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The Water Wars Myth: India, China and the Brahmaputra

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South Asia’s Brahmaputra has been cited as one of the basins most at risk for interstate water conflict. While violent conflict has occurred between China and India within the Brahmaputra’s basin boundaries, the risks of conflict over water are in fact low. This is in part because China functionally contributes less to the Brahmaputra’s flow than is commonly perceived and in part because, despite its massive volume, the river can contribute little to solving India’s significant water security challenges. Nonetheless, the Brahmaputra is and will continue to be intimately connected to Sino-Indian tensions largely through the use of water infrastructure investment as a form of territorial demarcation and control.

1674920485083.png

An elderly man carries a bamboo pole and a baby across a stream of the Brahmaputra river, Dholpur, India on Sept. 28, 2021. (Karan Deep Singh/The New York Times)

The Water Wars Theory and Brahmaputra Basin Realities
A simplified version of the water wars argument is that per capita water availability will drop as populations grow and water supplies remain constant. At the same time, economic growth will multiply demand as effective supplies are reduced with quality declines. Climate change will only worsen the situation. For internationally shared rivers, conflict over the vital resource will occur when some tipping point is reached, particularly if tensions over other issues are high and there is no history of institutionalizing cooperation over water through treaties or other mechanisms.

The Brahmaputra would appear to be at the top of the list of conflict hotspots. The river is shared between four states, including the world’s two most populous, China and India. Both have rapidly growing economies and both are already among the most water stressed in the world. The challenges for cooperatively managing the Brahmaputra are heightened by a changing monsoon season and melting glaciers, the complete absence of formal water sharing agreements, a limited history of even basic hydrologic data exchange and strained diplomatic relations. In addition, China has shown little interest in cooperative transboundary water management in the Brahmaputra or elsewhere. As the upstream state, China controls more than half the Brahmaputra basin’s area and is building infrastructure — in particular dams — to control water without consultation with downstream neighbors.

To understand why, despite these factors, water conflict is less likely than commonly perceived, it is important to understand the hydrology of the Brahmaputra basin and its overall context. While China controls most of the basin’s area, most of that area lies in a rain shadow, formed when monsoon winds rise over Himalayan peaks and then descend again onto the Tibetan Plateau. In contrast, the Indian, Bhutanese and Bangladeshi portions of the basin lie in some of the world’s highest precipitation areas, with rainfall consistently above 98 inches per year. In fact, the state of Meghalaya, in the Indian portion of the basin, is often referenced as the wettest place in the world, with 433 inches of annual precipitation in some areas.
1674920554197.png

Existing and planned Infrastructure on the Brahmaputra
As a result, China’s contribution to overall flow is undoubtedly lower than its share of basin area. How much lower is unclear, however, because of limited gauging stations and access to what data might exist (even within India, water data is not consistently shared between and across government levels). The result has been that both public and policy discussion about Sino-Indian water relations have relied on a limited number of poorly attributed and understood statistics. At one extreme, figures from the United Nations Food and Agriculture Organization (FAO) put China’s contribution to Brahmaputra flow at 30% while at the other anonymous Government of India sources put the figure at 7%. Both figures have been cited to support differing positions.

To provide context for such figures, we compiled data from a range of sources and computed China’s implied contribution to flow along the Brahmaputra’s course. From this work, it appears that the FAO figure is based on estimates of all Brahmaputra basin waters entering India from China (the Brahmaputra mainstem and tributaries including the Lohit and Subashiri) as a share of the Brahmaputra’s flow at Guwahati, about 75 miles from the border with Bangladesh. The Government of India’s 7% figure appears to include only water entering India from China via the Brahmaputra’s mainstem (i.e., excluding tributaries, as a percentage of all Brahmaputra flow up to the confluence of the Padma/Ganges in Bangladesh). Since China’s infrastructure development is and will continue to be limited to its mainstem waters, the 30% figure, by including flows from other tributaries, overstates China’s hydrologic advantage and potential leverage over India. In contrast, the 7% figure underestimates it, by including flows that enter the Brahmaputra in Bangladesh.

While the appropriate figure to use depends on its purpose, any focus on China’s contributions to flow detracts from an understanding of the larger context in which the Brahmaputra basin must be seen. Since the Indian portion of the basin is in one of the highest rainfall regions in the world, India has little need to draw from the river now or in the future for agriculture or other purposes. Even India’s most grandiose plans to transfer water out of the basin to more arid areas would have little impact on total flow because of the Brahmaputra’s great volume.

