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61,005 resultsShowing papers similar to The combined rhizoremediation by a triad: plant-microorganism-functional materials
ClearEffects of micro and nanoplastics on plant-assisted bioremediation for contaminated soil recovery: A review
This review examines how the growing presence of micro- and nanoplastics in contaminated soils affects plant-assisted bioremediation, finding that microplastics disrupt the plant-microbe rhizosphere interactions that make phytoremediation effective for removing heavy metals and degrading organic pollutants.
Phytoremediation of Co-Contaminated Environments: A Review of Microplastic and Heavy Metal/Organic Pollutant Interactions and Plant-Based Removal Approaches
This review examined how microplastics interact with heavy metals and organic pollutants in soil and how plants can be used to clean up these mixed contamination scenarios. Researchers found that microplastics can either increase or decrease the toxicity of co-pollutants depending on their chemical properties, and emerging approaches like genetically modified plants and microbial partnerships show promise for improving cleanup efforts.
‘OMICS’ Studies on Rhizosphere-Microorganism Interactions in Soils
This review covers OMICS approaches—genomics, transcriptomics, proteomics, metabolomics—used to study how plant root microbiomes interact with soil in the context of pollutants including microplastics and heavy metals. It highlights how rhizosphere microorganisms mediate phytoremediation and discusses multi-resistance challenges when pharmaceuticals and pesticides co-contaminate soils.
Decontamination of pollutants present in water, air, and soil through phytoremediation: a critical review
This critical review examines phytoremediation — the use of plants to remove contaminants from soil, water, and air — covering mechanisms such as phytoextraction, phytodegradation, and rhizofiltration, and assessing their effectiveness for heavy metals, organic pollutants, and microplastics.
Combined interactions and ecotoxicological effects of micro/nanoplastics and organic pollutants in soil–plant systems: a critical overview
This review examines how micro- and nanoplastics interact with organic pollutants in soil-plant systems. The study highlights that these plastic particles can act synergistically with organic pollutants in terrestrial ecosystems, posing combined threats to soil and plant health that warrant further investigation.
Accelerating phytoremediation of degraded agricultural soils utilizing rhizobacteria and endophytes: a review
This review examines how beneficial soil bacteria and fungi can help plants clean up contaminated agricultural soils, including those polluted by plastic mulch residues, pesticides, and heavy metals. Microbial-assisted phytoremediation is presented as a promising low-cost approach for restoring degraded farmland.
Plants for saving the environment- Phytoremediation
This review covers phytoremediation, a technology that uses plants to remove pollutants including heavy metals and organic compounds from contaminated soil, water, and air. The authors discuss how different plant groups and their root microbiomes contribute to extracting and degrading environmental contaminants.
Recent Advances in Phytoremediation of Hazardous Substances using Plants: A Tool for Soil Reclamation and Sustainability
This review provides a comprehensive analysis of phytoremediation techniques for soil reclamation and removal of hazardous contaminants from polluted sites, examining the current state of knowledge across different plant-based remediation approaches. The study evaluates the effectiveness of various phytoremediation strategies and identifies future research directions for improving soil sustainability.
The trend of bioremediation as an effective technology in soil decontamination
Not relevant to microplastics — this review covers bioremediation techniques using bacteria, fungi, and plants to clean up soil contaminated with hydrocarbons, pesticides, and heavy metals.
A review: Water pollution by heavy metal and organic pollutants: Brief review of sources, effects and progress on remediation with aquatic plants
This review summarized phytoremediation strategies for water polluted with heavy metals and organic contaminants, comparing plant-based approaches to conventional treatment methods and evaluating physicochemical factors that affect removal efficiency. The authors identify aquatic plants as promising, cost-effective tools for addressing combined heavy metal and organic chemical contamination in water.
Principles and Applicability of Integrated Remediation Strategies for Heavy Metal Removal/Recovery from Contaminated Environments
Researchers reviewed strategies for removing heavy metals from contaminated agricultural soils, focusing on how chelating agents — chemicals that bind to metals — combined with beneficial bacteria can help plants absorb and neutralize metals without harming plant growth, offering cleaner soils for safer food production.
