Renforth, P.; Campbell, J. S. (2021): The role of soils in the regulation of ocean acidification. In Philosophical transactions of the Royal Society of London. Series B, Biological sciences 376 (1834), p. 20200174. DOI: 10.1098/rstb.2020.0174.

"Increasing the alkalinity levels in the ocean through enhanced weathering could help to ameliorate the effects of ocean acidification in two ways. First, enhanced weathering would slightly elevate the pH of drainage waters, and the receiving coastal waters. The elevated pH would result in an increase in carbonate mineral saturation states, and a partial reversal in the effects of elevated CO₂. Second, the increase in alkalinity would help to replenish the ocean's buffering capacity by maintaining the ‘Revelle Factor’, making the oceans more resilient to further CO₂ emissions. However, there is limited research on the downstream and oceanic impacts of enhanced weathering on which to base deployment decisions."

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Goll, Daniel S.; Ciais, Philippe; Amann, Thorben; Buermann, Wolfgang; Chang, Jinfeng; Eker, Sibel et al. (2021): Potential CO2 removal from enhanced weathering by ecosystem responses to powdered rock. In Nat. Geosci., pp. 1–5. DOI: 10.1038/s41561-021-00798-x.

" Here we explore soil amendment with powdered basalt in natural ecosystems."

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No Deadline

"The Pallud Lab is hiring a Postdoctoral Research Fellow to investigate a new verification scheme for enhanced rock weathering application in agricultural soils in soil column lab experiments."

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Rinder, Thomas; Hagke, Christoph von (2021): The influence of particle size on the potential of enhanced basalt weathering for carbon dioxide removal - Insights from a regional assessment. In Journal of Cleaner Production 315, p. 128178. DOI: 10.1016/j.jclepro.2021.128178.

"It has been shown that enhanced weathering is principally feasible on a global scale, but there is still uncertainty with respect to the predicted drawdown in a given timeframe. This information is however vital to evaluate, if enhanced weathering should be further considered as a factor to alleviate the impact of the climate crisis. With this in mind, this article reviews of the current state of research and estimates the CO₂ drawdown for scenarios using basalt powders of different particle size distribution (<100 μm, <10 μm and <1 μm)."

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