Given China’s limited contribution to flow and the lack of capacity for the Brahmaputra’s waters to alleviate India’s water insecurity, conflict over water per se is unlikely. Climate change is expected to intensify the hydrological cycle. In this case, as temperatures rise, precipitation is expected to increase in the basin, due to a decrease on the Tibetan Plateau (China’s portion of the basin), which is more than offset by increases elsewhere. As such, increased temperatures are expected to increase flow, reduce glacial mass within China and, eventually, lower China’s contribution to flow.

Competition Through Water Infrastructure
While the competition between China and India over the quantity of Brahmaputra water may not be significant, another form of competition is manifesting itself through water infrastructure. China’s first project in the basin was a hydropower station completed in 1998. China has since built or is planning a series of publicly discussed dams on the Brahmaputra mainstem. An additional 18 dams on mainstem tributaries have been identified with satellite imagery by the Stimson Center’s Energy, Water, and Sustainability Program and Planet Labs. Of all the additional dams under discussion, by far the most ambitious and controversial is the “Great Bend Dam,” which would divert water through a tunnel with a 6,562-foot drop, generating twice the power of China’s famed Three Gorges dam.

Even if Chinese infrastructure is not designed to withdraw water from the river, it does have the potential to impact the timing of flows, potentially increasing flood risk. But coordinated operation with India could also be a means for decreasing flood risks. The Government of India has historically downplayed risks from Chinese infrastructure, sometimes citing the minimal 7% of flow contributed by China mentioned above. However, this stance recently changed, as evidenced by a 2020 announcement by the Ministry of Water Resources to build a 10-gigawatt hydropower project on the Brahmaputra, specifically to “mitigate the adverse impact of the Chinese dam projects.” Part of the rationale was given as creating storage capacity to mitigate the negative effects of Chinese dam operations. Though framed in terms hydropower production and flood control, water infrastructure in the Brahmaputra also serves as a form of territorial demarcation and control along a contested frontier. As one Indian official stated in 2016 with respect to one of China’s dams, “The strategic value of the Lalho project lies also in the fact that Shigatse is only a few hours driving distance from the junction of Bhutan and Sikkim, and the city from which the Chinese plan to extend their railroads to Nepal.” The Great Bend Dam, if constructed, would for the first time move Chinese infrastructure off the Tibetan Plateau onto the southern slopes of the Himalaya toward the Indian state of Arunachal Pradesh, a region China calls “South Tibet.” India, for its part, would place its mega-dam near its border with China, likewise signaling control of not only water but territory. The Indian megadam is also part of larger planning begun in the early 2000s for up to 150 dams within Arunachal Pradesh.


@Skull and Bones @Raj-Hindustani @VkdIndian @INDIAPOSITIVE @LakeHawk180
 
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Indian to develop two hydropower plants in Nepal as China abandons projects
1674921397512.png



India will now develop two hydropower projects in Nepal, namely West Seti Hydropower Project and the Seti River Hydropower Project, nearly 4 years after China withdrew from these. The formal agreement was signed in Kathmandu this week, according to a report by Economic Times (ET).

The total cost of these projects is expected to be around $2.4 billion. Nepal was left in a fix after two Chinese companies withdrew from the projects, after signing the MoUs with the government.

Investment Board Nepal and National Hydro Power Corporation Ltd signed MoU on August 11, to develop the two projects on the Seti River. The projects will develop a total of 1,200 MW. The projects will be spread over four districts of Bajhang, Doti, Dadeldhura, and Achham, according to ET.Prime Minister Narendra Modi and his Nepalese counterpart Sher Bahadur Deuba had earlier committed to expanding the power sector partnership. "During my recent visit to India, Prime Minister Narendra Modi and I agreed on a vision statement on cooperation in the power sector, underlining the need for strengthening mutually beneficial bilateral cooperation in this sector. Furthermore, during the visit of Prime Minister Modi ji [SIC] to Lumbini, we had a productive discussion on this matter and I invited the interested companies from India for the development of the West Seti Hydroelectric Project,” Deuba said after the deal between Nepal and India's National Hydro Power Corporation Ltd was signed last Thursday. Chinese companies have withdrawn from the West Seti Project twice. In 2009, China National Machinery and Equipment Import and Export Corporation (CMEC) signed an MoU with the government to develop the project. However, the company stepped back within two years. In 2017, China Three Gorges International Corporation set up a joint venture to develop the project. It withdrew from the project in 2018.ET further reported that Nepal can earn up to Rs 31,000 crore per year by 2030 and Rs 1 trillion per year by 2045 if it sells electricity to India by harnessing its hydropower potential.

