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Papers
20 resultsShowing papers similar to Beneficial Functions of Soil Microbiome for Sustainable Agriculture
ClearEnhancing Soil Health and Plant Growth through Microbial Fertilizers: Mechanisms, Benefits, and Sustainable Agricultural Practices
This study examines how microbial fertilizers improve soil health by boosting beneficial microorganism populations that help plants absorb nutrients and resist disease. While not directly about microplastics, healthy soil microbial communities are important for breaking down environmental contaminants including plastics. The research supports sustainable farming practices that could help soils better cope with microplastic contamination.
Soil Health and Quality in Sustainable Agriculture
This paper is not about microplastics; it is a broad review of soil health and quality principles in sustainable agriculture.
Microplastic: Evaluating the Impact on Soil-Microbes and Plant System
This review examines how microplastics affect soil microbial communities and plant systems in agricultural settings, documenting impacts on soil health, microbial diversity, and crop physiology. As microplastics accumulate in farmland soils through irrigation, sludge application, and plastic mulches, their effects on the soil ecosystem that underpins food production are a growing concern.
Microplastics in terrestrial ecosystem: Exploring the menace to the soil-plant-microbe interactions
This review summarizes existing research on how microplastics affect the complex relationships between soil, plants, and soil microbes. Microplastics alter soil structure, change the makeup of microbial communities, and disrupt beneficial partnerships between plants and helpful fungi and bacteria. These disruptions can reduce plant growth and nutrient cycling, which could ultimately affect crop yields and the quality of food produced on microplastic-contaminated farmland.
Soil and Phytomicrobiome for Plant Disease Suppression and Management under Climate Change: A Review
This review examines how soil microorganisms can be harnessed to suppress plant diseases through farming practices like crop rotation, cover cropping, and applying beneficial microbes. While not directly about microplastics, soil health is increasingly threatened by plastic contamination, which can disrupt the microbial communities that protect crops. Understanding these plant-microbe interactions is important as microplastic pollution in agricultural soils continues to grow.
Impact of the sustainable agricultural practices for governing soil health from the perspective of a rising agri-based circular bioeconomy
This review examines sustainable farming practices for maintaining soil health and supporting a circular bioeconomy, focusing on preserving soil organic matter as the foundation of productive agriculture. Depleted soils are a growing global concern as population expansion demands more food production. While not directly about microplastics, healthy soil management is relevant because degraded soils are more vulnerable to microplastic accumulation and contamination.
Soil–plant–microplastic interactions and their ecological impacts for agricultural sustainability
This review examined soil-plant-microplastic interactions and their ecological impacts for agriculture, covering MP uptake by plant roots, effects on soil microbial communities and nutrient cycling, and implications for crop yields and food safety. The authors highlighted key uncertainties remaining about long-term terrestrial MP behavior.
Micro and nano-plastics on environmental health: a review on future thrust in agro-ecotoxicology management
This review examines the growing body of evidence on how microplastics and nanoplastics affect plant health, soil microbial communities, and agricultural productivity. The study highlights that plastic accumulation in agricultural soils can alter crop growth and yield while disrupting soil ecosystem dynamics, and calls for greater attention to agro-ecotoxicology management to address these emerging threats to food production.
Microplastic: Interaction with Agroecosystem and Microbial Remediation
This review examines the interactions between microplastics and agroecosystems, covering impacts on soil physical and chemical properties, microbial communities, and plant uptake, while also surveying microbial remediation strategies. It highlights a research gap in terrestrial and agricultural ecosystem studies relative to aquatic environments and calls for greater focus on soil microplastic dynamics.
Microplastics from agricultural mulch films: a threat to growth promoting abilities of bacteria?
Researchers tested how microplastics shed from agricultural plastic mulch films affect soil bacteria that promote plant growth, finding that mulch-derived microplastics reduced the abundance and activity of key plant growth-promoting bacteria. The results suggest agricultural plastic use could undermine soil health and crop productivity.
A Review on Soil and Phytomicrobiome for Plant Disease Management
This review examines how soil microbiomes and agricultural practices influence plant disease management, highlighting the role of beneficial microorganisms in suppressing pathogens. Researchers found that conservation tillage, crop rotation, and mulching promote microbial diversity that helps protect crops from soil-borne diseases. The study suggests that integrating microbiome-focused strategies into farming could reduce reliance on chemical pesticides while improving crop health.
Impact of microplastics on terrestrial ecosystems: A plant-centric perspective
This review focuses on how microplastics affect plants and soil health in agricultural settings, an area that has received less attention than marine microplastic pollution. The researchers describe how microplastics can alter soil structure, disrupt microbial communities, and enter plant tissues through unique transport mechanisms. The study highlights that agricultural soils are a major sink for microplastics, with potential consequences for food safety and crop productivity.
Microplastics and soil microbiomes
This review examines the two-way relationship between microplastics and soil microbiomes: how microplastics alter microbial community structure and function, and how soil microbes in turn affect the behavior of microplastics. Researchers found that microplastics can shift microbial communities and disrupt key ecosystem processes like nutrient cycling. The study also discusses how certain soil microbes may enhance the degradation of microplastics, pointing to potential natural remediation pathways.
Improving Functioning of Soil–Plant Systems Using the Application of Sustainable and Intelligent Methods
This editorial introduces a special journal issue on improving soil-plant system functioning using sustainable agricultural methods. Microplastic contamination of agricultural soils is increasingly recognized as a challenge for crop production and soil health.
Microplastics in agroecosystems: A review of effects on soil biota and key soil functions
This review examines how microplastic and nanoplastic contamination in agricultural soils affects soil organisms and ecological functions. Researchers found that plastics enter farmland through multiple pathways including plastic mulch, sewage sludge, and irrigation water, and once present they alter soil properties and exhibit toxic behavior toward soil biota. The study identifies significant knowledge gaps about the long-term impacts of microplastic accumulation on agricultural productivity and food safety.
Microbial remediation of microplastic-contaminated soil, focusing on mechanisms, benefits, and research gaps
This systematic review examines microbial bioremediation of microplastic-contaminated soils, covering the sources and distribution of soil microplastics, their physicochemical interactions with soil microbiomes, and the mechanisms by which soil-dwelling bacteria and fungi degrade plastic polymers.
Soil under stress: The importance of soil life and how it is influenced by (micro)plastic pollution
This review examines how plastic pollution in soil disrupts soil organisms and microorganisms that regulate essential ecosystem functions, finding that plastic alters soil chemistry, physical structure, and microbial communities in ways that threaten primary production and carbon cycling.
Microplastics in plant-microbes-soil system: A review on recent studies
This review examined microplastic interactions within the plant-microbe-soil system, finding that microplastics affect soil physicochemical properties, alter microbial communities, and can be taken up by plants, with implications for food safety and ecosystem health.
Impact of Microplastics in Agricultural Soil on Nutrient Recycling and Fertility
This book chapter examines how microplastic accumulation in agricultural soils disrupts nutrient cycling, affects soil microbial communities, and impairs fertility, reviewing evidence from laboratory and field studies and discussing implications for sustainable food production.
Microplastics in Soil–Plant Systems: Current Knowledge, Research Gaps, and Future Directions for Agricultural Sustainability
This review summarizes current knowledge about how microplastics affect agricultural soils and the plants growing in them, including changes to soil structure, nutrient availability, and root zone biology. Understanding how microplastics move through the soil-plant system is critical because contaminated crops are a major pathway for these particles to reach the human diet.