Growth, Evapotranspiration, and Ion Uptake Characteristics of Alfalfa and Triticale Irrigated with Brackish Groundwater and Desalination Concentrate

Persistent drought, low snowfall, and low rainfall have reduced availability of fresh water for irrigating agricultural crops in many arid and semi-arid regions of the world. Brackish groundwater (electrical conductivity; EC > 3 dSm−1) is increasingly used for irrigation in New Mexico. This study...

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Bibliographic Details
Published in:Agronomy (Basel) 2019-11, Vol.9 (12), p.789
Main Authors: Kankarla, Vanaja, Shukla, Manoj K., VanLeeuwen, Dawn, Schutte, Brian J., Picchioni, Geno A.
Format: Article
Language:English
Subjects:
Agricultural production
Alfalfa
Arid regions
Arid zones
Biomass
brackish groundwater (bgw)
Calcium ions
Calcium sequestration
Crops
Deep percolation
Desalination
Drinking water
Drought
Electrical conductivity
Electrical resistivity
Evapotranspiration
evapotranspiration (et)
Farm buildings
Flowering
Fresh water
Groundwater
Groundwater irrigation
Halophytes
Ion concentration
Irrigation
Laboratories
Livestock
Medicago sativa
Percolation
Plant growth
Rainfall
Reverse osmosis
reverse osmosis (ro)
Salinity
Salinity effects
Salinity tolerance
Salt
Seeds
Semi arid areas
Semiarid lands
Shoots
Sodium
Sodium chloride
Soil conditions
Species
Toxicity
Triticale
Triticosecale
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Summary:Persistent drought, low snowfall, and low rainfall have reduced availability of fresh water for irrigating agricultural crops in many arid and semi-arid regions of the world. Brackish groundwater (electrical conductivity; EC > 3 dSm−1) is increasingly used for irrigation in New Mexico. This study investigates the effect of ion uptake from brackish groundwater and concentrate irrigation on the performance of two forage species, alfalfa (Medicago sativa) and triticale (×Triticosecale), in sand soils in greenhouse conditions. Two simultaneous experiments were run for 90 days using tap water (control; 0.7 dSm−1), brackish groundwater (BGW; 4 dSm−1), reverse osmosis concentrate (RO; 8 dSm−1, Ca2+ dominant), and BGW plus sodium chloride (BGW + NaCl; 8 dSm−1, Na+ dominant). BGW + NaCl irrigation significantly reduced the evapotranspiration (ET) of both the species. Deep percolation (DP) increased significantly with RO and BGW + NaCl irrigation in alfalfa but only with BGW + NaCl irrigation in triticale. Alfalfa plant growth decreased with increasing salinity, while triticale plants followed an opposite trend. ET continued to decrease with increasing salinity for both species. Na+ dominant (BGW + NaCl) irrigation produced robust growth and early flowering and ear head formation in triticale. Na+ ion concentration in shoots was above 0.66%, which led to reduced alfalfa growth, while more than 1.22% did not decrease triticale growth or biomass. Increased Ca2+ sequestration in alfalfa played a crucial role in reducing Na+ ion toxicity. Species performance primarily confirmed that alfalfa is moderately salt-tolerant while triticale is confirmed to be a halophyte producing abundant growth and biomass with higher Na+ uptake. Triticale proved to be a promising species for reuse of RO concentrate for agriculture in marginal lands.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy9120789