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Sutlej

Coordinates: 29°23′23″N 71°3′42″E / 29.38972°N 71.06167°E / 29.38972; 71.06167
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Sutlej
View of Sutlej River
Map
Interactive Map
Location
CountryChina, India, Pakistan
StateTibet, Himachal Pradesh, Punjab (India), Punjab (Pakistan)
CitiesKalpa, Ludhiana, Vehari, Jallah Jeem, Bahawalpur
Physical characteristics
SourceManasarovar-Rakas Lakes
 • locationTibet
 • coordinates29°23′23″N 71°3′42″E / 29.38972°N 71.06167°E / 29.38972; 71.06167
 • elevation4,575 m (15,010 ft)
MouthConfluence with Chenab to form the Panjnad River
 • location
Near Khairpur, Bahawalpur district, Punjab, Pakistan
 • coordinates
29°23′23″N 71°3′42″E / 29.38972°N 71.06167°E / 29.38972; 71.06167
 • elevation
102 m (335 ft)
Length1,450 km (900 mi) approx.
Basin size395,000 km2 (153,000 sq mi)approx.
Discharge 
 • locationRopar[1]
 • average500 m3/s (18,000 cu ft/s)
Discharge 
 • locationPanjnad, Confluence of Chenab (71 km upstream of mouth)
 • average2,946.66 m3/s (104,060 cu ft/s)[2] 63.613 km3/a (2,015.8 m3/s)
Basin features
Tributaries 
 • leftBaspa
 • rightSpiti, Beas, Chenab

The Sutlej River (/ˈsʌtlə/) is the longest of the five rivers that flow through the historic crossroads region of Punjab in northern India and Pakistan. The Sutlej River is also known as Satadru.[3] It is the easternmost tributary of the Indus River. The Bhakra Dam is built around the river Sutlej to provide irrigation and other facilities to the states of Punjab, Rajasthan and Haryana.

The waters of the Sutlej are allocated to India under the Indus Waters Treaty between India and Pakistan, and are mostly diverted to irrigation canals in India like the Sirhind Canal, Bhakra Main Line and the Rajasthan canal.[4] The mean annual flow is 14 million acre feet (MAF) (roughly 1.727 × 1013 L) upstream of Ropar barrage, downstream of the Bhakra dam.[5] It has several major hydroelectric points, including the 1,325 MW Bhakra Dam, the 1,000 MW Karcham Wangtoo Hydroelectric Plant, and the 1,500 MW Nathpa Jhakri Dam.[6][unreliable source?] The drainage basin in India includes the states and union territories of Himachal Pradesh, Punjab, Ladakh and Haryana.[7][8]

Course

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The source of the Sutlej is west of the catchment area of Lake Rakshastal in Tibet, as springs in an ephemeral stream. Lake Rakshastal used to be part of the Sutlej river basin long ago and separated from the Sutlej due to tectonic activity. The nascent river flows at first west-northwest for about 260 kilometres (160 mi) under the Tibetan name Langqên Zangbo (Elephant River or Elephant Spring) to the Shipki La pass, entering India in Himachal Pradesh state. It then has its main knee heading west-southwest for about 360 kilometres (220 mi) to meet the Beas River near Harike, Tarn Taran district, Punjab state. Ropar Wetland in Punjab state is located on the Sutlej river basin. Evidence suggests Indus Valley civilisation also flourished here. Ungti Chu and Pare Chu rivers which drain the southeastern part of Ladakh are tributaries of Sutlej river.[8][9]

Continuing west-southwest, the Sutlej enters Pakistan about 15 kilometres (9.3 mi) east of Bhedian Kalan, Kasur District, Punjab province, continuing southwest to water the ancient and historical former Bahawalpur princely state.[citation needed] Few centuries ago, Sutlej river was merging with the Ghaggar river to discharge in to the Arabian sea. In approx. 1797 BC, the course of the Sutlej river moved towards the north to join the Beas river.[10]

About 17 kilometres (11 mi) north of Uch Sharif, the Sutlej unites with the Chenab River, forming the Panjnad River, which finally flows into the Indus river about 100 kilometres (62 mi) west of the city of Bahawalpur. The area to the southeast on the Pakistani side of the Indian border is called the Cholistan Desert and, on the Indian side, the Thar Desert.[citation needed]

The Indus then flows through a gorge near Sukkur and the fertile plains region of Sindh, forming a large delta region between the border of Gujarat, India and Pakistan, finally terminating in the Arabian Sea near the port city of Karachi, Pakistan. During floods, Indus river water flows into the Indian part of the Great Rann of Kutch. Thus Gujarat state of India is also a riparian state of the Indus river as the Rann of Kutch area lying west of Kori Creek in the state is part of the Indus River Delta.[11]

