Abstract
BackgroundDrought is one of the most important environmental stresses that can adversely influence soil properties, plant growth, and productivity of agricultural crops including eggplant as an important vegetable crop. In recent years, the use of agricultural wastes has been reported as a beneficial and sustainable measure in soil water retention and fertility enhancement. In this study, the effect of date palm and pistachio biochar, vermicompost and a combination of biochar and vermicompost was evaluated on eggplant growth, yield and water use efficiency under deficit irrigation.Materials and methodsThe experiment was done in a split-split plot based on randomized complete block design with three replications and under open field conditions. The main plot was deficit irrigation in three levels of 100, 75 and 50% of plant water requirement (PWR), and the sub-plots were vermicompost in two levels of 0, 1500 g m−2, and biochar in three levels of 0, 500 g m−2 of the pistachio biochar and 500 g m−2 of the date palm biochar.ResultsThe results showed that soil amendment with vermicompost and pistachio biochar and 100% PWR showed the best plant growth and performance. The early crop yield was highest under pistachio biochar and 50% PWR, while the total plant yield was highest under combined application of vermicompost and pistachio biochar at 100% PWR. The plant water use efficiency was maximum under mixed application of vermicompost and pistachio biochar at 50% PWR. Application of both pistachio biochar and vermicompost at 100% PWR resulted in the highest leaf concentrations of nitrogen, phosphorus, potassium, iron and manganese. The highest levels of physiologically important stress metabolites, including malondialdehyde, guaiacol peroxidase, superoxide dismutase and catalase enzymes were found in treatments without amendments or only with vermicompost and 50% PWR.ConclusionThe results indicate that under normal and particularly water deficit conditions, vermicompost and biochar increased eggplant vegetative growth, yield and water use efficiency.
Highlights
Drought is one of the most important environmental stresses that can adversely influence soil properties, plant growth, and productivity of agricultural crops including eggplant as an important vegetable crop
The early crop yield was highest under pistachio biochar and 50% plant water requirement (PWR), while the total plant yield was highest under combined application of vermicompost and pistachio biochar at 100% PWR
Maximum shoot and root fresh weight were observed in the plots treated with 100% PWR and a mixture of pistachio biochar (PB) and VC followed by the treatment of 100% PWR and combined application of date palm biochar (DPB) and VC, and the treatment of 100% PWR and DPB alone (Fig. 1, Table 3)
Summary
Drought is one of the most important environmental stresses that can adversely influence soil properties, plant growth, and productivity of agricultural crops including eggplant as an important vegetable crop. Drought represents one of the most important environmental stresses that can negatively influence soil physiochemical and biological properties, as well as the growth and productivity of crops including eggplant [12]. In many regions in arid and semi-arid conditions, drought stress is generally associated with enhanced soil salinity and degradation mainly due to high. Addition of organic matter and soil amendments can benefit many soil characteristics including soil water retention and crop productivity. Animal manures are a significant source of the organic compounds in cropping systems that have been used since ancient times, these amendments have high electrical conductivity, and their long-term application can increase soil salinity [5, 24]
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