Climate
Remineralization stabilizes the climate through the sequestration of carbon in agricultural and forest soils. While unhealthy forests give off CO2, healthy forests are a carbon sink- increased vitality and growth leads to an increase in carbon sequestration.
Publication Title Publication YearType of PublicationPublication LanguageResearch Area(s) |
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2021Journal ArticleEnglishAgrogeology; Carbon Sequestration; Climate Change |
Persistence of soil organic matter as an ecosystem property 2011Journal ArticleEnglishAgriculture; Agrogeology; Climate Change |
Potential for large-scale CO2 removal via enhanced rock weathering with croplands 2020EnglishAgrogeology; Carbon Sequestration; Climate Change |
Potential CO2 removal from enhanced weathering by ecosystem responses to powdered rock 2021Journal Article; PerspectiveEnglishCarbon Sequestration; Climate Change |
Potential and costs of carbon dioxide removal by enhanced weathering of rocks 2018LetterEnglishAgrogeology; Carbon Sequestration; Climate Change |
2013Journal ArticleEnglishAgrogeology; Carbon Sequestration; Climate Change |
Biological Enhancement of Soil Carbonate Precipitation: Passive Removal of Atmospheric CO2 2008Journal ArticleEnglishAgriculture; Carbon Sequestration; Climate Change |
Farming with Crops and Rocks to Address Global Climate, Food and Soil Security 2018Journal ArticleEnglishAgriculture; Carbon Sequestration; Climate Change |
Carbon Dioxide Mineralization Feasibility in the United States 2019ReportEnglishCarbon Sequestration; Climate Change |
Fuzzy optimization model for enhanced weathering networks using industrial waste 2021Journal ArticleEnglishCarbon Sequestration; Climate Change |