Effects of Shallow Saline Groundwater Table Depth and Evaporative Flux on Soil Salinity Dynamics using Hydrus-1D

PDF / 3,391,840 Bytes
11 Pages / 595.276 x 790.866 pts Page_size
96 Downloads / 196 Views

FULL-LENGTH RESEARCH ARTICLE

Effects of Shallow Saline Groundwater Table Depth and Evaporative Flux on Soil Salinity Dynamics using Hydrus-1D Bhaskar Narjary1 D. K. Sharma1

•

Satyendra Kumar1 • Murli Dhar Meena1,2 • S. K. Kamra1

•

Received: 18 April 2020 / Accepted: 29 August 2020 Ó NAAS (National Academy of Agricultural Sciences) 2020

Abstract Soil salinization is a major environmental problem and critical concern in arid and semiarid regions. Hydrus-1D model was used to simulate effects of shallow saline groundwater table depth and evaporative flux on soil salinity movement in a saline environment. After successful calibration and validation with recorded soil moisture and soil salinity data, the model was used to evaluate two hypothetical scenarios for managing soil salinity, i.e., with 5 groundwater table depths (WTD) (WTD as on 2015, 25% and 50% rise; 25% and 50% decline in WTD based on the 2015 reference depth) and 3 different evaporative flux conditions (25, 50 and 75% reduction in evaporative flux). The model was calibrated, validated and run for scenarios with 2015 weather and WTD condition for the periods of 288 days. During calibration periods, root mean square error (RMSE) value of soil moisture content was 0.023 cm3 cm-3 and for soil salinity was 2.58 dS m-1, while during validation period RMSE of 0.023 cm3 cm-3 and 1.5 dS m-1, respectively, was recorded for soil moisture and soil salinity. Simulation results indicated that summer season (March to May, 60–150 Julian days) is the most important time to control soil salinity in this region. Considerable upward salt movement occurred during this period with 25 and 50% rise in groundwater table depth. Average root zone soil salinity increased by 6 and 12 dS m-1 when WTD raised by 25 and 50%, respectively, but negligible change in soil salinity was observed when groundwater table declined by 25 and 50%. The effective way to control this upward salt movement was reducing evaporative demands. Simulation study indicated that reducing evaporative flux of 25, 50 and 75% reduced profile soil salinity by 3.53, 6.95 and 12.38 dS m-1, respectively, during peak summer period. Keywords Soil salinity Shallow saline groundwater Hydrus 1-D Evaporative flux

Introduction Rapid development of irrigation infrastructure without considering optimum implementation of drainage measures has caused rise in the groundwater table and consequent widespread waterlogging and salinization in several arid and semiarid regions in the World [26]. Waterlogging, soil and groundwater salinity are serious environmental & Bhaskar Narjary [email protected] 1

ICAR-Central Soil Salinity Research Institute, Karnal, India

2

Present Address: ICAR-Directorate of Rapeseed and Mustard Research, Bharatpur, India

impediments which adversely affect the crop yield, soil health and socioeconomic well-being of the farming community. In India, nearly 6.73 million (M) ha area is occupied by salt-affected soils out of which saline soils occupy 2.96 M ha, including1.75 M ha of inland sa

Data Loading...

Effects of Shallow Saline Groundwater Table Depth and Evaporative Flux on Soil Salinity Dynamics using Hydrus-1D

Recommend Documents

Effects of Stemflow on Soil Water Dynamics in Forest Stands

Groundwater Flux, Travel Time, and Radionuclide Transport

The effect of shallow depth tunnelling on aboveground constructions

Evaluating the Effect of Groundwater Table on Summer Maize Growth Using the AquaCrop Model

Soil Salinity under Irrigation Processes and Management

Using SPEI in predicting water table dynamics in Argentinian plains

Estimation of Soil Salinity Under Various Soil Moisture Conditions Using Laboratory Based Thermal Infrared Spectra

Assignment of Groundwater Table in Liquefaction Analysis of Soils

Effects of Fe 3+ on Dissolution Dynamics of Carbonate Rocks in a Shallow Burial Reservoir

Saline Soil-based Agriculture by Halotolerant Microorganisms

Estimation of total dissolved solids, electrical conductivity, salinity and groundwater levels using novel learning mach

Effects of Volatilization on Groundwater Chemistry