By Kristin Trippe, USDA Agricultural Research Service, Forage Seed and Cereal Research Unit

Farmers across the globe are grappling with the challenges of a changing climate. In the Pacific Northwest, loss of snow pack has diminished the availability of water resources, causing increased drought stress (see this article, for example). Our program is focused on biochar, a rather non-descript product that can help farmers both sequester carbon and prolong the availability of soil moisture in their agricultural soils to address drought stress.

Biological Science Technicians Sarah Light (left) and Stephanie Chiu (right) collect soil cores from soil amended with biochar to determine if biochar can help prevent drought. Photo: Claire Phillips, USDA ARS FSCRU.

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by Doug Finkelnburg

In November I participated in a truly innovative summit titled, “Safeguarding Idaho’s Economy in a Changing Climate – Our Water, Our Land, Our Health, Our Future” which brought together a diverse coalition of public and private stakeholders to discuss economic resiliency challenged by our changing climate. This first-of-its kind, for Idaho, summit occurred simultaneously in Boise, Moscow, Ashton and Pocatello, ID with keynote speakers in Boise streamed to the remote locations. Keynote presentations were followed by facilitated workshops at each viewing site. The goals of this conference were to share what efforts were underway across multiple sectors of Idaho’s economy to address climate change, explore economic opportunities and efficiencies, build new collaborations and provide resources for future projects at all scales. Continue reading →

By Karen Hill

Figure 1. Wheat residue on field near Ritzville, Washington, which is part of the drier grain-fallow cropping system. (Photo credit: Darrell Kilgore)

The production of crop residue varies dramatically across the Inland Pacific Northwest, with estimated residue production for winter wheat ranging from roughly 0.9 ton/acre in the drier grain-fallow cropping system (Figure 1) to 8.5 ton/acre in the wetter annual crop system, which has enough precipitation to support cropping every year. Crop residues are often seen as simply something to “manage” so that they don’t impede future plantings or as a byproduct that can be sold to help improve the bottom line. However, while editing chapters for the recently released publication Advances in Dryland Farming in the Inland Pacific Northwest, I was introduced to another way to think about these residues in the chapter in that publication titled “Crop Residue Management.” Continue reading →

By: Sonia A. Hall

Both John Aeschliman (left) and Douglas Poole (right) practice no-till, though they farm with very different precipitation regimes. Photo: Alex Garland.

Extension has traditionally involved getting results from researchers to decision-makers in agriculture. Partly because I work on climate change and agriculture, and partly because of the approach my team and the researchers we work with take, extension is, for us, a two-way street. In this article I want to highlight the “other” side of that street: how innovations that producers test out in real life complement research and supports future preparedness.

In preparation for a new project I reviewed case studies and profiles others I work with published as part of the Regional Approaches to Climate Change – Pacific Northwest Agriculture (REACCH-PNA) project, which focused on dryland cereal production in a changing climate. These case studies tell the stories of producers who are implementing practices that break some mold, and that is leading to both interesting results and to benefits that will help them be prepared for future climates. Continue reading →