Climate Friendly Farming Publications

178 Publications

Oilseed Production Case Studies in the Eastern Washington Low-to-Intermediate Rainfall Zone

Sowers, K., D. Roe, and B. Pan. 2012. Extension Bulletin EM048E.

Climate Change: what does the science really tell us?

A narrated Extension PowerPoint on climate science and climate change. The presentation was prepared by Craig Cogger at WSU Puyallup and covers the basics of climate science, evidence of climate change, projections of future climate change, and mitigation strategies. The presentation consists of 10 parts, each about five minutes long, so that it can be viewed in short sittings.

Struvite as a Phosphorus Fertilizer Source for Greenhouse Crop Production – webinar

This webinar highlights recent research by Rita Hummel of WSU on struvite as a phosphorus source for greenhouse production of bedding plants and vegetable starts. Her research includes struvite derived from municipal wastewater and dairy manure. Craig Cogger opened the webinar with a brief overview of the phosphorus challenge. After Rita’s presentation of greenhouse research results, Keith Bowers discussed struvite production as one phosphorus removal technology for wastewater at livestock, food processing, and public sewage treatment sites. The webinar closed with a brief summary by Craig and an open question period.

Estimating greenhouse gas emissions from soil following liquid manure applications using a unit response curve method

G. Wang, S. Chen, C. Frear. Geoderma. Volume 170, 15 January 2012, Pages 295–304.

Biochar Produced from Anaerobically Digested Fiber Reduces Phosphorus in Dairy Lagoons

Streubel, J. D., H. P. Collins, J. M. Tarara, and R. L. Cochran.; Posted online 5 Jan. 2012

Climate Change webinars (parts 1 & 2)

We hear about climate change from the media, but the information can be confusing and politically charged. WSU soil scientist Craig Cogger presented a two-part webinar series to cut through the confusion and understand the science of climate change. View Part 1, What does the science really tell us about past and current climate trends? HERE. View Part 2, Climate models, skepticism, and our response to climate disruption HERE.

Assessing the Impact of Climate Change on Columbia River Basin Agriculture through Integrated Crop Systems, Hydrologic, and Water Management Modeling

Rajagopalan, K., K. Chinnayakanahalli, J.C. Adam, C.S. Stockle, R. Nelson, M. Brady, M.E. Barber, S. Dinesh, K. Malek, G. Yorgey, C. Kruger, T. Marsh, and J. Yoder, 2011.  AGU Fall Meeting Abstracts, San Francisco, CA, Dec. 6.

The economic value of biochar in crop production and carbon sequestration

Galinato, S., J. Yoder and D. Granatstein. 2011. Energy Policy, 39(10):6344-6350.

Evaluation of Co-Digestion at a Commercial Dairy Anaerobic Digester

Frear, C., W. Liao, T. Ewing, and S. Chen. Clean – Soil, Air, Water 2011,39 (7), 697–704.

Extracting valuable energy, carbon and nutrient resources from organic waste

WSU scientists have conducted extensive research on Anaerobic Digestion (AD) as a technology for recovery of methane (energy), stable carbon, and nutrients from organic wastes such as manure, food processing wastes and the organic fraction of municipal solid wastes (OFMSW). Our research has evaluated the technical and economic performance of commercially available systems, developed improved AD reactors, and commercialized WSU patented nutrient recovery technology. This webinar, presented by CSANR director Chad Kruger and CSANR scientist Craig Frear, will provide an update on the latest results from the WSU Climate Friendly Farming Project’s AD research.

Executive Summary – Climate Change and Family Forest Landowners in Idaho

Schnepf, C., J. Creighton, A. Grotta, S. Kantor. 2011. Full report available here.

Climate Change and Family Forest Landowners in Oregon

Grotta, A., J. Creighton, C. Schnepf, S. Kantor. 2011.

Climate Change and Family Forest Landowners in Washington

Creighton, J., C. Schnepf, A. Grotta, S. Kantor. 2011.

Climate Change and Family Forest Landowners in Idaho

Schnepf, C., J. Creighton, A. Grotta, S. Kantor. 2011. Executive summary available here.

