101066 Evaluation of the Quality of Diverted Water from the Red Bayou for Irrigation in Northwest Louisiana.

Poster Number 463-636

See more from this Division: SSSA Division: Soil and Water Management and Conservation
See more from this Session: Soil Management Impacts on Soil Properties and Soil C and N Dynamics Poster II

Wednesday, November 9, 2016
Phoenix Convention Center North, Exhibit Hall CDE

Changyoon Jeong, Red River Research Station, AgCenter, Louisiana State University, Bossier City, LA, Ernest Girouard, Rice Research Station, AgCenter, Louisiana State University, Rayne, LA, Hasan Addullah, Dept. of Agroforestry and Environment, Bangabandhu Sheikh Mujibur Rahman Agricultural University, Gazipur, Bangladesh and Hyun-Hwoi Ku, Red River Research Station, AgCenter, LSU Agricultural Center - Baton Rouge, Bossier City, LA
Abstract:
The diverted water systems conserve irrigation water supplies by enabling the capture and reuse for agricultural production. The Red Bayou project was initiated by the American Recovery and Reinvestment Act (ARRA) of 2009 in Gilliam, LA. Thus, the local communities collaborated to divert water from the Red River to the Red Bayou to facilitate the use of an alternative source of irrigation water. Although reliable supplemental irrigation water could extend irrigated agricultural acreages, in-depth research is required to understand the seasonal water quality changes and salinity impact on irrigated agricultural lands during irrigation. Our specific objectives are to monitor water quality parameters of seasonal variation and bioavailable forms from the diverted water, and evaluate the quality of diverted water on soil health and crop yields. Irrigation water quality from the Red Bayou was monitored weekly as a regular base sample and occasionally after a rain event. The measured salinity of irrigation water from the Red Bayou ranged between 596 and 1,057µS/cm, showed a seasonal variation, and was subjected to weather influence and local agricultural activities. Soil samples were collected at cotton fields of two different soil types (sandy and clay type) at the beginning of the crop season, and nutrient concentrations were measured. The average values of C and N were 1.25 % and 0.11 % in clay soil type and 0.49 % and 0.064% in sandy soil type, respectively. Carbon and nitrogen accumulated more at the beginning points in both cotton fields of sandy and clay soil types. Electrical conductivity (EC) in sandy soil was slightly higher at the end of down-slope compared to the beginning of the irrigation point in the field. However, the measured EC in clay soil was 1.6 time higher at the beginning of irrigation point than the spot at the end of down-slope.

See more from this Division: SSSA Division: Soil and Water Management and Conservation
See more from this Session: Soil Management Impacts on Soil Properties and Soil C and N Dynamics Poster II

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