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| {{Short description|Barrage on the Indus in Sindh province, Pakistan}} | |||
| {{Infobox waterlock | {{Infobox waterlock | ||
| |name = Sukkur Barrage | |name = Sukkur Barrage | ||
| |native_name = '''سکر بئراج'''<br/>{{nq| |
|native_name = '''سکر بئراج'''<br/>{{nq|سکھر بیراج}} | ||
| |image = File:Sukkur Barrage in daylight.jpg | |image = File:Sukkur Barrage in daylight.jpg | ||
| |caption = | |caption = Sukkur Barrage Photo from Upstream side | ||
| |waterway = ] | |waterway = ] | ||
| |country = {{flagicon|Pakistan}} ] | |country = {{flagicon|Pakistan}} ] | ||
| |province = ] | |province = ] | ||
| |maint = Sindh Irrigation & Power Department |
|maint = Sindh Irrigation & Power Department | ||
| |operation = Hydraulic | |operation = Hydraulic | ||
| |first = 1932 | |first = 1932 | ||
| Line 31: | Line 32: | ||
| }} | }} | ||
| '''Sukkur Barrage''' ({{ |
'''Sukkur Barrage''' ({{langx|sd|سکر بئراج}}, {{langx|ur|{{nq|سکھر بیراج}}}}) is a ] on the ] near the city of ] in the ] province of ]. The barrage was built during the ] from 1923 to 1932 and was named '''Lloyd Barrage'''. The Sukkur Barrage, is the pride of Pakistan's irrigation system as it is the largest single irrigation network of its kind in the world. It irrigates from ] district in the north, to ]/] and ] districts in the south of ], almost all parts of the province.<ref name=DT/> It is situated about {{convert|300|mi|km|sigfig=1|abbr=off|order=flip}} northeast of Karachi, {{convert|3|mi|km|0|abbr=off|order=flip}} below the railway bridge, or the Sukkur Gorge. The introduction of barrage-controlled irrigation system resulted in more timely water supplies for the existing cultivated areas of ] province of ].<ref name=DT>{{cite news|agency=Associated Press of Pakistan|url=http://www.dailytimes.com.pk/default.asp?page=story_27-3-2005_pg7_28 |archiveurl=https://web.archive.org/web/20121022173955/http://www.dailytimes.com.pk/default.asp?page=story_27-3-2005_pg7_28 |title=Musharraf praises army for rehabilitating Sukkur barrage|date=27 March 2005|archive-date=22 October 2012|newspaper=Daily Times (newspaper)|access-date=15 January 2021}}</ref> | ||
| ==History== | ==History== | ||
| ] survives almost entirely on the water of the ] as there is very limited groundwater available. Rainfall in the province averages between 100 and 200 mm per year, while the evaporation rate is between 1,000 and 2,000 mm. Thus, Sindh is arid and it is only the Indus which irrigates otherwise barren lands of Sindh. Regular surveys have not been carried out to assess the availability of groundwater in the province. Various sources estimate that its volume is between three and five MAF scattered in 28 per cent of the geographical area of Sindh. However, some experts suggest it to be less than these estimates. This water is found mainly along the Indus water channels and in the few natural underground streams.<ref> The Express Tribune > Opinion By Nasir Ali Panhwar Published: January 3, 2014</ref> | ] survives almost entirely on the water of the ] as there is very limited groundwater available. Rainfall in the province averages between 100 and 200 mm per year, while the evaporation rate is between 1,000 and 2,000 mm. Thus, Sindh is arid and it is only the Indus which irrigates otherwise barren lands of Sindh. Regular surveys have not been carried out to assess the availability of groundwater in the province. Various sources estimate that its volume is between three and five MAF scattered in 28 per cent of the geographical area of Sindh. However, some experts suggest it to be less than these estimates. This water is found mainly along the Indus water channels and in the few natural underground streams.<ref> The Express Tribune > Opinion By Nasir Ali Panhwar Published: January 3, 2014</ref> | ||