 
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South Asia’s Brahmaputra has been cited as one of the basins most at risk for interstate water conflict. While violent conflict has occurred between China and India within the Brahmaputra’s basin boundaries, the risks of conflict over water are in fact low. This is in part because China functionally contributes less to the Brahmaputra’s flow than is commonly perceived and in part because, despite its massive volume, the river can contribute little to solving India’s significant water security challenges. Nonetheless, the Brahmaputra is and will continue to be intimately connected to Sino-Indian tensions largely through the use of water infrastructure investment as a form of territorial demarcation and control.

View attachment 913749
An elderly man carries a bamboo pole and a baby across a stream of the Brahmaputra river, Dholpur, India on Sept. 28, 2021. (Karan Deep Singh/The New York Times)

The Water Wars Theory and Brahmaputra Basin Realities
A simplified version of the water wars argument is that per capita water availability will drop as populations grow and water supplies remain constant. At the same time, economic growth will multiply demand as effective supplies are reduced with quality declines. Climate change will only worsen the situation. For internationally shared rivers, conflict over the vital resource will occur when some tipping point is reached, particularly if tensions over other issues are high and there is no history of institutionalizing cooperation over water through treaties or other mechanisms.

The Brahmaputra would appear to be at the top of the list of conflict hotspots. The river is shared between four states, including the world’s two most populous, China and India. Both have rapidly growing economies and both are already among the most water stressed in the world. The challenges for cooperatively managing the Brahmaputra are heightened by a changing monsoon season and melting glaciers, the complete absence of formal water sharing agreements, a limited history of even basic hydrologic data exchange and strained diplomatic relations. In addition, China has shown little interest in cooperative transboundary water management in the Brahmaputra or elsewhere. As the upstream state, China controls more than half the Brahmaputra basin’s area and is building infrastructure — in particular dams — to control water without consultation with downstream neighbors.

To understand why, despite these factors, water conflict is less likely than commonly perceived, it is important to understand the hydrology of the Brahmaputra basin and its overall context. While China controls most of the basin’s area, most of that area lies in a rain shadow, formed when monsoon winds rise over Himalayan peaks and then descend again onto the Tibetan Plateau. In contrast, the Indian, Bhutanese and Bangladeshi portions of the basin lie in some of the world’s highest precipitation areas, with rainfall consistently above 98 inches per year. In fact, the state of Meghalaya, in the Indian portion of the basin, is often referenced as the wettest place in the world, with 433 inches of annual precipitation in some areas.
View attachment 913751
Existing and planned Infrastructure on the Brahmaputra
As a result, China’s contribution to overall flow is undoubtedly lower than its share of basin area. How much lower is unclear, however, because of limited gauging stations and access to what data might exist (even within India, water data is not consistently shared between and across government levels). The result has been that both public and policy discussion about Sino-Indian water relations have relied on a limited number of poorly attributed and understood statistics. At one extreme, figures from the United Nations Food and Agriculture Organization (FAO) put China’s contribution to Brahmaputra flow at 30% while at the other anonymous Government of India sources put the figure at 7%. Both figures have been cited to support differing positions.

To provide context for such figures, we compiled data from a range of sources and computed China’s implied contribution to flow along the Brahmaputra’s course. From this work, it appears that the FAO figure is based on estimates of all Brahmaputra basin waters entering India from China (the Brahmaputra mainstem and tributaries including the Lohit and Subashiri) as a share of the Brahmaputra’s flow at Guwahati, about 75 miles from the border with Bangladesh. The Government of India’s 7% figure appears to include only water entering India from China via the Brahmaputra’s mainstem (i.e., excluding tributaries, as a percentage of all Brahmaputra flow up to the confluence of the Padma/Ganges in Bangladesh). Since China’s infrastructure development is and will continue to be limited to its mainstem waters, the 30% figure, by including flows from other tributaries, overstates China’s hydrologic advantage and potential leverage over India. In contrast, the 7% figure underestimates it, by including flows that enter the Brahmaputra in Bangladesh.

While the appropriate figure to use depends on its purpose, any focus on China’s contributions to flow detracts from an understanding of the larger context in which the Brahmaputra basin must be seen. Since the Indian portion of the basin is in one of the highest rainfall regions in the world, India has little need to draw from the river now or in the future for agriculture or other purposes. Even India’s most grandiose plans to transfer water out of the basin to more arid areas would have little impact on total flow because of the Brahmaputra’s great volume.

