Publications
2017
Summary of our ongoing efforts on climate impacts on agriculture in the Pacific Northwest
(2017) K. Rajagopalan
Citation:
Rajagopalan, K. 2017. Summary of our ongoing efforts on climate impacts on agriculture in the Pacific Northwest. Snohomish County Agricultural Resilience Meeting, Seattle, WA, May 11, 2017.
Projected dryland cropping system shifts in the Pacific Northwest in response to climate change
(2017) Karimi, T., Stöckle, C.O., Higgins, S., Nelson, R.L. | External Link
Citation:
Karimi, T., Stöckle, C.O., Higgins, S., Nelson, R.L. 2017. Projected dryland cropping system shifts in the Pacific Northwest in response to climate change. Frontiers in Ecology and Evolution 5, Article 20, doi: 10.3389/fevo.2017.00020
Future Bioclimatic Drivers Increase Uncertainty of Dryland Agro-ecological Classes of the Inland Pacific Northwest, USA
(2017) Kaur H., Huggins, D.R., Rupp, R.A., Abatzoglou, J.T., Stӧckle, C.O., Reganold, J.P. | External Link
Citation:
Kaur H., Huggins, D.R., Rupp, R.A., Abatzoglou, J.T., Stӧckle, C.O., Reganold, J.P. 2017. Future Bioclimatic Drivers Increase Uncertainty of Dryland Agro-ecological Classes of the Inland Pacific Northwest, USA. Frontiers in Ecology and Evolution, doi: 10.3389/fevo.2017.00074.
Agro-ecological Class Stability Decreases in Response to Climate Change Projections for the Pacific Northwest, USA
(2017) Kaur, H., Huggins, D.R., Rupp, R.A., Abatzoglou, J.T., Stockle, C.O., Reganold, J.P. | External Link
Citation:
Kaur, H., Huggins, D.R., Rupp, R.A., Abatzoglou, J.T., Stockle, C.O., Reganold, J.P. 2017. Agro-ecological Class Stability Decreases in Response to Climate Change Projections for the Pacific Northwest, USA. Frontiers in Ecology and Evolution-Agroecology and Land Use Systems, doi: 10.3389/fevo.2017.00074.
Water and nitrogen movement through a semi-arid dryland agricultural catchment: Seasonal and decadal trends
(2017) Kelley, C.J., C.K. Keller, E.S. Brooks, J.L. Smith, C. Orr. R.D. Evans | External Link
Citation:
Kelley, C.J., C.K. Keller, E.S. Brooks, J.L. Smith, C. Orr. R.D. Evans. 2017. Water and nitrogen movement through a semi-arid dryland agricultural catchment: Seasonal and decadal trends. Hydrological Processes
Emissions of N2O and CO2 Following Short-Term Water and N fertilization Additions in Wheat-based Cropping Systems
(2017) Kostyanovsky, K.I., Huggins, D.R., Stockle, C.O., Morrow, J.G., Pan, W.L. | External Link
Citation:
Kostyanovsky, K.I., Huggins, D.R., Stockle, C.O., Morrow, J.G., Pan, W.L. Emissions of N2O and CO2 Following Short-Term Water and N fertilization Additions in Wheat-based Cropping Systems. Frontiers in Ecology and Evolution. Under Review. 2017.
Flow through chamber system for automated measurements of soil N2O and CO2 emissions, Measurement, in press and online
(2017) Kostyanovsky, Kirill, David Huggins, Claudio Stockle, Sarah R Waldo, and Brian Lamb | External Link
Citation:
Kostyanovsky, Kirill, David Huggins, Claudio Stockle, Sarah R Waldo, and Brian Lamb, 2017. Flow through chamber system for automated measurements of soil N2O and CO2 emissions, Measurement, in press and online. https://doi.org/10.1016/j.measurement.2017.05.040.
Advances in dryland farming in the Inland Pacific Northwest
(2017) Kruger, C., and G. Yorgey, eds. | External Link
Citation:
Kruger, C., and G. Yorgey, editors. 2017. Advances in dryland farming in the Inland Pacific Northwest. Washington State University Extension.
Chaper 12: Farm Policies and the Role for Decision Support Tools
(2017) L. Houston, C. Seavert, S. Capalbo, J. Antle
Citation:
Houston, L., C. Seavert, S. Capalbo and J. Antle. 2017. Chaper 12: Farm Policies and the Role for Decision Support Tools. Pages 537-672. In Yorgey, G. and C. Kruger, eds. Advances in Sustainable Dryland Farming in the Inland Pacific Northwest, Washington State University Extension Publication EM108, Pullman, WA.
Modeling the Thermal Niche for Perennial Agriculture Under Current and Future Climate Change
(2017) Lauren Parker | External Link
Citation:
Parker, L.E. 2017. Modeling the Thermal Niche for Perennial Agriculture Under Current and Future Climate Change. University of Idaho PhD Dissertation.