Puranic Mention and Etymology

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In the Chaitra-Ratha Parva of Adi Parva of Mahābhārata, when sage Vasishtha wanted to commit suicide he saw the river named Haimāvata (whose source is Himavat), flooded and full of crocodiles and other aquatic monsters. So he jumped into the river. The river thinking that Vasishtha was a mass of unquenchable fire dilated itself and flew in a hundred different directions. Henceforth the river was named śatadra (or śatadru) which means the river of a hundred courses. So, Vasishtha landed on dry land and was unharmed.[12]

Langqên Zangbo

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Langqên Zangbo
朗钦藏布
The Langqên Tsangpo (Sutlej River) seen from Tsaparang, Ngari, Tibet
Native nameགླང་ཆེན་གཙང་པོ (Standard Tibetan)
Location
CountryChina
StateTibet
RegionNgari Prefecture
Physical characteristics
Source 
 • locationChina
Length309 km (192 mi)
Basin features
River systemSutlej

Langqên Zangbo (Tibetan: གླང་ཆེན་གཙང་པོ, Wylie: glang chen gtsang po; Chinese: 朗钦藏布; pinyin: Lǎngqīn Zàngbù) is a river in Ngari, Tibet, China. The name Langqên, Tibetan for "elephant", is because of a valley that resembles an elephant trunk. This river is the main source of the Sutlej, a tributary of Indus River. It enters India at Shipki La pass. The source is south of Gangdise Range, in Ngari Prefecture. Its course is mainly in the Zanda County. The river drains an area of 22,760 km2 (8,790 sq mi), and covers a length of 309 km (192 mi). The drop in height is 3,256 m (10,682 ft). Historically, the river was the centre of the Zhangzhung Kingdom until its fall in the 8th century AD.

Geology

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Sutlej is an antecedent river, which existed before the Himalayas and entrenched itself while they were rising. The Sutlej, along with all of the Punjab rivers, is thought to have drained east into the Ganges prior to 5 mya.[13]

There is substantial geologic evidence to indicate that prior to 1700 BC, and perhaps much earlier, the Sutlej was an important tributary of the Ghaggar-Hakra River (thought to be the legendary Sarasvati River) rather than the Indus, with various authors putting the redirection from 2500 to 2000 BC,[14] from 5000 to 3000 BC,[15] or before 8000 BC.[16] Geologists believe that tectonic activity created elevation changes which redirected the flow of Sutlej from the southeast to the southwest.[17][citation needed] If the diversion of the river occurred recently (about 4000 years ago), it may have been responsible for the Ghaggar-Hakra (Saraswati) drying up, causing desertification of Cholistan and the eastern part of the modern state of Sindh, and the abandonment of Harappan settlements along the Ghaggar. However, the Sutlej may have already been captured by the Indus thousands of years earlier.[citation needed]

There is some evidence that the high rate of erosion caused by the modern Sutlej River has influenced the local faulting and rapidly exhumed rocks above Rampur.[18] This would be similar to, but on a much smaller scale than, the exhumation of rocks by the Indus River in Nanga Parbat, Pakistan. The Sutlej River also exposes a double inverted metamorphic gradient.[19]

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There has been a proposal to build a 214-kilometre (133 mi) long heavy freight and irrigation canal, to be known as the Sutlej-Yamuna Link (SYL) to connect the Sutlej and Yamuna rivers.[20] The project is intended to connect the Ganges, which flows to the east coast of the subcontinent, with points west, via Pakistan. When completed, the SYL would enable inland shipping from India's east coast to its west coast (on the Arabian sea) without having to round the southern tip of India by sea, vastly shortening shipping distances, alleviating pressures on seaports, avoiding sea hazards, creating business opportunities along the route, raising real estate values, raising tax revenue, and establishing important commercial links and providing jobs for north-central India's large population. However, the proposal has met with obstacles and has been referred to the Supreme Court of India. To augment nearly 100 tmcft (some 2.832 × 1012 L) water availability for the needs of this link canal, Tso Moriri lake/Lingdi Nadi (a tributary of Tso Moriri lake) waters can be diverted to the Sutlej basin by digging a 10 km=long gravity canal to connect to the Ungti Chu river.[8]

