Biofertilizer and Bioherbicide Potential of Microalgae-Based Wastewater and Diplotaxis harra Boiss for Sustainable Barley Production
2025
Ghofrane Jmii | Chema Keffala | Jesús G. Zorrilla | Fouad Zouhir | Hugues Jupsin | Ameni Mokhtar | Bernard Tychon
The dual benefit of wastewater and microalgal biomass is a major advantage of high-rate algal ponds, enabling the environmental valorization of these byproducts. This research explored the effect of treated wastewater on the agri-food species Hordeum vulgare (L.) and its associated weed, Emex spinosa (L.) Campd., along with the effects of algal biomass (primarily composed of Closterium, Chlorella, and Scenedesmus spp.) and Diplotaxis harra leaf powder. Initial pot trials applied microalgae and D. harra at 2, 4, and 6 g·:kg&minus:1 soil, also confirming that the treated wastewater met reuse standards and did not affect plant growth. The combined treatment at 4 g·:kg&minus:1 led to the highest H. vulgare increases in fresh weight (162.71%), root length (73.75%), and shoot length (72.87%), while reducing E. spinosa shoot and root lengths by 30.79% and 52.18%, and fresh weight by 68.24%. Subsequent field experiments using 1.26 t ha&minus:1 of 0.5-cm-applied D. harra and microalgae powders enhanced H. vulgare growth, while reducing the growth of E. spinosa. The reduction in E. spinosa growth was associated with increased electrolyte leakage and malondialdehyde content. These results support the integration of high-rate algal ponds into agriculture, promoting water reuse and reducing reliance on synthetic fertilizers and herbicides in barley production.
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