Bacteria-Premised Nanobiopesticides for the Management of Phytopathogens and Pests

Padmakumar, Ananya; Chowdary, P Ranadheer; Eswar, Kalyani; Kong, Lingxue; Yang, Wenrong; Gopalakrishnan, S.; Cahill, David M.; Rengan, Aravind Kumar

doi:10.1021/acsagscitech.3c00025

Cited by 6 publications

(3 citation statements)

References 166 publications

(246 reference statements)

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“…A. Gorczyca et al (2021) and A. Padmakumar et al (2023) concluded that the undoubted prospects for the development and widespread use of nanotechnology lie in the fact that nanoparticles of biogenic metals have extremely high activity and sizes corresponding to the size of living cells, contribute to an increase in yields, gross yields of crops and product quality; increase the efficiency of nutrient use and their intended use, and have a positive effect on reducing the toxicological burden on the environment due to a significant reduction in the gross volume of fertilizer and pesticide application. In addition, according to T. El-Saadony et al (2021), nanoparticles in fertilizers are more reactive, able to penetrate the epidermis, providing gradual release and targeted distribution, and therefore reducing excess nutrients, increasing their use efficiency, are crucial in reducing abiotic stress and heavy metal toxicity.…”

Section: Discussionmentioning

confidence: 95%

Untitled

2023

plant

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Section: Discussionmentioning

confidence: 95%

Untitled

2023

plant

View full text Add to dashboard Cite

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“…Gorczyca et al (2021) and A. Padmakumar et al (2023) concluded that the undoubted prospects for the development and widespread use of nanotechnology lie in the fact that nanoparticles of biogenic metals have extremely high activity and sizes corresponding to the size of living cells, contribute to an increase in yields, gross yields of crops and product quality; increase the efficiency of nutrient use and their intended use, and have a positive effect on reducing the toxicological burden on the environment due to a significant reduction in the gross volume of fertilizer and pesticide application. In addition, according to T. El-Saadony et al (2021), nanoparticles in fertilizers are more reactive, able to penetrate the epidermis, providing gradual release and targeted distribution, and therefore reducing excess nutrients, increasing their use efficiency, are crucial in reducing abiotic stress and heavy metal toxicity.…”

Section: Introductionmentioning

confidence: 99%

Efficiency of the compensatory scheme of using Organic Acid Nano-Complex microfertilizers in spring wheat cultivation technology

Kalenska,

Novytska,

Kalenskyi

et al. 2023

plant

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In recent years, significant advances in nanotechnology have increased the ability to produce nanoparticles of physiologically important metals on a large scale, which are now used to improve fertilizer formulations to increase uptake by plant cells and minimize nutrient losses. Fertilizers with nanostructure can increase the efficiency of nutrient use through mechanisms such as targeted delivery, slow or controlled release. The aim of the research is to substantiate a compensatory scheme for the use of biodynamic nanofertilizers (nanocomplex micronutrient fertilizers with organic acids) by partially replacing the main macrofertilizers in the spring wheat fertilization system. The research was conducted on the basis of the educational and scientific laboratory Department of Plant Industry of the National University of Life and Environmental Sciences of Ukraine. In research, there were used the methods of field experiments of A.O. Rozhkov, notching method and scanning method for determination of leaf surface area. The studies showed that it is possible to replace within 30-40% of the recommended amount of mineral fertilizers with biodynamic nanofertilizers in the spring wheat fertilization system. In general, the use of nanofertilizers increased wheat growth and improved yield and yield components. Substitution of mineral fertilizers, Innoparmis Agroscience Biodynamic fertilizers, provides a more favourable 86-88% survival rate of spring wheat plants during the growing season. By replacing 34% of the recommended rate of mineral fertilizers, the content of photosynthetic pigments in wheat leaves increases by 5% and the leaf surface area increases by 7%. The created compensatory schemes for the use of biodynamic nanofertilizers by partial (34% in the wheat fertilization system) replacement of the main macronutrients can increase the yield of spring wheat by 9.9%. The proven possibility of replacing mineral fertilizers with biodynamic nanofertilizers in the fertilization system of agricultural crops will reduce environmental pollution and the economic dependency of using mineral fertilizers against the background of their rapid increase in price in recent years

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“…A very recent paper by Ristroph et al on novel scalable nanocarrier formulations for pesticides has quickly received a large number of views. Examples of other papers on nanomaterials relevant for pesticide formulations are as follows: sustainable nanomaterial approaches to essential oil delivery for disease prevention in soy; pesticide formulation processes using polymeric nanoparticles; metal–organic frameworks for controlled release insecticide formulations; utilizing plant virus nanoparticles as delivery vehicles in soil; and bacteria-based nanobiopesticides for plant disease management . Other examples of novel applications that have been published this year are smart gene delivery systems for plants using amine-functionalized carbon dots, nitrogen-doped carbon dots to address drought stress in maize, and nanoparticles doped with micronutrients and P to reduce nutrient leaching to groundwater .…”

mentioning

confidence: 99%