Given China’s limited contribution to flow and the lack of capacity for the Brahmaputra’s waters to alleviate India’s water insecurity, conflict over water per se is unlikely. Climate change is expected to intensify the hydrological cycle. In this case, as temperatures rise, precipitation is expected to increase in the basin, due to a decrease on the Tibetan Plateau (China’s portion of the basin), which is more than offset by increases elsewhere. As such, increased temperatures are expected to increase flow, reduce glacial mass within China and, eventually, lower China’s contribution to flow.

Competition Through Water Infrastructure
While the competition between China and India over the quantity of Brahmaputra water may not be significant, another form of competition is manifesting itself through water infrastructure. China’s first project in the basin was a hydropower station completed in 1998. China has since built or is planning a series of publicly discussed dams on the Brahmaputra mainstem. An additional 18 dams on mainstem tributaries have been identified with satellite imagery by the Stimson Center’s Energy, Water, and Sustainability Program and Planet Labs. Of all the additional dams under discussion, by far the most ambitious and controversial is the “Great Bend Dam,” which would divert water through a tunnel with a 6,562-foot drop, generating twice the power of China’s famed Three Gorges dam.

Even if Chinese infrastructure is not designed to withdraw water from the river, it does have the potential to impact the timing of flows, potentially increasing flood risk. But coordinated operation with India could also be a means for decreasing flood risks. The Government of India has historically downplayed risks from Chinese infrastructure, sometimes citing the minimal 7% of flow contributed by China mentioned above. However, this stance recently changed, as evidenced by a 2020 announcement by the Ministry of Water Resources to build a 10-gigawatt hydropower project on the Brahmaputra, specifically to “mitigate the adverse impact of the Chinese dam projects.” Part of the rationale was given as creating storage capacity to mitigate the negative effects of Chinese dam operations. Though framed in terms hydropower production and flood control, water infrastructure in the Brahmaputra also serves as a form of territorial demarcation and control along a contested frontier. As one Indian official stated in 2016 with respect to one of China’s dams, “The strategic value of the Lalho project lies also in the fact that Shigatse is only a few hours driving distance from the junction of Bhutan and Sikkim, and the city from which the Chinese plan to extend their railroads to Nepal.” The Great Bend Dam, if constructed, would for the first time move Chinese infrastructure off the Tibetan Plateau onto the southern slopes of the Himalaya toward the Indian state of Arunachal Pradesh, a region China calls “South Tibet.” India, for its part, would place its mega-dam near its border with China, likewise signaling control of not only water but territory. The Indian megadam is also part of larger planning begun in the early 2000s for up to 150 dams within Arunachal Pradesh.


@Skull and Bones @Raj-Hindustani @VkdIndian @INDIAPOSITIVE @LakeHawk180 @waz

Key things you need to read;

While China controls most of the basin’s area, most of that area lies in a rain shadow, formed when monsoon winds rise over Himalayan peaks and then descend again onto the Tibetan Plateau. In contrast, the Indian, Bhutanese and Bangladeshi portions of the basin lie in some of the world’s highest precipitation areas, with rainfall consistently above 98 inches per year. In fact, the state of Meghalaya, in the Indian portion of the basin, is often referenced as the wettest place in the world, with 433 inches of annual precipitation in some areas.

That is fast becoming inaccurate as climate change has had a massive impact on monsoon rains. It also doesn't negate the fact other states are in dire need of water which which this can contribute to, which makes the stress from China more pronounced.

To provide context for such figures, we compiled data from a range of sources and computed China’s implied contribution to flow along the Brahmaputra’s course. From this work, it appears that the FAO figure is based on estimates of all Brahmaputra basin waters entering India from China (the Brahmaputra mainstem and tributaries including the Lohit and Subashiri) as a share of the Brahmaputra’s flow at Guwahati, about 75 miles from the border with Bangladesh. The Government of India’s 7% figure appears to include only water entering India from China via the Brahmaputra’s mainstem (i.e., excluding tributaries, as a percentage of all Brahmaputra flow up to the confluence of the Padma/Ganges in Bangladesh). Since China’s infrastructure development is and will continue to be limited to its mainstem waters, the 30% figure, by including flows from other tributaries, overstates China’s hydrologic advantage and potential leverage over India. In contrast, the 7% figure underestimates it, by including flows that enter the Brahmaputra in Bangladesh.

So the figure is in-between, but according to him it's an estimate. It can easily be in the higher range nearing 30%.

