Rodney Venterea
Rodney Venterea
USDA/Agricultural Research Service, and University of Minnesota-Twin Cities
Verified email at - Homepage
Cited by
Cited by
Tillage and soil carbon sequestration—What do we really know?
JM Baker, TE Ochsner, RT Venterea, TJ Griffis
Agriculture, ecosystems & environment 118 (1-4), 1-5, 2007
Productivity limits and potentials of the principles of conservation agriculture
CM Pittelkow, X Liang, BA Linquist, KJ Van Groenigen, J Lee, ME Lundy, ...
Nature 517 (7534), 365-368, 2015
When does no-till yield more? A global meta-analysis
CM Pittelkow, BA Linquist, ME Lundy, X Liang, KJ Van Groenigen, J Lee, ...
Field crops research 183, 156-168, 2015
Climate, duration, and N placement determine N2O emissions in reduced tillage systems: a meta‐analysis
C Van Kessel, R Venterea, J Six, MA Adviento‐Borbe, B Linquist, ...
Global change biology 19 (1), 33-44, 2013
Nitrogen oxide and methane emissions under varying tillage and fertilizer management
RT Venterea, M Burger, KA Spokas
Journal of environmental quality 34 (5), 1467-1477, 2005
Biochar’s role as an alternative N-fertilizer: ammonia capture
KA Spokas, JM Novak, RT Venterea
Plant and soil 350, 35-42, 2012
USDA-ARS GRACEnet project protocols, chapter 3
TB Parkin, RT Venterea
Chamber-based trace gas flux measurements 4, 1-39, 2010
Chamber-based trace gas flux measurements
TB Parkin, RT Venterea
Sampling protocols 3, 3-1, 2010
Fertilizer source and tillage effects on yield‐scaled nitrous oxide emissions in a corn cropping system
RT Venterea, B Maharjan, MS Dolan
Journal of Environmental Quality 40 (5), 1521-1531, 2011
Challenges and opportunities for mitigating nitrous oxide emissions from fertilized cropping systems
RT Venterea, AD Halvorson, N Kitchen, MA Liebig, MA Cavigelli, ...
Frontiers in Ecology and the Environment 10 (10), 562-570, 2012
Calculating the detection limits of chamber‐based soil greenhouse gas flux measurements
TB Parkin, RT Venterea, SK Hargreaves
Journal of environmental quality 41 (3), 705-715, 2012
Greenhouse gas contributions and mitigation potential of agriculture in the central USA
JMF Johnson, DC Reicosky, RR Allmaras, TJ Sauer, RT Venterea, ...
Soil and Tillage Research 83 (1), 73-94, 2005
Effects of elevated carbon dioxide and increased temperature on methane and nitrous oxide fluxes: evidence from field experiments
FA Dijkstra, SA Prior, GB Runion, HA Torbert, H Tian, C Lu, RT Venterea
Frontiers in Ecology and the Environment 10 (10), 520-527, 2012
Nitrous oxide emissions are enhanced in a warmer and wetter world
TJ Griffis, Z Chen, JM Baker, JD Wood, DB Millet, X Lee, RT Venterea, ...
Proceedings of the National Academy of Sciences 114 (45), 12081-12085, 2017
Mechanisms and kinetics of nitric and nitrous oxide production during nitrification in agricultural soil
RT Venterea, DE Rolston
Global Change Biology 6, 303-316, 2000
Nitrite‐driven nitrous oxide production under aerobic soil conditions: kinetics and biochemical controls
RT Venterea
Global Change Biology 13 (8), 1798-1809, 2007
Agriculture: sustainable crop and animal production to help mitigate nitrous oxide emissions
CS Snyder, EA Davidson, P Smith, RT Venterea
Current Opinion in Environmental Sustainability 9, 46-54, 2014
Indirect nitrous oxide emissions from streams within the US Corn Belt scale with stream order
PA Turner, TJ Griffis, X Lee, JM Baker, RT Venterea, JD Wood
Proceedings of the National Academy of Sciences 112 (32), 9839-9843, 2015
Nitrite intensity explains N management effects on N2O emissions in maize
B Maharjan, RT Venterea
Soil Biology and Biochemistry 66, 229-238, 2013
Accuracy and precision analysis of chamber‐based nitrous oxide gas flux estimates
RT Venterea, KA Spokas, JM Baker
Soil Science Society of America Journal 73 (4), 1087-1093, 2009
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