Alternate use of fresh and saline waters to improve water productivity and soil sustainability of drip irrigated wheat in a semi-arid region

Alternate use of fresh and saline waters to improve water productivity and soil sustainability of drip irrigated wheat in a semi-arid region

Severe problems of rising groundwater and secondary soil salinization demand holistic agricultural water management in canal command areas. Drip irrigation with alternate use of fresh and saline waters is an excellent irrigation approach to mitigate salinity stress caused by highly saline ground wat...

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Bibliographic Details
Published in:Arid land research and management Vol. 38; no. 4; pp. 571 - 590
Main Authors: Vibhute, Sagar D., Chinchmalatpure, Anil R., T. V., Vineeth, Kumar, Shrvan, Gorain, Bisweswar, Prasad, Indivar, Camus, D. David, Shukla, Monika
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 01-10-2024
Taylor & Francis Ltd
Subjects:
Agricultural management
Alternate drip irrigation
Arid zones
Border irrigation
Canals
conjunctive use
Crop yield
Drip irrigation
Electrical resistivity
Fresh water
Freshwater
Grain
Groundwater
Groundwater quality
Hazard mitigation
Inland water environment
Irrigation
micro-irrigation
Productivity
Saline groundwater
Saline soils
Salinity
Salinity effects
Salinization
Semi arid areas
Semiarid lands
Soil improvement
Soil salinity
Soil salinization
Soil stresses
Soil water
Surface water
Water conservation
Water management
water productivity
Water quality
Wheat
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Summary:Severe problems of rising groundwater and secondary soil salinization demand holistic agricultural water management in canal command areas. Drip irrigation with alternate use of fresh and saline waters is an excellent irrigation approach to mitigate salinity stress caused by highly saline ground water and also to avoid soil sodicity hazards from canal water. Therefore, a study on cyclic mode conjunctive use of good quality surface water (SW) and highly saline ground water (GW) having average electric conductivity 0.3 and 7.6 dS m −1 , respectively was carried out in wheat with five treatments of drip viz. 1SW1GW (1:1 :: SW:GW), 1SW2GW (1:2 :: SW:GW), 2SW1GW (2:1 :: SW:GW), SW (all SW), GW (all GW), and one treatment of conventional border ­irrigation method (BI). Highest grain yield was observed in SW (2.99 t ha −1 ) in 2017-2018 and BI (3.83 t ha −1 ) in 2018-2019 season. However, yield of SW and BI were statistically at par in both seasons. Grain yield of 1SW1GW, in which only 50% freshwater was used was found statistically at par with SW and BI. Physical Water Productivity was highest for SW, amounting 9.34 and 14.13 kg ha −1 .mm −1 during 2017-2018 and 2018-2019, respectively. Soil salinity build up was highest for GW and lowest for SW, whereas it was almost similar for BI and 1SW1GW. Thus, 1SW1GW showed added benefits as its grain yield was statistically at par with SW and BI along with 50% fresh water saving over SW and higher water productivity than BI for similar salinity levels.
ISSN:1532-4982
1532-4990
DOI:10.1080/15324982.2024.2349876