Neumann, R. B., Blazewicz, S. J., Conaway, C. H., Turetsky, M. R., & Waldrop, M. P. (2016). Modeling CH4 and CO2 cycling using porewater stable isotopes in a thermokarst bog in Interior Alaska: results from three conceptual reaction networks. Biogeochemistry, 127(1), 57–87. doi:10.1007/s10533-015-0168-2

Neumann, R. B., Cardon, Z. G., Teshera-Levye, J., Rockwell, F. E., Zwieniecki, M., & Holbrook, N. (2014). Modelled hydraulic redistribution by sunflower (Helianthus annuus L.) matches observed data only after including night-time transpiration. Plant Cell and Environment, 37(4), 899–910. doi:10.1111/pce.12206

Neumann, R. B., Pracht, L. E., Polizzotto, M. L., Badruzzaman, A. B. M., & Ali, M. A. (2014). Biodegradable Organic Carbon in Sediments of an Arsenic-Contaminated Aquifer in Bangladesh. Environmental Science & Technology Letters, 1(4), 221–225. doi:10.1021/ez5000644

Neumann, R. B., Pracht, L. E., Polizzotto, M. L., Badruzzaman, A. B. M., & Ali, M. A. (2014). Sealing Rice Field Boundaries in Bangladesh: A Pilot Study Demonstrating Reductions in Water Use, Arsenic Loading to Field Soils, and Methane Emissions from Irrigation Water. Environmental Science and Technology, 48(16), 9632–9640. doi:10.1021/es500338u

Polizzotto, M. L., Lineberger, E. M., Matteson, A. R., Neumann, R. B., Badruzzaman, A. B. M., & Ashraf Ali, M. (2013). Arsenic transport in irrigation water across rice-field soils in Bangladesh. Environmental Pollution, 179, 210–217. doi:10.1016/j.envpol.2013.04.025

Neumann, R. B., & Cardon, Z. G. (2012). The magnitude of hydraulic redistribution by plant roots: a review and synthesis of empirical and modeling studies. New Phytologist, 194(2), 337–352. doi:10.1111/j.1469-8137.2012.04088.x

Neumann, R. B., Ashfaque, K. N., Badruzzaman, A. B. M., Ali, M. A., Shoemaker, J. K., & Harvey, C. F. (2011). Reply to aquifer arsenic source. Nature Geoscience, 4(10), 656–656. doi:10.1038/ngeo1278

Neumann, R. B., St Vincent, A. P., Roberts, L. C., Badruzzaman, A. B. M., Ali, M. A., & Harvey, C. F. (2011). Rice Field Geochemistry and Hydrology: An Explanation for Why Groundwater Irrigated Fields in Bangladesh are Net Sinks of Arsenic from Groundwater. Environmental Science and Technology, 45(6), 2072–2078. doi:10.1021/es102635d

Neumann, R., Ashfaque, K., Badruzzaman, A., Ali, M., Shoemaker, J., & Harvey, C. (2010). Anthropogenic influences on groundwater arsenic concentrations in Bangladesh. Nature Geoscience, 3, 46–52.

Neumann, R., Polizzotto, M., Badruzzaman, A., Ali, M., Zhang, Z., & Harvey, C. (2009). The hydrology of a groundwater-irrigated rice field in Bangladesh: Seasonal and daily mechanisms of infiltration. Water Resources Research, 45, W09412, doi:10.1029/2008WR007542.

Neumann, R., LaBolle, E., & Harvey, C. (2008). The effects of dual-domain mass transfer on the tritium-helium-3 dating method. Environmental Science and Technology, 42(13), 4837–4843.

Harvey, Charles, Ashfaque, K., Yu, W., Badruzzaman, A., Ali, M., Oates, P., et al. (2006). Groundwater dynamics and arsenic contamination in Bangladesh. Chem. Geol., 228(1-3), 112–136.