| ⚫ | The idea of Sukkur Barrage was conceived by Mr. C.A. Fife, in 1868. However, the project was finally sanctioned in 1923. It was constructed under the overall direction of ], ], as chief engineer, while ], CIE, was the architect and engineer of the scheme.<ref> The Express Tribune > Pakistan > Sindh By Sarfaraz Memon Published: February 15, 2014</ref> The Head Works and Canals were completed by 1932. On its completion it was opened by ], ]. The scheme had been launched by the ], ] (later known as Lord Lloyd), and it was named in his honour. Pandurang K Shinde offered his engineering services, who was later responsible for ] in ], ], Syed Ghulam Mustafa of the Imperial Service also played an instrumental role in the design and construction of the barrage.Legendary Indian civil engineer M.Vishveswaraya lent his services for the development of the waterworks. | ||
| ⚫ | To revitalise its water storage capacity and distribution efficiency, the ] embarked upon a massive rehabilitation work of Sukkur Barrage. The work was started by ] and ] (FWO) on 22 November 2004, and was completed ahead of the deadline in July 2005,<ref name=DT/> with the cost of just 15 million US$ (US dollars). Experts believe that the rehabilitation of the barrage has enhanced its efficiency for another 60 to 70 years.<ref name=DT/> | ||
| ⚫ | The idea of Sukkur Barrage was conceived by Mr. C.A. Fife, in 1868. However, the project was finally sanctioned in 1923. It was constructed under the overall direction of ], ], as chief engineer, while ], CIE, was the architect and engineer of the scheme.<ref> The Express Tribune > Pakistan > Sindh By Sarfaraz Memon Published: February 15, 2014</ref> The Head Works and Canals were completed by 1932. On its completion it was opened by |
||
| ⚫ | To revitalise its water storage capacity and distribution efficiency, the ] embarked upon a massive rehabilitation work of Sukkur Barrage. The work was started by ] and ] (FWO) on 22 November 2004, and was completed ahead of the deadline in July 2005, with the cost of just 15 million US$ (US dollars). Experts believe that the rehabilitation of the barrage has enhanced its efficiency for another 60 to 70 years.<ref |
||
| ] | ] | ||
| ==Functioning== | ==Functioning== | ||
| Sukkur Barrage is used to control water flow in the ] for the purposes of irrigation and flood control. This barrage which is the backbone of the economy of the entire country enables water to flow through what was originally a network of seven canals {{convert|6166|mi|km|order=flip}} long, feeding the largest ] system in the world, with more than 7.63 million acres of irrigated land which forms about 25% of total canal irrigated area of the country. The retaining wall of the barrage has 66 spans (outfall gates), each {{convert|60|ft|m|order=flip}} wide and weighing 50 tons. | Sukkur Barrage is used to control water flow in the ] for the purposes of irrigation and flood control. This barrage which is the backbone of the economy of the entire country enables water to flow through what was originally a network of seven canals {{convert|6166|mi|km|order=flip}} long, feeding the largest ] system in the world, with more than 7.63 million acres of irrigated land which forms about 25% of total canal irrigated area of the country. The retaining wall of the barrage has 66 spans (outfall gates), each {{convert|60|ft|m|order=flip}} wide and weighing 50 tons. | ||
| The ] which is one of the seven canals off taking from this barrage is the longest canal of this country, carrying discharge almost equal to that of |
