Research Keyword: soil restoration

Ecological indicators and biological resources for hydrocarbon rhizoremediation in a protected area

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A gasoline pipeline spill contaminated a protected nature area in Italy, threatening rare fish species. Scientists tested whether plants and natural bacteria could clean up the pollution. They found that corn and sunflower plants, combined with bacteria from the soil, could remove about 70-80% of the petroleum pollution in just 38 days. The study showed this approach could successfully restore the protected area without expensive chemical treatments.

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Soil health alterations via compost additions to natural and remediated heavy metal-contaminated mineland soils

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Abandoned mining sites in Missouri left contaminated soils that couldn’t support plant growth. Researchers tested whether adding compost could restore these soils to health comparable to natural prairie. They found that applying 180 tons of compost per hectare successfully restored soil quality and plant growth while keeping heavy metal levels safe for livestock, making it an effective and affordable solution for healing mining-damaged lands.

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Review: roles of mycorrhizal symbioses and associated soil microbiomes in ecological restoration

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This comprehensive review explains how underground fungal networks and soil microbes are essential for restoring damaged lands, particularly those contaminated by mining or pollution. The research shows that using native fungal communities from early successional stages, rather than introduced or late-stage species, significantly improves restoration success. Specific plant species like fescues work particularly well with these fungal partners, and combining different microbial species creates synergistic effects that boost plant growth and reduce contaminants in soil.

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