding how and why people use water, therefore, is an important priority. Given the complex dynamics of both human agricultural and economic decisions, not to mention physical water and crop systems, what will India’s groundwater future look like?To answer this question, an integrated approach can shed light on the role that adaptation responses and policy measures can play.This brings us back to the policy proposal: could a $120-billion river-linking project help? Our model suggests that it all depends on how this project is carried out. But in simulations without new large reservoirs along canals, water transfers alone will alleviate very little non-renewable groundwater demand; without storage, water transfers in the wet season will not be available for dry-season irrigation. Historically, constructions of large water-holding dams and reservoirs have been contentious in India. While the exact plans for dam construction under the river-linking project have not yet been made public, it is clear that without a large increase in reservoir capacity, the proposed project will not alleviate groundwater stress.In addition, India needs better policies that directly help small-holders and labourers to adapt and adjust to risks associated with groundwater depletion and a more variable future climate. This is no small task. But for a resource that will shape the course of India’s economic, social, and political future.Q. As per the passage what could be most cost effective and sustainable way to alleviate ground water demanda)Growing less water intensive crops in dry seasonb)Constructions of large water-holding dams and reservoirsc)Transitioning towards irrigation intensive systems where there is less waterd)None of the aboveCorrect answer is option 'A'. Can you explain this answer? tests, examples and also practice CAT tests.
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