Wurgaft, E., Wang, Z. A., Churchill, J. H., Dellapenna, T., Song, S., Du, J., Ringham, M.C., Rivlin, T., and Lazar, B., 2021. Particle triggered reactions as an important mechanism of alkalinity and inorganic carbon removal in river plumes. (GRL, doi: 10.1029/2021GL093178)
Ringham, M.C., Hoke, G.D., Huntington, K.W., and Aranibar, J.N., 2016. Influence of vegetation type and site - to - site variability on soil carbonate clumped isotope records, Andean piedmont of central Argentina (33- 34⁰S). EPSL, v. 440, 1-11. doi:10.1016/j.epsl.2016.02.003
Burgener, L., Huntington, K.W., Hoke, G.D., Schauer, A., Ringham, M.C., Latorre, C., and Díaz, F.P. Variations in soil carbonate formation and seasonal bias over >4 km of relief in the western Andes (30⁰S) revealed by clumped isotope thermometry. EPSL, v. 441, 188-189. doi: 10.1016/j.epsl.2016.02.033
An investigation on the kinetics of inorganic carbonate precipitation triggered by suspension of particles in flash floods and dust deposition events
An in-situ experiment demonstrating nuclei-induced inorganic carbonate precipitation in the Red Sea
An investigation of carbonate chemistry variations across deep coral reefs on the West Florida Slope
Presentations
2021
Ocean Carbon & Biogeochemistry OCB2021 poster: A first look at high resolution, in-situ seawater carbonate chemistry across deep coral reefs using CHANOS II (June 2021)
Deep Sea Biology Symposium talk: Exploration of fine-scale physical-biogeochemical environment over deep coral reefs on the West Florida slope using integrated ROV-lander-sensor systems (September 2021)
2020
Ocean Sciences talk: Developing an In-situ Sensor for High-frequency Measurements of Dissolved Inorganic Carbon, fCO2, and pH to Enable Fine-scale Studies of Seawater Carbonate Chemistry
Wurgaft et al., 2021