Indian to develop two hydropower plants in Nepal as China abandons projects
View attachment 913758



India will now develop two hydropower projects in Nepal, namely West Seti Hydropower Project and the Seti River Hydropower Project, nearly 4 years after China withdrew from these. The formal agreement was signed in Kathmandu this week, according to a report by Economic Times (ET).

The total cost of these projects is expected to be around $2.4 billion. Nepal was left in a fix after two Chinese companies withdrew from the projects, after signing the MoUs with the government.

Investment Board Nepal and National Hydro Power Corporation Ltd signed MoU on August 11, to develop the two projects on the Seti River. The projects will develop a total of 1,200 MW. The projects will be spread over four districts of Bajhang, Doti, Dadeldhura, and Achham, according to ET.Prime Minister Narendra Modi and his Nepalese counterpart Sher Bahadur Deuba had earlier committed to expanding the power sector partnership. "During my recent visit to India, Prime Minister Narendra Modi and I agreed on a vision statement on cooperation in the power sector, underlining the need for strengthening mutually beneficial bilateral cooperation in this sector. Furthermore, during the visit of Prime Minister Modi ji [SIC] to Lumbini, we had a productive discussion on this matter and I invited the interested companies from India for the development of the West Seti Hydroelectric Project,” Deuba said after the deal between Nepal and India's National Hydro Power Corporation Ltd was signed last Thursday. Chinese companies have withdrawn from the West Seti Project twice. In 2009, China National Machinery and Equipment Import and Export Corporation (CMEC) signed an MoU with the government to develop the project. However, the company stepped back within two years. In 2017, China Three Gorges International Corporation set up a joint venture to develop the project. It withdrew from the project in 2018.ET further reported that Nepal can earn up to Rs 31,000 crore per year by 2030 and Rs 1 trillion per year by 2045 if it sells electricity to India by harnessing its hydropower potential.


They all depend on water from China.
The bottom line is China controls your water and the water where your projects are going.
 
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That is fast becoming inaccurate as climate change has had a massive impact on monsoon rains. It also doesn't negate the fact other states are in dire need of water which which this can contribute to, which makes the stress from China more pronounced.

So the figure is in-between, but according to him it's an estimate. It can easily be in the higher range nearing 30%.

They all depend on water from China.
The bottom line is China controls your water and the water where your projects are going.
It's important for you to read the whole article:
Given China’s limited contribution to flow and the lack of capacity for the Brahmaputra’s waters to alleviate India’s water insecurity, conflict over water per se is unlikely. Climate change is expected to intensify the hydrological cycle. In this case, as temperatures rise, precipitation is expected to increase in the basin, due to a decrease on the Tibetan Plateau (China’s portion of the basin), which is more than offset by increases elsewhere. As such, increased temperatures are expected to increase flow, reduce glacial mass within China and, eventually, lower China’s contribution to flow.
 
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It's important for you to read the whole article:
Given China’s limited contribution to flow and the lack of capacity for the Brahmaputra’s waters to alleviate India’s water insecurity, conflict over water per se is unlikely. Climate change is expected to intensify the hydrological cycle. In this case, as temperatures rise, precipitation is expected to increase in the basin, due to a decrease on the Tibetan Plateau (China’s portion of the basin), which is more than offset by increases elsewhere. As such, increased temperatures are expected to increase flow, reduce glacial mass within China and, eventually, lower China’s contribution to flow.

I have read it, you haven’t. Firstly the flow isn’t known and the author admits this. So you posting ‘small’ flow is nonsense.
Increased temperatures bring about far quicker evaporation meaning more rain will have little impact. The earth will dry up faster which is why India saw drought conditions.


It’s not just the Brahmaputra they can choke. You should think twice playing water wars as you have a bad hand….
 
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That is fast becoming inaccurate as climate change has had a massive impact on monsoon rains. It also doesn't negate the fact other states are in dire need of water which which this can contribute to, which makes the stress from China more pronounced.
What has Brahmaputra got to do with the other states?
 
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Beijing is freezing now, it doesn't feel like the temperature is getting warmer as many claimed.

微信图片_202.png
 
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It’s not just the Brahmaputra they can choke. You should think twice playing water wars as you have a bad hand….
Most of that area lies in a rain shadow formed when monsoon winds rise over Himalayan peaks and then descend again onto the Tibetan Plateau. As a result, China’s contribution to overall flow is undoubtedly lower than its share of basin area.

