Enhancing soil health and crop productivity: the role of zinc-solubilizing bacteria in sustainable agriculture

Plant Growth Regulation, Journal Year: 2025, Volume and Issue: unknown

Published: March 4, 2025

Language: Английский

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A review of agricultural microbial inoculants and their carriers in bioformulation

Rhizosphere, Journal Year: 2023, Volume and Issue: 29, P. 100843 - 100843

Published: Dec. 29, 2023

Language: Английский

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Seed biopriming as a promising approach for stress tolerance and enhancement of crop productivity: a review

Journal of the Science of Food and Agriculture, Journal Year: 2023, Volume and Issue: 104(3), P. 1244 - 1257

Published: Oct. 12, 2023

Chemicals are used extensively in agriculture to increase crop production meet the nutritional needs of an expanding world population. However, their injudicious application adversely affects soil's physical, chemical and biological properties, subsequently posing a substantial threat human health global food security. Beneficial microorganisms improve plant productivity with minimal impact on environment; however, efficacy greatly relies technique. Biopriming is advantageous technique that involves treatment seeds beneficial agents. It exhibits immense potential improving physiological functioning seeds, thereby playing pivotal role uniform germination vigor. Biopriming-mediated molecular metabolic reprogramming imparts stress tolerance plants, improves health, enhances productivity. Furthermore, it also associated rehabilitating degraded land, soil fertility, nutrient cycling. Although biopriming has vast applications agricultural system, its commercialization utilization by farmers still infancy. This review aims critically analyze recent studies based biopriming-mediated mitigation alteration physiological, processes plants. Additionally, considering necessity popularizing this technique, major challenges prospects linked systems have been discussed. © 2023 Society Chemical Industry.

Language: Английский

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Tracking a Three-Membered Bacterial Consortium in the Rhizosphere of Cajanus cajan, and Its Impact in Enhancing Plant and Soil Health

Journal of soil science and plant nutrition, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 13, 2025

Language: Английский

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Effect of Various Nanofertilizers on Physiological Activities of Plants

Published: Jan. 1, 2025

Language: Английский

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Nano-bioinoculants for sustainable agriculture: Potentiality, limitations, and economic aspects

Elsevier eBooks, Journal Year: 2025, Volume and Issue: unknown, P. 117 - 144

Published: Jan. 1, 2025

Language: Английский

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Multi-omics analysis reveals the effects of three application modes of plant growth promoting microbes biofertilizer on potato (Solanum tuberosum L.) growth under alkaline loess conditions

Microbiological Research, Journal Year: 2024, Volume and Issue: 287, P. 127855 - 127855

Published: July 26, 2024

Language: Английский

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Microbial Fertilizers: A Study on the Current Scenario of Brazilian Inoculants and Future Perspectives

Plants, Journal Year: 2024, Volume and Issue: 13(16), P. 2246 - 2246

Published: Aug. 13, 2024

The increasing need for sustainable agricultural practices, combined with the demand enhanced crop productivity, has led to a growing interest in utilizing microorganisms biocontrol of diseases and pests, as well growth promotion. In Brazilian agriculture, use plant growth-promoting rhizobacteria (PGPR) fungi (PGPF) become increasingly prevalent, corresponding rise number registered microbial inoculants each year. PGPR PGPF occupy diverse niches within rhizosphere, playing crucial role soil nutrient cycling influencing wide range physiological processes. This review examines primary mechanisms employed by these agents promote growth, strategy co-inoculation enhance product efficacy. Furthermore, we provide comprehensive analysis currently available Brazil, detailing accessible major crops, discuss market’s prospects research development novel products light current challenges faced coming years.

Language: Английский

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Root Rot Management in Common Bean (Phaseolus vulgaris L.) Through Integrated Biocontrol Strategies using Metabolites from Trichoderma harzianum, Serratia marcescens, and Vermicompost Tea

Microbial Ecology, Journal Year: 2024, Volume and Issue: 87(1)

Published: July 15, 2024

Common bean (Phaseolus vulgaris L.) is an essential food staple and source of income for small-holder farmers across Africa. However, yields are greatly threatened by fungal diseases like root rot induced Rhizoctonia solani. This study aimed to evaluate integrated approach utilizing vermicompost tea (VCT) antagonistic microbes effective sustainable management R. solani in common beans. Fourteen strains were first isolated from infected plants collected three Egyptian governorates, with being the most virulent isolate 50% dominance. Subsequently, potential (VCT), Serratia sp., Trichoderma sp. was assessed against this destructive pathogen. Combinations 10% VCT biocontrol agent isolates displayed potent inhibition growth vitro, prompting planta testing. Under greenhouse conditions, applications 5 or marcescens, harzianum, microorganisms (EM1) afforded up 95% protection pre- post-emergence damping-off cv. Giza 6. Similarly, under field combining EM1 (VCT + EM1) harzianum harzianum) substantially suppressed disease severity 65.6% 64.34%, respectively, relative untreated plants. These treatments also elicited defense enzyme activity distinctly improved parameters including 136.68% 132.49% increases pod weight per plant over control GC-MS profiling extracts revealed unique compounds dominated cyclic pregnane, fatty acid methyl esters, linoleic derivatives, free acids oleic, palmitic, stearic confirmed growth-promoting activities. The results verify VCT-mediated delivery synergistic microbial consortia as a platform debilitating soil-borne diseases, enhancing productivity incomes smallholder through regeneration soil health. Further large-scale validation can pave adoption climate-resilient securing nutrition security.

Language: Английский

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The Mitigation of Phytopathogens in Wheat under Current and Future Climate Change Scenarios: Next-Generation Microbial Inoculants

Sustainability, Journal Year: 2023, Volume and Issue: 15(21), P. 15250 - 15250

Published: Oct. 25, 2023

Wheat production worldwide faces numerous challenges linked to climate change, exponential population growth, nutrient depletion in agricultural soils, and the increasing threat of phytopathogen occurrence. The application beneficial microorganisms is a promising strategy for crop management as it favorizes uptake, improves soil fertility, increases plant resilience. Therefore, this approach facilitates transition more sustainable practices while reducing dependence on agrochemicals. valuable impacts bioinoculant include enrichment soils’ ecosystems by restoring microbial populations interactions that have been lost through years due decades intensive massive pesticides. Furthermore, constitute remarkable tool combating biotic threats, specifically fungal pathogens, whose proliferation emergence are predicted increase global warming. To optimize their impact, development requires an extensive study with plants surrounding ecosystem, improve composition, mode action, stability application. use innovative tools, such omic sciences, elucidation these mechanisms. Finally, bioprospection bioformulation must be consciously executed guarantee persistence adapted and/or bioactive molecules.

Language: Английский

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