Effects of combined microplastics and heavy metals pollution on terrestrial plants and rhizosphere environment: A review
This review summarizes how microplastics and heavy metals interact in soil to affect plant growth and the surrounding ecosystem. When present together, these pollutants cause significantly more harm than either alone, reducing plant weight by up to 87.5% and altering how heavy metals accumulate in crops -- raising concerns about food safety and human exposure through contaminated agricultural products.
Environmental interactions and remediation strategies for co-occurring pollutants in soil
Researchers review how multiple pollutants — including heavy metals, pesticides, and microplastics — interact in contaminated soils, creating combined effects that are harder to remediate than any single pollutant alone. The review synthesizes current remediation strategies and identifies key knowledge gaps in understanding how co-occurring pollutants behave together, which is critical for protecting agricultural soil health and food safety.
Microplastics and Co‐Contaminants in Soil: A Review of Combined Ecological Impact and Emerging Remediation Strategies
This review synthesizes evidence on how microplastics in soil interact with co-contaminants including heavy metals, pharmaceuticals, and persistent organic pollutants, finding that microplastics modify the mobility, bioavailability, and toxicity of these co-occurring pollutants in ways that current risk assessments do not fully capture.
Potential strategies for bioremediation of microplastic contaminated soil
Researchers reviewed emerging bioremediation strategies for removing microplastics from contaminated soil, highlighting the roles of plants, root-zone microbes, soil animals like earthworms, and specialized bacteria and fungi that can use enzymes to break down plastic polymers into harmless compounds. While genetic engineering of microbes shows promise for accelerating degradation, the review notes that real-world application at scale still requires significant research and development.
Contaminant removal processes from soil
This review examines physical, chemical, and biological remediation approaches for soil contaminated with inorganic and organic pollutants and heavy metals, comparing chemical soil washing against phytoremediation and discussing the trade-offs between remediation efficacy, scalability, and environmental impact across different contamination scenarios.
Effect of microplastics on the soil-plant system: A perspective on rhizosphere microbial community and soil element cycling
This study provides supporting dataset for a review examining how microplastics affect soil-plant systems, with a focus on rhizosphere microbial community composition and element cycling processes in contaminated soils.
Research Progress of Soil Pollution and Its Remediation Technology
This review examines the combined soil pollution problem of heavy metals and microplastics in China, summarizing sources, ecological impacts, and remediation technologies including phytoremediation, bioremediation, and physicochemical approaches to restore contaminated agricultural land.
Microorganisms and Biochar Improve the Remediation Efficiency of Paspalum vaginatum and Pennisetum alopecuroides on Cadmium-Contaminated Soil
Researchers combined plant species (Paspalum vaginatum and Pennisetum americanum), microorganisms, and biochar amendments to improve phytoremediation efficiency for potentially toxic elements in contaminated soil, finding synergistic benefits from the combined approach.
Phytomanagement of Metal(loid)-Contaminated Soils: Options, Efficiency and Value
This review examines phytomanagement as a nature-based approach for recovering soils contaminated with metals and metalloids. Researchers found that using plants and associated microorganisms, combined with appropriate site management, can effectively restore soil ecological functions while providing economic value through biomass production. The study suggests that phytomanagement offers a sustainable alternative to conventional soil remediation techniques for large contaminated areas.
Mechanistic and recent updates in nano-bioremediation for developing green technology to alleviate agricultural contaminants
Researchers reviewed nano-bioremediation — the combination of nanoparticles with microbial processes — as a promising strategy for removing heavy metals, pesticides, and other agricultural contaminants from soil and water, highlighting improved catalytic activity and adsorption capacity compared to conventional remediation methods.
Eco-designing of nano-materials to enhance crop productivity and improve soil remediation
This review examines how eco-designed nanomaterials can enhance crop productivity and improve soil remediation, evaluating the dual role of nanomaterials as agricultural inputs and potential environmental contaminants.
Synergistic Effects of Earthworms and Plants on Chromium Removal from Acidic and Alkaline Soils: Biological Responses and Implications
Not relevant to microplastics — this study examines how earthworms and plants work together to remove chromium from contaminated soils, testing bioremediation effectiveness across different soil acidities and pollution levels.
Pollutant removal through phytoremediation: a review
This review examines phytoremediation mechanisms — phytoextraction, phytostabilization, phytovolatilization, and rhizofiltration — for removing heavy metals and microplastics from contaminated Indonesian water bodies, evaluating efficiency and influencing factors.