Since China’s infrastructure development is and will continue to be limited to its mainstem waters, the 30% figure, by including flows from other tributaries, overstates China’s hydrologic advantage and potential leverage over India.

While the appropriate figure to use depends on its purpose, any focus on China’s contributions to flow detracts from an understanding of the larger context in which the Brahmaputra basin must be seen. Since the Indian portion of the basin is in one of the highest rainfall regions in the world, India has little need to draw from the river now or in the future for agriculture or other purposes.

"Only Assam and Arunachal is dependent on the water inflows from the Brahmputra river. And this year Arunachal Pradesh, Assam, Meghalaya and Nagaland experienced rainfall in the normal range which means we have less to worry about"
Assam and Meghalaya recorded the highest June rainfall in 121 years with 858.1mm precipitation, breaking the earlier record of 789.5mm recorded in 1966
Mawsynram is the wettest place on Earth, with an annual rainfall of 11872 millimeters. This place is located in Meghalaya.

 
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Increased temperatures bring about far quicker evaporation meaning more rain will have little impact. The earth will dry up faster which is why India saw drought conditions
In India, May is the hottest month of the year. And the temperature in Arunachal Pradesh hovers between 20°C and 26°C

Assam in Summer (April - June):

The temperature averages around 30 to 35 degrees Celcius and the climate is pleasant.
 
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In India, May is the hottest month of the year. And the temperature in Arunachal Pradesh hovers between 20°C and 26°C

Assam in Summer (April - June):

The temperature averages around 30 to 35 degrees Celcius and the climate is pleasant.

Ok....

Climate change projections for Assam indicate that mean average temperature is likely to rise by 1.7-2.2 degrees Celsius by mid-century with respect to 1971-2000 (the baseline). The annual mean temperature in the state has increased by 0.59 degrees Celsius from 1951 to 2010, he said.

Mr. Mahanta said that the climate change projections in the state action plan also predict that extreme rainfall events will increase by 5-38 per cent.

All across the state, except the southern districts, droughts weeks are going to rise as well by more than 75 per cent with respect to the baseline (1971-2000), he said.


Just like I posted.

Most of that area lies in a rain shadow formed when monsoon winds rise over Himalayan peaks and then descend again onto the Tibetan Plateau. As a result, China’s contribution to overall flow is undoubtedly lower than its share of basin area.

Since China’s infrastructure development is and will continue to be limited to its mainstem waters, the 30% figure, by including flows from other tributaries, overstates China’s hydrologic advantage and potential leverage over India.

While the appropriate figure to use depends on its purpose, any focus on China’s contributions to flow detracts from an understanding of the larger context in which the Brahmaputra basin must be seen. Since the Indian portion of the basin is in one of the highest rainfall regions in the world, India has little need to draw from the river now or in the future for agriculture or other purposes.

"Only Assam and Arunachal is dependent on the water inflows from the Brahmputra river. And this year Arunachal Pradesh, Assam, Meghalaya and Nagaland experienced rainfall in the normal range which means we have less to worry about"
Assam and Meghalaya recorded the highest June rainfall in 121 years with 858.1mm precipitation, breaking the earlier record of 789.5mm recorded in 1966
Mawsynram is the wettest place on Earth, with an annual rainfall of 11872 millimeters. This place is located in Meghalaya.



An analysis of 119 years of rainfall measurements at different rain gauge stations across North East India, has revealed a decreasing trend in summer rainfall since 1973, including in rainy Meghalaya, reputed for hosting the world’s wettest place.

The study has said that the decline in rainfall is driven by changes i
n the Indian Ocean temperature and conversion of forestlands and vegetation cover to croplands in the last two decades.

Since North East India is mostly hilly and is an extension of the Indo-Gangetic Plains, the region is highly sensitive to changes in regional and global climate. Pre-monsoon and monsoon are the rainy seasons of North East India.

 
.
An analysis of 119 years of rainfall measurements at different rain gauge stations across North East India, has revealed a decreasing trend in summer rainfall since 1973, including in rainy Meghalaya, reputed for hosting the world’s wettest place.

The study has said that the decline in rainfall is driven by changes i
n the Indian Ocean temperature and conversion of forestlands and vegetation cover to croplands in the last two decades.

Since North East India is mostly hilly and is an extension of the Indo-Gangetic Plains, the region is highly sensitive to changes in regional and global climate. Pre-monsoon and monsoon are the rainy seasons of North East India.

I was talking about the record rainfall they've received in the last CY2022. On June 17th 2022, Mawsynram set a new record by receiving 1003.6 mm in a span of 24 hours which has now become its highest single day record for the month of June and for its all time single day record beating its former record of 944.7 mm on June 7th 1966.


