Related references
Note: Only part of the references are listed.Substantial carbon drawdown potential from enhanced rock weathering in the United Kingdom
Euripides P. Kantzas et al.
NATURE GEOSCIENCE (2022)
Enhanced Weathering Using Basalt Rock Powder: Carbon Sequestration, Co-benefits and Risks in a Mesocosm Study With Solanum tuberosum
Arthur Vienne et al.
FRONTIERS IN CLIMATE (2022)
Vanadium in soil-plant system: Source, fate, toxicity, and bioremediation
Li Chen et al.
JOURNAL OF HAZARDOUS MATERIALS (2021)
Engineered carbon mineralization in ultramafic rocks for CO2 removal from air: Review and new insights
Peter B. Kelemen et al.
CHEMICAL GEOLOGY (2020)
Increased yield and CO2 sequestration potential with the C4 cereal Sorghum bicolor cultivated in basaltic rock dust-amended agricultural soil
Mike E. Kelland et al.
GLOBAL CHANGE BIOLOGY (2020)
EnhancedWeathering and related element fluxes - a cropland mesocosm approach
Thorben Amann et al.
BIOGEOSCIENCES (2020)
The negative emission potential of alkaline materials
Phil Renforth
NATURE COMMUNICATIONS (2019)
Assessing the potential of soil carbonation and enhanced weathering through Life Cycle Assessment: A case study for Sao Paulo State, Brazil
David Lefebvre et al.
JOURNAL OF CLEANER PRODUCTION (2019)
Impact of iron oxides and soil organic matter on the surface physicochemical properties and aggregation of Terra Rossa and Calcocambisol subsoil horizons from Istria (Croatia)
Goran Durn et al.
CATENA (2019)
Potential and costs of carbon dioxide removal by enhanced weathering of rocks
Jessica Strefler et al.
ENVIRONMENTAL RESEARCH LETTERS (2018)
Negative emissions-Part 2: Costs, potentials and side effects
Sabine Fuss et al.
ENVIRONMENTAL RESEARCH LETTERS (2018)
Farming with crops and rocks to address global climate, food and soil security
David J. Beerling et al.
NATURE PLANTS (2018)
Climate change mitigation: potential benefits and pitfalls of enhanced rock weathering in tropical agriculture
David P. Edwards et al.
BIOLOGY LETTERS (2017)
Applying Limestone or Basalt in Combination with Bio-Fertilizer to Sustain Rice Production on an Acid Sulfate Soil in Malaysia
Qurban Ali Panhwar et al.
SUSTAINABILITY (2016)
The dissolution of olivine added to soil: Implications for enhanced weathering
P. Renforth et al.
APPLIED GEOCHEMISTRY (2015)
Carbon Dioxide Efficiency of Terrestrial Enhanced Weathering
Nils Moosdorf et al.
ENVIRONMENTAL SCIENCE & TECHNOLOGY (2014)
Enhanced chemical weathering as a geoengineering strategy to reduce atmospheric carbon dioxide, supply nutrients, and mitigate ocean acidification
Jens Hartmann et al.
REVIEWS OF GEOPHYSICS (2013)
A hydrological perspective on evaporation: historical trends and future projections in Britain
A. L. Kay et al.
JOURNAL OF WATER AND CLIMATE CHANGE (2013)
Olivine Weathering in Soil, and Its Effects on Growth and Nutrient Uptake in Ryegrass (Lolium perenne L.): A Pot Experiment
Hein F. M. ten Berge et al.
PLOS ONE (2012)
Coastal spreading of olivine to control atmospheric CO2 concentrations: A critical analysis of viability
Suzanne J. T. Hangx et al.
INTERNATIONAL JOURNAL OF GREENHOUSE GAS CONTROL (2009)
Biological enhancement of soil carbonate precipitation: passive removal of atmospheric CO2
D. A. C. Manning
MINERALOGICAL MAGAZINE (2008)
Adsorption of heavy metal ions on soils and soils constituents
HB Bradl
JOURNAL OF COLLOID AND INTERFACE SCIENCE (2004)
The effect of time on the weathering of silicate minerals: why do weathering rates differ in the laboratory and field?
AF White et al.
CHEMICAL GEOLOGY (2003)