Litcius/Paper detail

Integrating partial root-zone drying and saline water irrigation to sustain sunflower production in freshwater-scarce regions

Moazam Khaleghi, Farzad Hassanpour, Fatemeh Karandish, Ali Shahnazari

2020Agricultural Water Management17 citationsDOIOpen Access PDF

Abstract

Applying saline water resources for irrigating croplands requires serious attentions when sustainable agriculture is considered. A two-year field investigation was carried out in a drip-irrigated sunflower field under six irrigation treatments, including (i) full freshwater irrigation (FI), full irrigation with diluted seawater (DS) (SI), alternate DS-freshwater irrigation (FSI), freshwater-PRD (partial root-zone drying) irrigation with 25 % less water than full (PRD1), DS-PRD irrigation with 25 % less water than full (PRD2), alternate DS-freshwater irrigation under PRD with 25 % less water than full (PRD3), in three replicates. Compared to the FI treatment, crop yield was reduced by 3.1–32 %, with the lowest one under PRD1. Among the DS treatments, PRD3, resulted in the highest grain yield (4306 kg ha−1), grain nitrogen content (2.83 %), oil yield (1907 kg ha−1) and irrigation water productivity (1.10). PRD3 also saved freshwater by 20 %, and kept soil salinity of the rooting-zone below the maximum crop tolerance threshold. Based on the results, PRD3 might be a cost-effective pathway which guarantees the sustainable application of diluted seawater in the irrigated sunflower lands.

Topics & Concepts

IrrigationEnvironmental scienceSaline waterAgronomySalinitySunflowerSoil salinitySeawaterSoil waterBiologySoil scienceEcologySunflower and Safflower CultivationIrrigation Practices and Water ManagementPlant responses to water stress