Mike Kelland
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View article: Quantifying potential carbon dioxide removal via enhanced weathering using porewater from a field trial in Scotland
Quantifying potential carbon dioxide removal via enhanced weathering using porewater from a field trial in Scotland Open
Enhanced weathering (EW) is cited as a promising carbon dioxide removal (CDR) strategy, and is being rapidly commercialized. Rigorous monitoring, reporting and verification (MRV) are essential to ensure carbon claims are accurate and carbo…
View article: Quantifying potential carbon dioxide removal via enhanced weathering using porewater from a field trial in Scotland
Quantifying potential carbon dioxide removal via enhanced weathering using porewater from a field trial in Scotland Open
Enhanced weathering (EW) is cited as a promising carbon dioxide removal (CDR) strategy, and is being rapidly commercialized. Rigorous monitoring, reporting and verification (MRV) are essential to ensure carbon claims are accurate and carbo…
View article: The viability and safety of Ocean Alkalinity Enhancement: encouraging results from collaborative industry-academic field studies in Canada, the USA and the UK
The viability and safety of Ocean Alkalinity Enhancement: encouraging results from collaborative industry-academic field studies in Canada, the USA and the UK Open
We have reached global scientific consensus regarding the urgent need for research, development, and early field testing of certain carbon dioxide removal (CDR) techniques. Ocean Alkalinity Enhancement (OAE) has emerged as one of the most …
View article: Novel extraction method designed to estimate the topsoil pore water reservoir of carbon dioxide removal through enhanced weathering of silicate minerals
Novel extraction method designed to estimate the topsoil pore water reservoir of carbon dioxide removal through enhanced weathering of silicate minerals Open
Enhanced weathering (EW) of silicate minerals on agricultural fields is a promising natural carbon dioxide removal (CDR) method that has potential co-benefits for soil health and crop safety. However, the scalability of EW is suffering fro…
View article: Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate
Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate Open
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 exami…
View article: Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate
Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate Open
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 exami…
View article: Initial Validation of a Soil-Based Mass-Balance Approach for Empirical Monitoring of Enhanced Rock Weathering Rates
Initial Validation of a Soil-Based Mass-Balance Approach for Empirical Monitoring of Enhanced Rock Weathering Rates Open
Enhanced rock weathering (ERW) is a promising scalable and cost-effective carbon dioxide removal (CDR) strategy with significant environmental and agronomic co-benefits. A major barrier to large-scale implementation of ERW is a robust moni…
View article: Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate
Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate Open
Addressing soil nutrient degradation and global warming requires novel solutions. Enhanced weathering using crushed basalt rock may offer a partial solution, through a combined approach of sequestering carbon dioxide and improving agronomi…
View article: Preliminary findings from comparison of in-situ measurements of enhanced weathering proxies with model predictions
Preliminary findings from comparison of in-situ measurements of enhanced weathering proxies with model predictions Open
Enhanced weathering of silicate rock is a promising natural carbon dioxide removal technology, both due to its scalability and associated agronomical benefits. During silicate rock weathering, dissolved carbon dioxide in the form of carbon…
View article: Initial validation of a soil-based mass-balance approach for empirical monitoring of enhanced rock weathering rates
Initial validation of a soil-based mass-balance approach for empirical monitoring of enhanced rock weathering rates Open
Enhanced Rock Weathering (ERW) is a promising scalable and cost-effective Carbon Dioxide Removal (CDR) strategy with significant environmental and agronomic co-benefits. A major barrier to large-scale implementation of ERW is a robust Moni…
View article: Increased yield and CO<sub>2</sub> sequestration potential with the C<sub>4</sub> cereal <i>Sorghum bicolor</i> cultivated in basaltic rock dust‐amended agricultural soil
Increased yield and CO<sub>2</sub> sequestration potential with the C<sub>4</sub> cereal <i>Sorghum bicolor</i> cultivated in basaltic rock dust‐amended agricultural soil Open
Land‐based enhanced rock weathering (ERW) is a biogeochemical carbon dioxide removal (CDR) strategy aiming to accelerate natural geological processes of carbon sequestration through application of crushed silicate rocks, such as basalt, to…