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Analysis of hydroclimatic variability and adequacy of channel flows in an arid zone of Pakistan

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dc.contributor.advisor Rajapakse, RLHL
dc.contributor.author Rashid, S
dc.date.accessioned 2019
dc.date.available 2019
dc.date.issued 2019
dc.identifier.citation Rashid, S. (2019). Analysis of hydroclimatic variability and adequacy of channel flows in an arid zone of Pakistan [Master’s theses, University of Moratuwa]. Institutional Repository University of Moratuwa. http://dl.lib.uom.lk/handle/123/16376
dc.identifier.uri http://dl.lib.uom.lk/handle/123/16376
dc.description.abstract Water is becoming progressively scarce and effective usage of accessible supplies is of major concern. Globally, 15% ~ 21% of the water allocated for irrigation is lost due to poor management and non-optimized conveyance practices. Pakistan is an agricultural country which hosts one of the world’s largest irrigation networks, Indus Basin Irrigation System (IBIS). The system has been found to operate with an irrigation efficiency of a mere 35% ~ 50% which is abysmally low. It is thus vital to oversee the proper management of this scarce resource while limiting the losses within the system. The selected Hakra canal covers an irrigated area of 2031 km2 with a 92 km of total length and lies in the semi-arid region in Punjab, Pakistan. The aim of the present study is to evaluate the competence of the available irrigation channel flows to meet actual Crop Water Requirement (CWR) and variations in availability with climatic irregularities. For the detailed analysis of hydroclimatic variability and channel flow adequacy, data of daily channel flows and climatic parameters were obtained for the period of 2010~2017 while monthly rainfall data from 1978~2017 was used for long-term trend analysis. The CWR was estimated using CROPWAT 8.0. Observed deficit in supply is provided by groundwater abstraction and was estimated using root zone water balance approach. Mann-Kendall and the Sen's slope tests were used to detect the possible trend and its magnitude. An upstream rainfed basin is selected and used for the verification of observed climatic variations. Trend analysis depicted an increase in annual rainfall from 1978~2017 over the region with the estimated contribution of 13% to irrigation supply. Irrigation supplies are the dominating source of water and highly fluctuating. The seasonal shortfall has shown a variation of 7%~26% in Rabi season and 71% ~78% in Kharif season. Further analysis of data revealed an increasing trend in the maximum and minimum temperature values especially in the months where rainfall has also shown an increase i.e. June and September. The observed climatic variability in the downstream of IBIS is highly reliant on hydrological behaviour of upstream catchments. Four parameter ‘abcd’ lumped model with incorporated snow parameter ‘m’ for icy catchment is used to sensibly screen and verify the reaction of a catchment under the climate change scenario by evaluating the changes in hydrological processes. The better understanding of meteorological and hydrological conditions of the study area helped proper investigation and imitation of the actual situation. Unreliable supply of water in the irrigation system along with variability in climatic factors i.e. precipitation and temperature would disturb the dynamics of hydrological water cycle hampering crop yield. It would elevate the maximum soil moisture deficit that results in crop failure or low yield. en_US
dc.language.iso en en_US
dc.subject CIVIL ENGINEERING-Dissertations en_US
dc.subject WATER RESOURCES ENGINEERING AND MANAGEMENT-Dissertations en_US
dc.subject IRRIGATION-Pakistan en_US
dc.subject CANALS-Pakistan en_US
dc.subject HAKRA CANAL en_US
dc.subject FLOW OF FLUIDS-Channel Flow en_US
dc.subject CROP WATER REQUIREMENT-Pakistan en_US
dc.subject CROP ROTATION en_US
dc.subject AGRICULTURE en_US
dc.title Analysis of hydroclimatic variability and adequacy of channel flows in an arid zone of Pakistan en_US
dc.type Thesis-Full-text en_US
dc.identifier.faculty Engineering en_US
dc.identifier.degree MSc in Water Resource Engineering and Management en_US
dc.identifier.department Department of Civil Engineering - Madenjeet Singh Centre en_US
dc.date.accept 2019
dc.identifier.accno TH4192 en_US


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