Espeleta, J.F., Z.G. Cardon, K.U. Mayer, R.B. Neumann (2016) Diel plant water use and competitive soil cation exchange interact to enhance NH4+ and K+ availability in the rhizosphere. Plant and Soil. DOI: 10.1007/s11104-016-3089-5.
Neumann, R.B., S.J. Blazewicz, C.H. Conaway, M.R. Turetsky, M.P. Waldrop (2016) Modeling CH4 and CO2 cycling using stable isotopes in a themokarst bog in Interior Alaska: results from three conceptual reaction networks. Biogeochemistry. 127: 57–¬87 DOI: 10.1007/s10533-015-0168-2.
Neumann, R.B., L.E. Pracht, M.L. Polizzotto, A.B.M. Badruzzaman, M.A. Ali (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.
Neumann, R.B., L.E. Pracht, M.L. Polizzotto, A.B.M. Badruzzaman, M.A. Ali (2014) Biodegradable organic carbon in sediment of an arsenic-contaminated aquifer in Bangladesh. Environmental Science and Technology Letters. 1(4): 221–225.
Neumann, R.B., Z.G. Cardon, J. Teshera-Levye, F.E. Rockwell, M.A. Zwieniecki, N.M. Holbrook (2013) Modeled hydraulic redistribution by sunflower (Helianthus annuus L.) matches observed data only after including nighttime transpiration. Plant Cell and Environment. 37(4): 899–910. DOI: 10.1111/pce.122206.
Polizzotto, M.L., E.M. Lineberger, A.R. Matteson, R.B. Neumann, A.B.M. Badruzzaman, M.A. Ali (2013) Arsenic transport in irrigation water across rice-field soils in Bangladesh. Environmental Pollution.179: 210 – 217.
Neumann, R.B. and Z.G. Cardon (2012) The magnitude of hydraulic redistribution by plant roots: A review and synthesis of empirical and modeling studies. New Phytologist. 194(2): 337 – 352.
Neumann, R.B., K.N. Ashfaque, A.B.M. Badruzzaman, M.A. Ali, J.K. Shoemaker, C.F. Harvey (2011) Reply to aquifer arsenic source. Nature Geoscience, 4: 656.
Neumann, R.B., A.P. St Vincent, L.C. Roberts, A.B.M. Badruzzaman, M.A. Ali, C.F. Harvey (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: 2072–2078. doi:10.1021/es102635d.
Neumann, R.B., K.N. Ashfaque, A.B.M. Badruzzaman, M.A. Ali, J.K. Shoemaker, C.F. Harvey (2010) Anthropogenic influences on groundwater arsenic concentrations in Bangladesh. Nature Geoscience, 3: 46-52.
1Neumann, R.B., M.L. Polizzotto, A.B.M. Badruzzaman, M.A. Ali, Z.S. Zhang, C.F. Harvey (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.B., E.M. LaBolle, C.F. Harvey (2008) The effects of dual-domain mass transfer on the tritium–helium-3 dating method, Environmental Science and Technology, 42: 4837-4843.
Harvey, C.F., K.N. Ashfaque, W. Yu, A.B.M. Badruzzaman, M.A. Ali, P.M. Oates, H. Michael, R.B. Neumann, R. Beckie, S. Islam, M.F. Ahmed (2006) Groundwater dynamics and arsenic contamination in Bangladesh, Chemical Geology, 228: 112-136. (202 / 2.716)