The ] which is one of the seven canals off taking from this barrage is the longest canal of this country, carrying discharge almost equal to that of the River Thames at London and its bed width which is {{convert|346|ft|m|order=flip}} and {{frac|1|1|2}} times as big as the Suez Canal. In fact Nara Canal is not a man-made canal as it was the southernmost part of Hakro River which emanated from the foothills of Sutlej which after traversing through the Punjab and Bhawalpur plains joined Nara through Raini River, the remnants of which are still exiting in ] District of Sindh Province. This canal caters for an area of {{convert|2300000|acre|ha|order=flip}}. | ||
| The next largest canal is ] Canal which though slightly shorter in length than Nara Canal is yet taking discharge much more than the former. It has cultivable area of {{convert|2600000|acre|ha|order=flip}} settled for irrigation. Cotton, wheat and sugar-cane are the main crops grown on this canal system. All the four canals on the left and two canals on the right bank of River Indus are perennial canals, delivering irrigation supplies all the year round. The seventh canal namely, Rice Canal on the right side is a seasonal canal which flows only in ] and is designed for rice cultivation. The N.W. Canal on the right bank provides perennial irrigation for an area of {{convert|965000|acre|ha|order=flip}} out of which {{convert|184000|acre|ha|order=flip}} are situated in ] province. |
The next largest canal is ] Canal which though slightly shorter in length than Nara Canal is yet taking discharge much more than the former. It has cultivable area of {{convert|2600000|acre|ha|order=flip}} settled for irrigation. Cotton, wheat and sugar-cane are the main crops grown on this canal system. All the four canals on the left and two canals on the right bank of River Indus are perennial canals, delivering irrigation supplies all the year round. The seventh canal namely, Rice Canal on the right side is a seasonal canal which flows only in ] and is designed for rice cultivation. The N.W. Canal on the right bank provides perennial irrigation for an area of {{convert|965000|acre|ha|order=flip}} out of which {{convert|184000|acre|ha|order=flip}} are situated in ] province. | ||
| ==Wildlife== | ==Wildlife== | ||
| ]s are |
]s are usually seen upstream of the barrage. | ||
| ==See also== | ==See also== | ||
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| {{Reflist}} | {{Reflist}} | ||
| {{Pakistani |
{{Pakistani water locks}} | ||
| {{Indus River dams}} | {{Indus River dams}} | ||
| {{Authority control}} | |||
| ] | ] | ||
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| ] | ] | ||
| ] | ] | ||
| {{Asia-dam-stub}} | |||
| {{Pakistan-struct-stub}} | |||
Latest revision as of 11:09, 26 October 2024
Barrage on the Indus in Sindh province, Pakistan| Sukkur Barrage | |
|---|---|
| سکر بئراج سکھر بیراج | |
 Sukkur Barrage Photo from Upstream side | |
| 27°40′50″N 68°50′43″E / 27.68056°N 68.84528°E / 27.68056; 68.84528 | |
| Waterway | Indus River |
| Country |  Pakistan |
| Province | Sindh |
| Maintained by | Sindh Irrigation & Power Department |
| Operation | Hydraulic |
| First built | 1932 |
| Latest built | Rehabilitated in November 2004 |
| Length | Approximately 2 km (1 mi) |
| Discharge capacity 1.15 million cusec(cubic feet per second) | |
Sukkur Barrage (Sindhi: سکر بئراج, Urdu: سکھر بیراج) is a barrage on the River Indus near the city of Sukkur in the Sindh province of Pakistan. The barrage was built during the British Raj from 1923 to 1932 and was named Lloyd Barrage. The Sukkur Barrage, is the pride of Pakistan's irrigation system as it is the largest single irrigation network of its kind in the world. It irrigates from Sukkur district in the north, to Mirpurkhas/Tharparkar and Hyderabad districts in the south of Sindh, almost all parts of the province. It is situated about 500 kilometres (300 miles) northeast of Karachi, 5 kilometres (3 miles) below the railway bridge, or the Sukkur Gorge. The introduction of barrage-controlled irrigation system resulted in more timely water supplies for the existing cultivated areas of Sindh province of Pakistan.