The annual mean temperature in the state has increased by 0.59 degrees Celsius from 1951 to 2010, he said

the last two decades
The annual mean temperature in the NE state has increased by only 0.59 degrees Celsius in the last 60 years and you're portraying it as if they've turned into a Sahara desert 🤣
 
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South Asia’s Brahmaputra has been cited as one of the basins most at risk for interstate water conflict. While violent conflict has occurred between China and India within the Brahmaputra’s basin boundaries, the risks of conflict over water are in fact low. This is in part because China functionally contributes less to the Brahmaputra’s flow than is commonly perceived and in part because, despite its massive volume, the river can contribute little to solving India’s significant water security challenges. Nonetheless, the Brahmaputra is and will continue to be intimately connected to Sino-Indian tensions largely through the use of water infrastructure investment as a form of territorial demarcation and control.

View attachment 913749
An elderly man carries a bamboo pole and a baby across a stream of the Brahmaputra river, Dholpur, India on Sept. 28, 2021. (Karan Deep Singh/The New York Times)

The Water Wars Theory and Brahmaputra Basin Realities
A simplified version of the water wars argument is that per capita water availability will drop as populations grow and water supplies remain constant. At the same time, economic growth will multiply demand as effective supplies are reduced with quality declines. Climate change will only worsen the situation. For internationally shared rivers, conflict over the vital resource will occur when some tipping point is reached, particularly if tensions over other issues are high and there is no history of institutionalizing cooperation over water through treaties or other mechanisms.

The Brahmaputra would appear to be at the top of the list of conflict hotspots. The river is shared between four states, including the world’s two most populous, China and India. Both have rapidly growing economies and both are already among the most water stressed in the world. The challenges for cooperatively managing the Brahmaputra are heightened by a changing monsoon season and melting glaciers, the complete absence of formal water sharing agreements, a limited history of even basic hydrologic data exchange and strained diplomatic relations. In addition, China has shown little interest in cooperative transboundary water management in the Brahmaputra or elsewhere. As the upstream state, China controls more than half the Brahmaputra basin’s area and is building infrastructure — in particular dams — to control water without consultation with downstream neighbors.

To understand why, despite these factors, water conflict is less likely than commonly perceived, it is important to understand the hydrology of the Brahmaputra basin and its overall context. While China controls most of the basin’s area, most of that area lies in a rain shadow, formed when monsoon winds rise over Himalayan peaks and then descend again onto the Tibetan Plateau. In contrast, the Indian, Bhutanese and Bangladeshi portions of the basin lie in some of the world’s highest precipitation areas, with rainfall consistently above 98 inches per year. In fact, the state of Meghalaya, in the Indian portion of the basin, is often referenced as the wettest place in the world, with 433 inches of annual precipitation in some areas.
View attachment 913751
Existing and planned Infrastructure on the Brahmaputra
As a result, China’s contribution to overall flow is undoubtedly lower than its share of basin area. How much lower is unclear, however, because of limited gauging stations and access to what data might exist (even within India, water data is not consistently shared between and across government levels). The result has been that both public and policy discussion about Sino-Indian water relations have relied on a limited number of poorly attributed and understood statistics. At one extreme, figures from the United Nations Food and Agriculture Organization (FAO) put China’s contribution to Brahmaputra flow at 30% while at the other anonymous Government of India sources put the figure at 7%. Both figures have been cited to support differing positions.

To provide context for such figures, we compiled data from a range of sources and computed China’s implied contribution to flow along the Brahmaputra’s course. From this work, it appears that the FAO figure is based on estimates of all Brahmaputra basin waters entering India from China (the Brahmaputra mainstem and tributaries including the Lohit and Subashiri) as a share of the Brahmaputra’s flow at Guwahati, about 75 miles from the border with Bangladesh. The Government of India’s 7% figure appears to include only water entering India from China via the Brahmaputra’s mainstem (i.e., excluding tributaries, as a percentage of all Brahmaputra flow up to the confluence of the Padma/Ganges in Bangladesh). Since China’s infrastructure development is and will continue to be limited to its mainstem waters, the 30% figure, by including flows from other tributaries, overstates China’s hydrologic advantage and potential leverage over India. In contrast, the 7% figure underestimates it, by including flows that enter the Brahmaputra in Bangladesh.