History

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The Upper Sutlej Valley, called Langqên Zangbo in Tibet, was once known as the Garuda Valley by the Zhangzhung, the ancient civilization of western Tibet. The Garuda Valley was the centre of their empire, which stretched many miles into the nearby Himalayas. The Zhangzhung built a towering palace in the Upper Sutlej Valley called Kyunglung, the ruins of which still exist today near the village of Moincêr, southwest of Mount Kailash (Mount Ti-se). Eventually, the Zhangzhung were conquered by the Tibetan Empire. The Sutlej River also formed the eastern boundary of the Sikh Empire under Maharajah Ranjit Singh.Parganah Hakkarah

Today, the Sutlej Valley is inhabited by nomadic descendants of the Zhangzhung, who live in tiny villages of yak herders.[citation needed]

The Sutlej was the main medium of transportation for the kings of that time. In the early 18th century, it was used to transport devdar woods for Bilaspur district, Hamirpur district, and other places along the Sutlej's banks.[citation needed]

Of four rivers (Indus, Sutlej, Brahmaputra and Karnali/Ganges) mythically flowing out of holy Lake Manasarovar, the Sutlej is actually connected by channels that are dry most of the time. Earlier the river was also called Shutudri or Zaradros river.[21]

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See also

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References

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  1. ^ "Sutlej valley". The Free Dictionary.
  2. ^ "Rivers Network". 2020. Archived from the original on 8 August 2022. Retrieved 10 March 2022.
  3. ^ Asiatic Society of Bengal (1848). Journal of the Asiatic Society of Bengal, Volume 17, Part 1. p. 210, paragraph two.
  4. ^ "Bhakra Beas Management Board". wrmin.nic.in. Archived from the original on 31 August 2005.
  5. ^ "Page 290, The Ravi- Beas Water Tribunal Report (1987)" (PDF). Central Water Commission. Retrieved 15 February 2020.
  6. ^ "Nathpa Jhakri Hydroelectric Power Project, India". power-technology.com. Retrieved 14 May 2011.
  7. ^ "Lower Sutlej basin area" (PDF). Archived from the original (PDF) on 4 September 2018. Retrieved 14 May 2017.
  8. ^ a b c "WRIS geo-visualization map". Archived from the original on 13 June 2017. Retrieved 17 January 2017.
  9. ^ "Upper Sutlej basin area" (PDF). Archived from the original (PDF) on 7 January 2018.
  10. ^ "Page 60, The Ravi- Beas Water Tribunal Report (1987)" (PDF). Central Water Commission. Retrieved 15 February 2020.
  11. ^ "Evolution of the Delta, the LBOD outfall system and the Badin dhands - chapters 3 & 4" (PDF). Retrieved 22 December 2015.
  12. ^ Pratap Chandra Roy's Mahabharata Adi Parva, Chaitra-Ratha Parva Page:509
  13. ^ Clift, Peter D.; Blusztajn, Jerzy (15 December 2005). "Reorganization of the western Himalayan river system after five million years ago". Nature. 438 (7070): 1001–1003. Bibcode:2005Natur.438.1001C. doi:10.1038/nature04379. PMID 16355221. S2CID 4427250.
  14. ^ Mughal, M. R. Ancient Cholistan. Archaeology and Architecture. Rawalpindi-Lahore-Karachi: Ferozsons 1997, 2004
  15. ^ Valdiya, K. S., in Dynamic Geology, Educational monographs published by J. N. Centre for Advanced Studies, Bangalore, University Press (Hyderabad), 1998.
  16. ^ * Clift et al. 2012. "U-Pb zircon dating evidence for a Pleistocene Sarasvati River and capture of the Yamuna River." Geology, v. 40. [1]
  17. ^ K.S. Valdiya. 2013. "The River Saraswati was a Himalayan-born river". Current Science 104 (01). [2]
  18. ^ Thiede, Rasmus; Arrowsmith, J. Ramón; Bookhagen, Bodo; McWilliams, Michael O.; Sobel, Edward R.; Strecker, Manfred R. (August 2005). "From tectonically to erosionally controlled development of the Himalayan orogen". Geology. 33 (8): 689–692. doi:10.1130/G21483AR.1.
  19. ^ Grasemann, Bernhard; Fritz, Harry; Vannay, Jean-Claude (July 1999). "Quantitative kinematic flow analysis from the Main Central Thrust Zone (NW-Himalaya, India): implications for a decelerating strain path and the extrustion of orogenic wedges". Journal of Structural Geology. 21 (7): 837–853. Bibcode:1999JSG....21..837G. doi:10.1016/S0191-8141(99)00077-2.
  20. ^ http://india.gov.in/sectors/water_resources/sutlej_link.php Sutlej-Yamuna Link
  21. ^ "Sutlej River | river, Asia | Britannica".
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