History
Sindh survives almost entirely on the water of the River Indus as there is very limited groundwater available. Rainfall in the province averages between 100 and 200 mm per year, while the evaporation rate is between 1,000 and 2,000 mm. Thus, Sindh is arid and it is only the Indus which irrigates otherwise barren lands of Sindh. Regular surveys have not been carried out to assess the availability of groundwater in the province. Various sources estimate that its volume is between three and five MAF scattered in 28 per cent of the geographical area of Sindh. However, some experts suggest it to be less than these estimates. This water is found mainly along the Indus water channels and in the few natural underground streams. The idea of Sukkur Barrage was conceived by Mr. C.A. Fife, in 1868. However, the project was finally sanctioned in 1923. It was constructed under the overall direction of Sir Charlton Harrison, CIE, as chief engineer, while Sir Arnold Musto, CIE, was the architect and engineer of the scheme. The Head Works and Canals were completed by 1932. On its completion it was opened by The 1st Earl of Willingdon, Viceroy of India. The scheme had been launched by the Governor of Bombay, Sir George Lloyd (later known as Lord Lloyd), and it was named in his honour. Pandurang K Shinde offered his engineering services, who was later responsible for Radhanagari Dam in Maharashtra, India, Syed Ghulam Mustafa of the Imperial Service also played an instrumental role in the design and construction of the barrage.Legendary Indian civil engineer M.Vishveswaraya lent his services for the development of the waterworks.
To revitalise its water storage capacity and distribution efficiency, the Government of Pakistan embarked upon a massive rehabilitation work of Sukkur Barrage. The work was started by Pakistan Army Engineering Corps and Frontier Works Organisation (FWO) on 22 November 2004, and was completed ahead of the deadline in July 2005, with the cost of just 15 million US$ (US dollars). Experts believe that the rehabilitation of the barrage has enhanced its efficiency for another 60 to 70 years.
.jpg)
Functioning
Sukkur Barrage is used to control water flow in the River Indus for the purposes of irrigation and flood control. This barrage which is the backbone of the economy of the entire country enables water to flow through what was originally a network of seven canals 9,923 kilometres (6,166 mi) long, feeding the largest irrigation system in the world, with more than 7.63 million acres of irrigated land which forms about 25% of total canal irrigated area of the country. The retaining wall of the barrage has 66 spans (outfall gates), each 18 metres (60 ft) wide and weighing 50 tons.
The Nara Canal which is one of the seven canals off taking from this barrage is the longest canal of this country, carrying discharge almost equal to that of the River Thames at London and its bed width which is 105 metres (346 ft) and 1+1⁄2 times as big as the Suez Canal. In fact Nara Canal is not a man-made canal as it was the southernmost part of Hakro River which emanated from the foothills of Sutlej which after traversing through the Punjab and Bhawalpur plains joined Nara through Raini River, the remnants of which are still exiting in Ghotki District of Sindh Province. This canal caters for an area of 930,000 hectares (2,300,000 acres).
The next largest canal is Rohri Canal which though slightly shorter in length than Nara Canal is yet taking discharge much more than the former. It has cultivable area of 1,100,000 hectares (2,600,000 acres) settled for irrigation. Cotton, wheat and sugar-cane are the main crops grown on this canal system. All the four canals on the left and two canals on the right bank of River Indus are perennial canals, delivering irrigation supplies all the year round. The seventh canal namely, Rice Canal on the right side is a seasonal canal which flows only in kharif season and is designed for rice cultivation. The N.W. Canal on the right bank provides perennial irrigation for an area of 391,000 hectares (965,000 acres) out of which 74,000 hectares (184,000 acres) are situated in Baluchistan province.
Wildlife
Indus river dolphins are usually seen upstream of the barrage.
See also
References
- Ghori, Habib Khan (28 November 2015). "Sindh CM approves Rs12.6bn Sukkur barrage rehabilitation project". DAWN.COM. Karachi. Retrieved 29 April 2017.
- ^ "Musharraf praises army for rehabilitating Sukkur barrage". Daily Times (newspaper). Associated Press of Pakistan. 27 March 2005. Archived from the original on 22 October 2012. Retrieved 15 January 2021.
- The future of Sukkur Barrage The Express Tribune > Opinion By Nasir Ali Panhwar Published: January 3, 2014
- Renovated: Museum takes visitors on a walk through Sukkur Barrage history The Express Tribune > Pakistan > Sindh By Sarfaraz Memon Published: February 15, 2014
| Barrages and headworks in Pakistan | |
|---|---|
| Indus River | |
| Jhelum River | |
| Chenab River | |
| Ravi River | |
| Sutlej River | |
| Panjnad River | |
| Swat River | |
| Dams on the Indus River | |
|---|---|