While the appropriate figure to use depends on its purpose, any focus on China’s contributions to flow detracts from an understanding of the larger context in which the Brahmaputra basin must be seen. Since the Indian portion of the basin is in one of the highest rainfall regions in the world, India has little need to draw from the river now or in the future for agriculture or other purposes. Even India’s most grandiose plans to transfer water out of the basin to more arid areas would have little impact on total flow because of the Brahmaputra’s great volume.

Given China’s limited contribution to flow and the lack of capacity for the Brahmaputra’s waters to alleviate India’s water insecurity, conflict over water per se is unlikely. Climate change is expected to intensify the hydrological cycle. In this case, as temperatures rise, precipitation is expected to increase in the basin, due to a decrease on the Tibetan Plateau (China’s portion of the basin), which is more than offset by increases elsewhere. As such, increased temperatures are expected to increase flow, reduce glacial mass within China and, eventually, lower China’s contribution to flow.

Competition Through Water Infrastructure
While the competition between China and India over the quantity of Brahmaputra water may not be significant, another form of competition is manifesting itself through water infrastructure. China’s first project in the basin was a hydropower station completed in 1998. China has since built or is planning a series of publicly discussed dams on the Brahmaputra mainstem. An additional 18 dams on mainstem tributaries have been identified with satellite imagery by the Stimson Center’s Energy, Water, and Sustainability Program and Planet Labs. Of all the additional dams under discussion, by far the most ambitious and controversial is the “Great Bend Dam,” which would divert water through a tunnel with a 6,562-foot drop, generating twice the power of China’s famed Three Gorges dam.

Even if Chinese infrastructure is not designed to withdraw water from the river, it does have the potential to impact the timing of flows, potentially increasing flood risk. But coordinated operation with India could also be a means for decreasing flood risks. The Government of India has historically downplayed risks from Chinese infrastructure, sometimes citing the minimal 7% of flow contributed by China mentioned above. However, this stance recently changed, as evidenced by a 2020 announcement by the Ministry of Water Resources to build a 10-gigawatt hydropower project on the Brahmaputra, specifically to “mitigate the adverse impact of the Chinese dam projects.” Part of the rationale was given as creating storage capacity to mitigate the negative effects of Chinese dam operations. Though framed in terms hydropower production and flood control, water infrastructure in the Brahmaputra also serves as a form of territorial demarcation and control along a contested frontier. As one Indian official stated in 2016 with respect to one of China’s dams, “The strategic value of the Lalho project lies also in the fact that Shigatse is only a few hours driving distance from the junction of Bhutan and Sikkim, and the city from which the Chinese plan to extend their railroads to Nepal.” The Great Bend Dam, if constructed, would for the first time move Chinese infrastructure off the Tibetan Plateau onto the southern slopes of the Himalaya toward the Indian state of Arunachal Pradesh, a region China calls “South Tibet.” India, for its part, would place its mega-dam near its border with China, likewise signaling control of not only water but territory. The Indian megadam is also part of larger planning begun in the early 2000s for up to 150 dams within Arunachal Pradesh.


@Skull and Bones @Raj-Hindustani @VkdIndian @INDIAPOSITIVE @LakeHawk180

Dumb Indians!

China is building dams in Tibet to

1) Generate electricity needed for the PLA to invade India

2) Flood India by releasing water as needed to drown the Indian military
 
. .
An analysis of 119 years of rainfall measurements at different rain gauge stations across North East India, has revealed a decreasing trend in summer rainfall since 1973, including in rainy Meghalaya, reputed for hosting the world’s wettest place.

The study has said that the decline in rainfall is driven by changes i
n the Indian Ocean temperature and conversion of forestlands and vegetation cover to croplands in the last two decades.

Since North East India is mostly hilly and is an extension of the Indo-Gangetic Plains, the region is highly sensitive to changes in regional and global climate. Pre-monsoon and monsoon are the rainy seasons of North East India.

For northeast and east India, IMD’s normal rainfall calculated for the period from 1961 to 2010 was 1,410.4 mm which came down to 1,367.3 mm in the 1971 to 2020 period(Is it that low according to your calculations? I don't think so)
During the last year’s monsoon between June 1 and June 23, Meghalaya has recorded 150% excess rains, followed by Assam 83% and Arunachal Pradesh 25% excess rain. Northeast India used to receive large amounts or rain and comparatively it still does because the normal here is very high but we are seeing that the quantum of rainfall is increasing along the west coast now

@waz Now it has been proved once again that 🇨🇳 holding of Brahmaputra water is much lower than what it is generally perceived
 
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