Impacts of Rock Amendments on Cropland Soil Respiration (Working Lands Innovation Center, UC Davis / Cornell University)

UC Davis/Cornell University - PhD Thesis

Working Lands Innovation Center - Catalyzing Negative Carbon Emissions

Effects of rock amendments on NUE and N2O emissions

Working Lands Innovation Center (WLIC) — Catalyzing Negative Carbon Emissions

Investigator(s):

Benjamin Houlton, Whendee Silver

Collaboration with the California Collaborative for Climate Change Solutions (C4S) with the goal of scaling and sustaining CO2 capture and GHG emissions reductions through the application of soil amendment technologies (rock amendments, compost, and biochar).

John Muir Institute News Article: https://johnmuir.ucdavis.edu/2019/01/16/muir-institute-leads-uc-project-to-find-shovel-ready-solutions-for-carbon-sequestration/

Publications:

Almaraz, M., Simmonds, M., Boudinot, F. G., Bingham, N. L., Khalsa, S. D. S., Ostoja, S., Scow, K., Jones, A., Holzer, I., Manaigo, E., Geoghegan, E., Goertzen, Silver, W. L., In review. Soil carbon sequestration in global working lands as a gateway for negative emission technologies. Global Change Biology. https://doi.org/10.1111/gcb.16884.

Almaraz, M., Bingham, N. L., Holzer, I., Geoghegan, E., Goertzen, H., Sohng, J., Houlton, B., 2022. Methods for determining the CO₂ removal capacity of enhanced weathering in agronomic settings. Frontiers in Climate. https://doi.org/10.3389/fclim.2022.970429.