The potential of Pseudomonas spp. as sustainable bioinoculants for enhancing maize growth and integrated management of drought and Fusarium verticillioides stress
Khethiwe Ndlazi, Siyabonga Ntshalintshali, Lungelo Buthelezi, Ashwil Klein, Marshall Keyster, Mbukeni Nkomo, Arun Gokul

TL;DR
This paper reviews how Pseudomonas bacteria can help maize plants withstand drought and a fungal infection, offering a sustainable solution to boost crop yields and safety.
Contribution
The paper introduces Pseudomonas spp. as a dual-purpose bioinoculant for mitigating both drought and Fusarium stress in maize.
Findings
Pseudomonas spp. improve maize resilience by enhancing nutrient uptake and antioxidant defenses.
These bacteria suppress Fusarium verticillioides through antifungal compounds and systemic resistance.
Combined stress studies on Pseudomonas are limited, highlighting a need for further research.
Abstract
The review highlights PGPR (e.g., Pseudomonas spp.) as sustainable, low-cost solution to mitigate drought and Fusarium stress in maize, enhancing yield and resilience. Maize (Zea mays L.) is a vital staple crop worldwide, yet its productivity is under growing pressure from the combined effects of drought and Fusarium verticillioides infection. These stresses often occur together, compounding the damage. Drought limits water availability, disrupts nutrient uptake, and slows photosynthesis, while also making plants more vulnerable to disease. In turn, F. verticillioides harms plant tissues, contaminates grain with fumonisins, and can further intensify water stress. Conventional approaches such as irrigation, fungicides, and resistant cultivars often fall short when both stresses occur simultaneously. In recent years, plant growth-promoting rhizobacteria (PGPR), particularly Pseudomonas…
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Taxonomy
TopicsPlant-Microbe Interactions and Immunity · Polymer-Based Agricultural Enhancements · Plant Growth Enhancement Techniques
