Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate

Skov, Kirstine; Wardman, Jez; Healey, Matthew; McBride, Amy; Bierowiec, Tzara; Cooper, Julia; Edeh, Ifeoma; George, Dave; Kelland, Mike E.; Mann, Jim; Manning, David; Murphy, Melissa J.; Pape, Ryan; Teh, Yit A.; Turner, Will; Wade, Peter; Liu, Xinran

doi:10.1371/journal.pone.0295031

PLoS ONE

2024

DOI: 10.1371/journal.pone.0295031

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Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate

Kirstine Skov,

Jez Wardman,

Matthew Healey

et al.

Abstract: Addressing soil nutrient degradation and global warming requires novel solutions. Enhanced weathering using crushed basalt rock is a promising dual-action strategy that can enhance soil health and sequester carbon dioxide. This study examines the short-term effects of basalt amendment on spring oat (Avena sativa L.) during the 2022 growing season in NE England. The experimental design consisted of four blocks with control and basalt-amended plots, and two cultivation types within each treatment, laid out in a … Show more

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Cited by 6 publications

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Question-Led Innovation: Public priorities for enhanced weathering research in Malaysia

Cox,

Lim,

Spence

et al. 2025

Environmental Science & Policy

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Question-Led Innovation: Public priorities for enhanced weathering research in Malaysia

Cox,

Lim,

Spence

et al. 2025

Environmental Science & Policy

View full text Add to dashboard Cite

Paraná basin basalt powder: A multinutrient soil amendment for enhancing soil chemistry and microbiology

Rodrigues,

da Silva Junges,

Mozorovicz

et al. 2024

Journal of South American Earth Sciences

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Suitability of rocks, minerals, and cement waste for CO2 removal via enhanced rock weathering

Danczyk,

Oze

2024

Commun Chem

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Mineral and rock additions to the environment have been proposed as a pathway to remove atmospheric CO 2 . This process occurs when hydrated minerals or rocks increase alkalinity, promoting the formation of bicarbonate. In this study, we evaluate the potential of commonly used hydrated rock and mineral powders to enhance alkalinity and react with both atmospheric and concentrated CO 2 . Silicate minerals and rocks exhibit minimal reactivity with atmospheric CO 2 and provide moderate alkalinity enhancement. Volcanic rocks like basalt were shown to release CO 2 . Ground cement and Mg(OH) 2 , refined from CO 2 -free ultramafic rock, significantly increase alkalinity and mineralize both atmospheric and concentrated CO 2 . However, the effectiveness of cement waste is limit by its variable CaO content and potential heavy metal contributions. Overall, Mg(OH) 2 , derived from silicates, offers a promising pathway for the removal and storage of CO 2.

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Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate

Cited by 6 publications

References 62 publications

Question-Led Innovation: Public priorities for enhanced weathering research in Malaysia

Question-Led Innovation: Public priorities for enhanced weathering research in Malaysia

Paraná basin basalt powder: A multinutrient soil amendment for enhancing soil chemistry and microbiology

Suitability of rocks, minerals, and cement waste for CO2 removal via enhanced rock weathering

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