We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
61,005 resultsShowing papers similar to Role of soil health in mitigating climate change
ClearEnhancing Organic Carbon Content in Tropical Soils: Strategies for Sustainable Agriculture and Climate Change Mitigation
This review examines strategies for increasing organic carbon content in tropical soils, which naturally tend to have low levels that limit agricultural productivity. Researchers evaluated approaches including cover cropping, composting, biochar application, and reduced tillage as effective methods. The study emphasizes that building soil carbon is essential for both sustainable farming and reducing greenhouse gas emissions in tropical regions.
Role of soil microplastic pollution in climate change
This review examined the bidirectional relationship between soil microplastic pollution and climate change, exploring how microplastics affect soil carbon cycling, greenhouse gas emissions, and how climate factors influence microplastic behavior in soils.
Soil health and ecosystem services
This review synthesized evidence on how soil health underpins critical ecosystem services including climate regulation, water purification, biodiversity support, and food production. The paper identifies pollution, including microplastic contamination, as one of the growing threats to soil health, alongside acidification, salinization, and biodiversity loss.
Sustainable soil use and management: An interdisciplinary and systematic approach
Researchers reviewed sustainable soil management through an interdisciplinary lens, arguing that achieving the UN's 2030 SDGs requires prioritizing soil health as a multifunctional asset, expanding soil organic carbon sequestration, and leveraging emerging data tools — including machine learning and 5G-enabled monitoring — to close critical knowledge gaps.
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.
Soil Degradation under a Changing Climate: Management from Traditional to Nano-Approaches
This review examines how climate change accelerates soil degradation through erosion, salinization, and contamination from pollutants like microplastics. Researchers surveyed management approaches ranging from traditional conservation practices to cutting-edge nanotechnology-based solutions for soil restoration. The study highlights that combining conventional methods with emerging nano-approaches may offer the most effective path to protecting soil health under changing environmental conditions.
Effects of microplastics on soil carbon pool and terrestrial plant performance
This review explores how microplastics in soil disrupt the carbon cycle by masquerading as natural soil carbon, changing how organic matter breaks down, and altering the communities of microbes that keep soil healthy. These soil changes could indirectly affect human health by reducing crop nutrition and contaminating food with plastic particles that move from soil into plants.
Microplastics in agricultural soil: Unveiling their role in shaping soil properties and driving greenhouse gas emissions
This review examines how microplastics in agricultural soils affect carbon and nitrogen cycles and alter greenhouse gas emissions. Researchers found that microplastics reduce soil water retention, decrease soil respiration, and increase emissions of carbon monoxide, methane, and nitrous oxide. The study reveals that microplastic contamination in farmland may have broader climate implications by disrupting the soil processes that regulate greenhouse gas fluxes.
Mycorrhization and Warming Modulate Soil Organic Matter Stability
This study examined how mycorrhizal fungi and warming temperatures interact to affect the stability of soil organic matter, which is important for carbon storage in terrestrial ecosystems. Understanding these interactions is relevant to predicting how climate change will affect soil health, which is also influenced by microplastic contamination.
Perspective Chapter: The Role of Biochar in Soil Amelioration
This book chapter reviewed the role of biochar in soil amelioration, examining its effects on soil physical, chemical, and biological properties as a sustainable alternative to conventional soil remediation techniques. The paper discussed how biochar improves soil fertility, water retention, and microbial activity in both degraded and agricultural soils.
Effects of microplastics on soil properties: Current knowledge and future perspectives
This review examines how microplastics affect soil health, including changes to soil structure, chemistry, and the microbial communities that keep soil fertile. The effects vary depending on the type, shape, and amount of plastic present, but in many cases microplastics alter nutrient availability and can even influence greenhouse gas emissions from soil. These changes could threaten crop productivity and food safety, since microplastics are now found in agricultural soils worldwide.
Microplastics alter soil carbon cycling: Effects on carbon storage, CO 2 and CH 4 emission and microbial community
This systematic review examines how microplastics in soil affect carbon cycling, including greenhouse gas emissions and carbon storage. The effects depend heavily on plastic type and size, with biodegradable plastics generally having a bigger impact. Understanding these soil-level changes matters because disrupted carbon cycles can worsen climate change, which in turn affects the food and water systems we all depend on.
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.
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.
Enhancing carbon restoration and ecosystem resilience in global drylands via water-to-carbon biotransformation strategies
Researchers synthesized thousands of experiments on dryland farming and found that combining crop diversification, efficient irrigation, soil mulching, and soil health practices can significantly restore carbon to depleted soils while improving water use efficiency. The study argues these strategies are practical pathways for combating climate change and food insecurity in the world's most water-stressed regions.
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 Amendments: An Ecofriendly Approach for Soil Health Improvement and Sustainable Oilseed Production
This review examined soil amendments as an ecofriendly strategy for improving soil health and sustaining oilseed crop production under intensive agricultural pressure. The authors discussed how amendments can restore soil quality, enhance nutrient availability, and offset negative impacts from overexploitation and climate change.
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.
Harnessing soil biodiversity to promote human health in cities
Researchers argue that urban soil biodiversity — the vast community of microorganisms, fungi, and invertebrates living in city soils — plays an overlooked role in human health by suppressing pathogens, shaping the human microbiome, and supporting immune function, and that restoring it in cities could offer meaningful public health benefits.
Organic amendment in climate change mitigation: Challenges in an era of micro- and nanoplastics
This review examines how micro- and nanoplastics found in organic amendments like compost, manure, and sewage sludge may undermine their effectiveness as climate change mitigation tools. Researchers found that plastic contamination in these materials can alter soil carbon cycling, potentially reducing the carbon sequestration benefits of adding organic matter to soils. The study highlights a tension between using organic waste for soil health and inadvertently introducing plastic pollution.
The unseen world beneath our feet: Heliyon soil science. Exploring the cutting-edge techniques and ambitious goals of modern soil science
Researchers published an overview of modern soil science priorities, highlighting how soil is a critical but underappreciated resource facing threats from climate change, erosion, and biodiversity loss. The editorial emphasizes that soil health is foundational to food security, carbon storage, and sustainable land use — and calls for research that spans the full range of soil functions.
Effects of microplastics on microbial community and greenhouse gas emission in soil: A critical review
This review examines how microplastics in soil affect microbial communities and greenhouse gas emissions, finding that microplastics can alter the abundance and activity of soil bacteria in ways that increase carbon dioxide and nitrous oxide release. The plastics change soil structure and chemistry, creating conditions that favor certain gas-producing microbes over others. These effects could worsen climate change while also disrupting soil fertility, with indirect consequences for food production.
Constructing Soils to Mitigate Land Occupation by Urban Expansion and Metabolism to Improve Healthy Cities
This review examines how engineered soils, known as technosols, can help mitigate the environmental impact of urban expansion by restoring soil functions in cities. Researchers discussed strategies for constructing soils that provide ecosystem services like stormwater management, carbon storage, and pollution filtration. The study highlights that building functional urban soils is an important tool for creating healthier and more sustainable cities.
How microplastics are destroying soil and human health
This review examined how microplastics harm soil health — disrupting soil structure, water retention, microbial communities, and nutrient cycling — and how soil degradation translates into risks for human health through food and water contamination. It argues that soil microplastic pollution deserves equivalent attention to aquatic contamination.