Climate Change and Family Forest Landowners in Alaska

Kantor, S., J. Creighton, C. Schnepf, A. Grotta. 2011.

The Second Solution: Agriculture’s Role – video featuring eastern Washington farmer John Aeschliman

The Northwest Biocarbon Initiative aims to galvanize farmers, foresters, community leaders, and thinkers to demonstrate the essential role that natural systems can play in ensuring long-term climate stability. The Center for Sustaining Agriculture and Natural Resources is part of this collaboration with several of the Northwest’s leading conservation organizations who see this effort as a logical extension of our region’s rich natural resource heritage and our history of groundbreaking innovation and stewardship.

How family forest landowners in the Pacific Northwest perceive climate change

Private forest landowners in the Pacific Northwest and elsewhere face the same challenges as public land managers with regard to changing forest conditions. However, little is known regarding the understanding family forest landowners have about climate change and the potential impacts on how they manage their forests. Consequently, the degree to which private landowners are prepared to respond effectively is unknown. To make sure new research and extension programming related to climate change and western forests is as useful as possible for family forest owners, researchers at three universities conducted a needs assessment in Alaska, Idaho, Oregon and Washington to determine family forest owners’ perceptions, understanding, and educational needs regarding the impact of climate change on their forests. The Oregon, Washington, Alaska and Idaho reports are linked here, as well as an executive summary of the Idaho report.

Above & Beyond

Sudermann, 2011.  Article highlighting CSANR climate change research in Washington State Magazine.

Anaerobic Co-Digestion on Dairies in Washington State – The solid waste handling permit exemption

WSU Extension Fact Sheet FS040E. Yorgey, G., C. Kruger, K. Steward, C. Frear, & N. Mena. August 2011. This fact sheet is part of the AD Systems Series.

Methods for Producing Biochar and Advanced Biofuels in Washington State Part 1: Literature Review of Pyrolysis Reactors

Garcia-Perez, M., T. Lewis, C. Kruger. 2011. Funding for this study is provided by the Washington State Department of Ecology with the intention to address the growing demand for information on the design of advanced pyrolysis units. This is the first of a series of reports exploring the use of biomass thermochemical conversion technologies to sequester carbon and to produce fuels and chemicals.

Biogas potential and microbial population distributions in flushed dairy manure and implications on anaerobic digestion technology

Frear, C., Wang, Z., Li, C., Chen, S., (2011). Journal of Chemical Technology & Biotechnology, 86:145-152.

An Integrated Pathogen Control, Ammonia and Phosphorus Recovery System for Manure and/or Organic Wastes

Q. Zhao, A. Jiang, L. Yu, C. Frear, and S. Chen. Poster presented June 2011.

WRDC Rural Connections Newsletter: Climate Change issue

Western Rural Development Center’s Rural Connections Newsletter Climate Change issue June 2011 contains three articles written by CSANR faculty and staff members. View the entire issue here (6 MB), or view the individual articles by clicking the titles here: Anaerobic Digestion in the Pacific Northwest; Climate Change and Family Forest Landowners in the Pacific Northwest: Attitudes & Understanding; Climate Change and Agriculture in the Pacific Northwest.

An Integrated Pathogen Control, Ammonia and Phosphorus Recovery System for Manure and/or Organic Wastes

C. Frear. May 2011. PowerPoint presentation at 2011 AgSTAR Conference.

Overview of Biomass Pyrolysis Technologies – Historical developments and potential for the production of bio-char, advances fuels and high value chemicals

Recorded webinar (online presentation) from June 1st, 2011 by Manuel Garcia-Perez, PhD; Assistant Professor, Biological Systems Engineering. The reactors used for biomass pyrolysis can be classified into slow and fast pyrolysis. While slow pyrolysis reactors are mainly used to produce charcoal, fast pyrolysis is the technology of choice to maximize bio-oil yields. Yields as high as 80 wt can be obtained with this technology. During the webinar historical developments and potential of pyrolysis technologies for the production of bio-char, advanced fuels and high value chemicals are discussed.

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