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Robertson, B. A.;Rice, R. A.;Sillet, T. S.;Babcock, B. A.;Landis, D. A.;Ribic, C. A.;Herkert, J. R.;Fletcher, R. J.;Fontaine, J. J.;Schemske, D. J. 2012. Are agrofuels a conservation threat or opportunity for grassland birds in the United States? 114: 679-688. doi:10.1525/cond.2012.110136.
Robertson, B. A. ;Porter, C. ;Schemske, D. W. 2012. Agroenergy crops influence the diversity, biomass, and guild structure of terrestrial arthropod communities 5: 179-188. doi:10.1007/s12155-011-9161-3.
Robertson, B. A. ;Porter, C. ;Landis, D. A. ;Schemske, D. W. 2012. Agroenergy crops influence the diversity, biomass, and guild structure of terrestrial arthropod communities 5: 179-188. doi:10.1007/s12155-011-9161-3.
Onyancha, M. ;Anderson, C. W. 2012. Secondary students’ accounts of carbon-transforming processes before and after instruction 2: 183-198.
O'Brien, J. M. ;Hamilton, S. K. ;Podzikowski, L. ;Ostrom, N. E. 2012. The fate of assimilated nitrogen in streams: an in situ benthic chamber study 57: 1113-1125. doi:10.1111/j.1365-2427.2012.02770.x.
O'Brien, J. M.;Hamilton, S. K.;Kinsman-Costello, L. E.;Lennon, J. T.;Ostrom, N. E. 2012. Nitrogen transformations in a through-flow wetland revealed using whole-ecosystem pulsed 15N additions 57: 221-224. doi:10.4319/lo.2012.57.1.0221.
Munoz, J. D.;Kravchenko, A. N. 2012. Deriving the optimal scale for relating topographic attributes and cover crop plant biomass 179: 197-207. doi:10.1016/j.geomorph.2012.08.011.
Gelfand, I.;Sahajpal, R.;Zhang, X.;Izaurralde, C. R.;Gross, K. L.;Robertson, G. P. 2013. Sustainable bioenergy production from marginal lands in the US Midwest 493: 514-517. doi:10.1038/nature11811.
Egbendewe-Mondzozo, A. ;Swinton, S. M. ;Izaurralde, R. C. ;Manowitz, D. H. ;Zhang, X. 2013. Maintaining environmental quality while expanding biomass production: Sub-regional U.S. policy simulations 57: 518-531. doi:10.1016/j.enpol.2013.02.021.
Egbendewe-Mondzozo, A. ;Swinton, S. M. ;Bals, B. D. ;Dale, B. E. 2013. Can dispersed biomass processing protect the environment and cover the bottom line for biofuel? 47: 1695-1703. doi:10.1021/es303829w.
Dzotsi, K. A. ;Basso, B. ;Jones, J. W. 2013. Development, uncertainty and sensitivity analysis of the simple SALUS crop model in DSSAT 260: 62-76. doi:10.1016/j.ecolmodel.2013.03.017.
Duke, C. S.;Pouyat, R. V.;Robertson, G. P.;Parton, W. J. 2013. Ecological dimensions of biofuels 17: 1-17.
Dickson, T. L.;Gross, K. L. 2013. Plant community responses to long-term fertilization: Changes in functional group abundance drive changes in species richness 173: 1513-1520. doi:10.1007/s00442-013-2722-8.
Dazzo, F. B. ;Klemmer, K. J. ;Chandler, R. ;Yanni, Y. G. 2013. In situ ecophysiology of microbial biofilm communities analyzed by CMEIAS computer-assisted microscopy at single-cell resolution 5: 426-460. doi:10.3390/d5030426.
Culman, S. W. ;Snapp, S. S. ;Ollenburger, M. ;Basso, B. ;DeHaan, L. R. 2013. Soil and water quality rapidly responds to the perennial grain kernza wheatgrass 105: 735-744. doi:10.2134/agronj2012.0273.
Culman, S. W. ;Snapp, S. S. ;Green, J. M. ;Gentry, L. E. 2013. Short- and long-term labile soil carbon and nitrogen dynamics reflect management and predict corn agronomic performance 105: 493-502. doi:10.2134/agronj2012.0382.
Cleland, E. E.;Collins, S. L.;Dickson, T. L.;Farrer, E. C.;Gross, K. L.;Gherardi, L. A.;Hallett, L.;Hobbs, R.;Hsu, J.;Turnbul, L.;Suding, K. N. 2013. Sensitivity of grassland plant community composition to spatial vs. temporal variation in precipitation 94: 1687-1696. doi:10.1890/12-1006.1.
Aanderud, Z. T.;Jones, S. E.;Schoolmaster Jr., D. R.;Fierer, N.;Lennon, J. T. 2013. Sensitivity of soil respiration and microbial communities to altered snowfall 57: 217-227. doi:10.1016/j.soilbio.2012.07.022.
Asbjornsen, H.;Hernandez-Santana, V.;Liebman, M.;Bayala, J.;Chen, J.;Helmers, M.;Ong, C. K.;Schultte, L. A. 2013. Targeting perennial vegetation in agricultural landscapes for enhancing ecosystem services 29: 101-125. doi:10.1017/S1742170512000385.
Ananyeva, K. ;Wang, W. ;Smucker, A. J. ;Rivers, M. L. ;Kravchenko, A. N. 2013. Can intra-aggregate pore structures affect the aggregate's effectiveness in protecting carbon? 57: 868-875. doi:10.1016/j.soilbio.2012.10.019.