Publications

2017


Climatic and physiographic controls of spatial variability in surface water balance over the contiguous United States using the Budyko relationship

(2017)   Abatzoglou, J. T. and D.L. Ficklin  |  External Link

Citation:
Abatzoglou, J. T. and D.L. Ficklin, 2017, Climatic and physiographic controls of spatial variability in surface water balance over the contiguous United States using the Budyko relationship. Water Resources Research, doi:10.1002/2017WR020843


Evaluating climate model simulations of drought for the northwestern United States

(2017)   Abatzoglou, J.T., and D.E. Rupp  |  External Link

Citation:
Abatzoglou, J.T., and D.E. Rupp.2017. Evaluating climate model simulations of drought for the northwestern United States, International Journal of Climatology. doi:10.1002/joc.5046


Assessment of Climate Change and Atmospheric CO2 Impact on Winter Wheat in the Pacific Northwest Using a Multimodel Ensemble

(2017)   Ahmed, M., Stockle, C., Nelson, R., Higgins, S  |  External Link

Citation:
Ahmed, M., Stockle, C., Nelson, R., Higgins, S. 2017. Assessment of Climate Change and Atmospheric CO2 Impact on Winter Wheat in the Pacific Northwest Using a Multimodel Ensemble. Frontiers in Ecology and Evolution-Agroecology and Land Use Systems, doi: 10.3389/fevo.2017.00051.


Next Generation Agricultural System Data, Models and Knowledge Products: Synthesis and Strategy

(2017)   Antle, J., J. Jones and C. Rosenzweig  |  External Link

Citation:
Antle, J., J. Jones and C. Rosenzweig. 2017. Next Generation Agricultural System Data, Models and Knowledge Products: Synthesis and Strategy. Agricultural Systems 155: 179-185.


Design and Use of Representative Agricultural Pathways in U.S Pacific Northwest Wheat-Based Systems

(2017)   Antle, J., J. Mu, H. Zhang, S. Capalbo, P. Diebel, S. Eigenbrode, C. Kruger, C. Stöckle, J.D. Wulfhorst  |  External Link

Citation:
Antle, J., J. Mu, H. Zhang, S. Capalbo, P. Diebel, S. Eigenbrode, C. Kruger, C. Stöckle, J.D. Wulfhorst. 2017. Design and Use of Representative Agricultural Pathways in U.S Pacific Northwest Wheat-Based Systems.  Frontiers in Ecology and Evolution.


Design and Use of Representative Agricultural Pathways for Integrated Assessment of Climate Change in U.S. Pacific Northwest Cereal-Based Systems

(2017)   Antle, J., J. Mu, H. Zhang, S. Capalbo, P. Diebel, S. Eigenbrode, C. Kruger, C. Stöckle, J.D. Wulfhorst  |  External Link

Citation:
Antle, J., J. Mu, H. Zhang, S. Capalbo, P. Diebel, S. Eigenbrode, C. Kruger, C. Stöckle, J.D. Wulfhorst. 2017. Design and Use of Representative Agricultural Pathways in U.S Pacific Northwest Wheat-Based Systems.  Frontiers in Ecology and Evolution.


Climate Impacts on Agriculture: Insights from Agronomic-Economic Analysis

(2017)   Antle, J.M. and C.O. Stöckle  |  External Link

Citation:
Antle, J.M. and C.O. Stöckle. 2017. Climate Impacts on Agriculture: Insights from Agronomic-Economic Analysis. Review of Environmental Economics and Policy 11(2): 299–318.


Methods to Assess Between-System Adaptations to Climate Change: Dryland Wheat Systems in the Pacific Northwest United States

(2017)   Antle, J.M., H. Zhang, J. Mu, J. Abatzoglou and C.O. Stöckle  |  External Link

Citation:
Antle, J.M., H. Zhang, J. Mu, J. Abatzoglou and C.O. Stöckle. 2017.  Methods to Assess Between-System Adaptations to Climate Change: Dryland Wheat Systems in the Pacific Northwest United States.  Agriculture, Ecosystems and Environment.


Can growing degree days and photoperiod predict spring wheat phenology?

(2017)   Aslam, M.A., Ahmed, M., Stöckle, C.O., Higgins, S.S., Hassan, F., Hayat, R.  |  External Link

Citation:
Aslam, M.A., Ahmed, M., Stöckle, C.O., Higgins, S.S., Hassan, F., Hayat, R. 2017 Can growing degree days and photoperiod predict spring wheat phenology? Frontiers in Environmental Science 5, Article 57.


An Improved Method for Establishing Accurate Water Potential Levels at Different Temperatures in Growth Media

(2017)   Auijla, Iqbal S., and T. Paulitz  |  External Link

Citation:
Auijla, Iqbal S., and T. Paulitz. 2017. An Improved Method for Establishing Accurate Water Potential Levels at Different Temperatures in Growth Media. Frontiers in Microbiology. 8:1497. (doi: 10.3389/fmicb.2017.01497)

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