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Green Synthesized Silver Nanoparticles: A Novel Approach for the Enhanced Growth and Yield of Tomato against Early Blight Disease

Madeeha Ansari, Shakil Ahmed, Asim Abbasi, Najwa A. Hamad, Hayssam M. Ali, Muhammad Tajammal Khan, Inzamam Ul Haq, Qamar Zaman

2023Microorganisms59 citationsDOIOpen Access PDF

Abstract

, which results in significant yield losses. Silver nanoparticles (AgNPs) have gained popularity recently due to their potential antifungal activity. The present study investigated the potential of green synthesized silver nanoparticles (AgNPs) for enhancing the growth and yield of tomato plants and their resistance against early blight disease. AgNPs were synthesized using leaf extract of the neem tree. Tomato plants treated with AgNPs showed a significant increase in plant height (30%), number of leaves, fresh weight (45%), and dry weight (40%) compared to the control plants. Moreover, the AgNP-treated plants exhibited a significant reduction in disease severity index (DSI) (73%) and disease incidence (DI) (69%) compared to the control plants. Tomato plants treated with 5 and 10 ppm AgNPs reached their maximum levels of photosynthetic pigments and increased the accumulation of certain secondary metabolites compared to the control group. AgNP treatment improved stress tolerance in tomato plants as indicated by higher activities of antioxidant enzymes such as PO (60%), PPO (65%), PAL (65.5%), SOD (65.3%), CAT (53.8%), and APX (73%). These results suggest that using green synthesized AgNPs is a promising approach for enhancing the growth and yield of tomato plants and protecting them against early blight disease. Overall, the findings demonstrate the potential of nanotechnology-based solutions for sustainable agriculture and food security.

Topics & Concepts

Alternaria solaniBlightSilver nanoparticleHorticulturePlant disease resistanceAPXBiologyRhizoctonia solaniAgronomyAntioxidantNanoparticleMaterials scienceSuperoxide dismutaseGeneNanotechnologyBiochemistryNanoparticles: synthesis and applicationsPlant responses to elevated CO2Leaf Properties and Growth Measurement
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