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

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

doi:https://doi.org/10.5194/egusphere-egu24-1421

[Back] [Session BG8.4]

EGU24-1421, updated on 08 Mar 2024

https://doi.org/10.5194/egusphere-egu24-1421

EGU General Assembly 2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

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

Kirstine Skov¹, Jez Wardman¹, Matthew Healey¹, Amy McBride¹, Tzara Bierowiec¹, Julia Cooper², Ifeoma Edeh¹, Dave George³, Mike E. Kelland⁴, Jim Mann¹, David Manning³, Melissa J. Murphy¹, Ryan Pape¹, Yit A. Teh³, Will Turner¹, Peter Wade¹, and Xinran Liu¹

Kirstine Skov et al.

¹UNDO Carbon Ltd., Science and Research, United Kingdom of Great Britain – England, Scotland, Wales (kirstine.skov@un-do.com)
²Organic Research Centre, Cirencester, Gloucestershire, United Kingdom
³School of Natural and Environmental Sciences, Newcastle University, Newcastle upon Tyne, Tyne and Wear, United Kingdom
⁴School of Biosciences, The University of Sheffield, Sheffield, United Kingdom

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 split plot design. Basalt (18.86 tonnes ha −1 ) was incorporated into the soil during seeding. Tissue, grain and soil samples were collected for yield, nutrient, and pH analysis. Basalt amendment led to significantly higher yields, averaging 20.5% and 9.3% increases in direct drill and ploughed plots, respectively. Soil pH was significantly higher 256 days after rock application across cultivation types (direct drill: on average 6.47 vs. 6.76 and ploughed: on average 6.69 vs. 6.89, for control and basalt-amended plots, respectively), likely due to rapidly dissolving minerals in the applied basalt, such as calcite. Indications of growing season differences in soil pH are observed through direct measurement of lower manganese and iron uptake in plants grown on basalt-amended soil. Higher grain and tissue potassium, and tissue calcium uptake were observed in basalt-treated crops. Notably, no accumulation of potentially toxic elements (arsenic, cadmium, chromium, nickel) was detected in the grain, indicating that crops grown using this basaltic feedstock are safe for consumption. This study indicates that basalt amendments can improve agronomic performance in sandy clay-loam agricultural soil under temperate climate conditions. These findings offer valuable insights for producers in temperate regions who are considering using such amendments, demonstrating the potential for improved crop yields and environmental benefits while ensuring crop safety.

How to cite: Skov, K., Wardman, J., Healey, M., McBride, A., Bierowiec, T., Cooper, J., Edeh, I., George, D., Kelland, M. E., Mann, J., Manning, D., Murphy, M. J., Pape, R., Teh, Y. A., Turner, W., Wade, P., and Liu, X.: Initial agronomic benefits of enhanced weathering using basalt: A study of spring oat in a temperate climate, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-1421, https://doi.org/10.5194/egusphere-egu24-1421, 2024.