Research Topic: sustainable agriculture

Development and Transfer of Microbial Agrobiotechnologies in Contrasting Agrosystems: Experience of Kazakhstan and China

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Microbial consortia—communities of beneficial microorganisms—offer promising solutions to modern agriculture’s challenges by enhancing plant growth, improving stress tolerance, and restoring soil health. China has successfully integrated these microbial products into farming through strong government support and research infrastructure, while Kazakhstan has the scientific knowledge but faces funding and implementation challenges. This comparative study shows that adopting these technologies requires both scientific advancement and practical support systems tailored to each country’s specific needs.

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Biochemical, physicochemical property and archaea community characteristics in casing soil of cultivating Stropharia rugosoannulata

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This study examined how soil changes during the five growth stages of king stropharia mushrooms. Researchers measured soil properties, enzyme activity, and identified archaeal microorganisms present in the soil. They found that soil chemistry and microbial communities changed predictably during mushroom development, with certain beneficial archaea being more active at specific growth stages. These findings can help farmers optimize growing conditions and reduce contamination problems in mushroom production.

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Effects of Spent Mushroom Substrate Treated with Plant Growth-Promoting Rhizobacteria on Blueberry Growth and Soil Quality

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This study shows that mushroom farming waste (spent mushroom substrate) can be recycled into a beneficial fertilizer by treating it with beneficial bacteria called plant growth-promoting rhizobacteria. When this treated waste is used to grow blueberries, the plants grow better with higher survival rates and produce more chlorophyll. The treatment also improves soil quality by making nutrients more available to plants and changing the beneficial microorganism community in the soil.

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Dual benefits of Lysinibacillus xylanilyticus strain GIC41 in mitigating Pythium root rot and enhancing plant growth across cultivation systems

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Scientists tested a bacteria strain called Lysinibacillus xylanilyticus (GIC41) to fight a destructive plant disease called Pythium root rot. In both soil and water-based growing systems, this bacteria significantly reduced disease symptoms in spinach and tomato plants while also making the plants grow bigger and stronger. The bacteria works by producing enzymes and possibly triggering the plant’s natural defenses, without directly poisoning the disease-causing pathogen.

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Recent Advances and Developments in Bacterial Endophyte Identification and Application: A 20-Year Landscape Review

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Bacterial endophytes are beneficial bacteria living inside plants that help them grow stronger, resist diseases, and even clean up polluted soil. Scientists have studied these helpful microbes for 20 years and discovered they can be identified using both traditional laboratory methods and advanced DNA technologies. These bacteria show promise for making farming more sustainable by reducing the need for chemical pesticides and helping crops survive droughts and other stressors.

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Impact of Artemisia argyi and Stevia rebaudiana substrate composition on the nutritional quality, yield and mycelial growth of L. edodes addressing future food challenges

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This study shows that shiitake mushrooms can be grown on agricultural waste materials like wormwood and stevia instead of traditional sawdust. Using 45% wormwood or 30% stevia in the growing substrate improved both the mushroom yield and their nutritional content, including important compounds with health benefits. These findings suggest environmentally friendly and sustainable alternatives for mushroom farming that reduce reliance on wood resources while maintaining or improving food quality.

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Actinomycetes isolated from rhizosphere of wild Coffea arabica L. showed strong biocontrol activities against coffee wilt disease

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Researchers discovered that certain bacteria called actinomycetes, particularly a strain called MUA26, can effectively fight coffee wilt disease, a serious fungal infection that damages coffee plants. These beneficial bacteria produce natural compounds that kill the disease-causing fungus and were tested on coffee seedlings in a greenhouse, showing 83% effectiveness at preventing the disease. This discovery offers coffee farmers an organic alternative to chemical pesticides, which are expensive and harmful to the environment.

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Isolation and Identification of Endophytic Bacterium B5 from Mentha haplocalyx Briq. and Its Biocontrol Mechanisms Against Alternaria alternata-Induced Tobacco Brown Spot

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Scientists discovered a beneficial bacterium called Bacillus velezensis in mint plants that can fight tobacco brown spot disease caused by a fungus. This bacterium works by producing natural antifungal compounds and enzymes that damage the fungus, and it helps boost the plant’s own defense systems. In greenhouse tests, this bacterial treatment was as effective as commercial chemical fungicides, offering farmers a safer, more environmentally friendly option for protecting their tobacco crops.

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Essential Oils as an Antifungal Alternative for the Control of Various Species of Fungi Isolated from Musa paradisiaca: Part I

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Researchers tested six common cooking and medicinal herbs in oil form to see if they could kill fungi that damage bananas after harvest. Cinnamon oil was the most effective, successfully stopping all five types of harmful fungi at relatively low concentrations. The findings suggest these natural oils could replace harsh chemical fungicides used to preserve bananas during storage and transport, making banana production more environmentally friendly.

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