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Abstract
Soil salinity and water scarcity adversely affect maize productivity. The use of biochar could enhance soil quality and increase the salt and/or drought threshold tolerance and yield of maize. Therefore, a pot experiment was conducted with three biochar addition rates of 0% (BA0), 5% (BA5), and 10% (BA10) concerning salinity stresses of 2.0 (WS2) and 5.0 dS m−1 (WS5) under deficit irrigation comprising three levels at 60% (DI60), 75% (DI75), and 100% (DI100) of the reference evapotranspiration. Compared with the BA0 rate, the BA10 rate improved soil properties and the growth, nutrient uptake, and yield of maize. The DI100 × SW2 × BA10 combination improved plant growth, providing the highest yield (257.7 g/plant) and water productivity (WP) (2.92 kg/m3) values. However, the combination DI60 × SW5 × BA0 decreased plant growth, offering the lowest yield (121.9 g/plant) and WP (1.96 kg/m3) values. While the former combination increased water and nutrient contents in the soil, the latter combination reduced their values. Considering the salt tolerance index, the yield was more tolerant to salinity stress under the BA10 rate as a 3.60% decrease in yield was detected when soil salinity exceeded the threshold value (5.56 dS/m). The drought threshold was declined from 390 L under BA0 to 280 L under BA10 rate. The study suggests that biochar could mitigate the adverse effects of deficit irrigation and salinity stress on maize growth and productivity. Thus, biochar could be used in salt-affected soils or when irrigation water is of low quality to sustain maize production.
Acknowledgments
The authors thank the National Key R&D Program of China (2018YFD0900805) on behalf of providing financial support in all experimental work.
Conflict of interest
No potential conflict of interest was reported by the authors.