| 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 | 1723 | 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 | 1522 | 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 | 810 | 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 | 492 | 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 | 394 | 2005 |
| Biochar’s role as an alternative N-fertilizer: ammonia capture KA Spokas, JM Novak, RT Venterea Plant and soil 350, 35-42, 2012 | 391 | 2012 |
| USDA-ARS GRACEnet project protocols, chapter 3 TB Parkin, RT Venterea Chamber-based trace gas flux measurements 4, 1-39, 2010 | 379* | 2010 |
| Chamber-based trace gas flux measurements TB Parkin, RT Venterea Sampling protocols 3, 3-1, 2010 | 355 | 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 | 329 | 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 | 317 | 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 | 258 | 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 | 243 | 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 | 223 | 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 | 221 | 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 | 188 | 2000 |
| Nitrite‐driven nitrous oxide production under aerobic soil conditions: kinetics and biochemical controls RT Venterea Global Change Biology 13 (8), 1798-1809, 2007 | 182 | 2007 |
| 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 | 173 | 2015 |
| 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 | 173 | 2014 |
| Nitrite intensity explains N management effects on N2O emissions in maize B Maharjan, RT Venterea Soil Biology and Biochemistry 66, 229-238, 2013 | 161 | 2013 |
| Ammonium sorption and ammonia inhibition of nitrite-oxidizing bacteria explain contrasting soil N2O production RT Venterea, TJ Clough, JA Coulter, F Breuillin-Sessoms Scientific Reports 5, doi:10.1038/srep12153, 2015 | 152 | 2015 |
John M. BakerUSDA-ARS, University of MinnesotaVerified email at umn.edu
