Abstract
Introducing alternative cultivars with enhanced water use efficiencies can help alleviate pressure on groundwater for crop irrigations in Mississippi (MS) Delta. A two-year field study was conducted in 2019–2020 to compare the water use efficiencies (WUE) of recently released and pre-released soybean {Glycine max (L.) Merr.} cultivars in maturity group (MG) III (‘P37A78’, ‘LG03-4561-14’), IV (‘Dyna-gro 4516x’, ‘DS25-1, DT97-4290’), and V (‘S12-1362’, ‘S14-16306’) in the MS Delta. The experimental design was a split-plot with cultivar as the first factor and the second factor was water variant irrigation (IR) and no irrigation (RF, rainfed), replicated three times. The MG IV cultivar Dyna-gro 4516x recorded the highest grain yield and WUE: grain yields were 4.58 Mg ha−1 and 3.89 Mg ha−1 under IR and RF, respectively in 2019, and 4.74 Mg ha−1 and 4.35 Mg ha−1 in 2020. The WUE were 7.2 and 6.9 kg ha−1 mm−1, respectively, in 2019 under IR and RF, and 13.4 and 16.9 kg ha−1 mm−1 in 2020. The data reveals that ‘Dyna-gro 4516x’ (MG IV), ‘LG03-4561-14’ (MG III), and ‘P37A78’ (MG III) are best adapted to the early soybean production system (ESPS) in MS Delta region for sustainable production for conserving water resources.
Highlights
We evaluated the water use efficiencies (WUE) and grain yield returns of seven such soybean cultivars grown under rainfed (RF) and irrigated (IR) water management scenarios
The heavy rainfalls led to four flooding events during the 2019 crop season, which spread across both the vegetative and reproductive phases
Introducing alternative cultivars with enhanced irrigation water use efficiencies can help ease some pressure on the Mississippi River Valley Alluvial Aquifer (MRVAA) aquifer for supporting irrigated crop production in the region
Summary
Soybean (Glycine max (L.) Merr.) is the most widely grown legume and a major protein source for humans and animals. It was grown on 125.5 Mha with a production of 358 Mtons during 2018–2019 [1]. The crop’s sustainable production is significantly impacted by abiotic stresses such as moisture deficit, elevated temperature, and flooding or waterlogging and biotic stresses such as anthracnose, bacterial blight, and charcoal rot diseases [2]. In some areas in the lower Mississippi (MS) Delta of the US, flooding is a major constraint limiting the productivity and yield stability of soybean, with many field studies reporting yield declines between 24% and 50% [3]
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