Using Timing of Risks and Benefits to Breed Barley for Future Climates

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Q&A with Barley Breeder Dr. Patrick Hayes

By Sonia A. Hall, Center for Sustaining Agriculture and Natural Resources, Washington State University

 

This article is part of a series where we share insights from conversations that I had with public plant breeders across the Pacific Northwest about their breeding programs and how climate change considerations intersect with their work. Through these conversations, I wanted to better understand the complexities of the plant breeders’ world, where there are elements that already provide useful information about adapting to future climates, and where there are questions—about the climate in the future, or the plants’ responses, or production, market, or other factors affecting a particular crops’ future—that intersect or even overshadow questions about how to prepare for future climates.

Headshot of Patrick Hayes in front of a green field

Dr. Patrick Hayes, OSU. Photo: Ron Silberstein, Admiral Malting, Alameda CA

Barley, like wheat, can be sown in the fall, overwinter, and grow and mature the next season, or can be planted in the early spring, and have a shorter, quicker growing season. For a variety of reasons, however, spring barley is considered “the good one” for malting and producing beer. Yet as Dr. Patrick Hayes, Oregon State University’s malting barley breeder, works to develop barley varieties that will be grown under future climates, fall barley is key. The timing of growth and the resources it taps can help avoid a variety of issues that will otherwise impact barley yields and quality (whose main indicator is the percent protein in the grain). Read on for Dr. Hayes’s explanation of why fall barley is becoming increasingly attractive.

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The Basics of Carbon Markets and Trends: Something to Keep an Eye On

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By Karen Hills, Center for Sustaining Agriculture and Natural Resources, Washington State University

Certain carbon markets could provide a win-win for producers and environmental interests pursuing reduction in emissions. Photo: Scott McLeod under CC BY 2.0.

The ability to store carbon in soils—to sequester carbon—has been receiving increased attention lately, including on AgClimate.net. Recent posts included articles about potential for croplands in the inland Pacific Northwest to sequester carbon and an article on the emerging carbon markets and their relevance for fruit and vegetable producers. Carbon markets offer the promise of monetizing the benefits of practices that add carbon to the soil, and are also good for soil health. If these markets are effective, they would provide a win-win for producers and environmental interests.

Thanks to the wonders of a zoom-friendly world, I recently attended a mini-workshop hosted by the University of Florida and the Institute of Food and Agricultural Extension where we explored carbon markets. Continue reading

Reservoirs Store and Release More Than Just Water

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By Aaron Whittemore, Center for Sustaining Agriculture and Natural Resources, Washington State University

 

Arid landscape with irrigated fields and towns along a wide river, with a large dam across it

The Grand Coulee Dam is one of a system of dams on the Columbia River used for water storage, energy production and flood control. Credit: Bureau of Reclamation.

Reservoirs are common infrastructure across the globe, with myriad benefits and costs attached. In the Pacific Northwest, for example, reservoirs are used for water storage, energy production, and flood control, but they impact salmon by blocking passage to spawning and rearing habitat and also lose water to evaporation. However, few people know that reservoirs are also a significant source of greenhouse gases, releasing emissions on the scale of thousands of teragrams (Tg) per year, globally. For reference, the entire U.S. usually emits between six and seven thousand teragrams of greenhouse gases each year. Estimates of reservoir emissions have remained uncertain, though, making it hard to find ways to reduce these emissions. Dr. John Harrison from Washington State University teamed up with colleagues from the University of Quebec at Montreal to try to narrow down estimates of global reservoir greenhouse gas emissions, which could help pinpoint where limiting emissions would be most helpful and illuminate specific methods for doing so. Continue reading

To Be or Not to Be – Considerations at the Intersection of Breeding Apples and Climate Change

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Q&A with Apple Breeder Dr. Kate Evans

By Sonia A. Hall, Center for Sustaining Agriculture and Natural Resources, Washington State University

 

This article is the first in a series where we share insights from public plant breeders around the Pacific Northwest on their breeding programs and how climate change considerations intersect with their work. These conversations are about understanding the complexities of the plant breeders’ world, where there are elements that already provide useful information about adapting to future climates, and where there are questions—about the climate in the future, or the plants’ responses, or production, market, or other factors affecting a particular crops’ future—that intersect or even overshadow questions about how to prepare for future climates.

 

Headshot of Kate Evans with a leafy background

Dr. Kate Evans, WSU.

I recently had some highly educational and thought-provoking conversations with Kate Evans, Professor of the Department of Horticulture and director of the Pome (apple and pear) Fruit Breeding Program at Washington State University. These conversations broadened my thinking on plant breeding and climate change from a focus on understanding to what extent plant breeders might be considering climate change in their breeding programs, to all the complexity of what plant breeding is about, how it fits into a much broader context of production and management practices that can help growers adapt to a changing climate, and the range of challenges and opportunities that face a crop—in this case apples—and its associated industry as we experience and prepare for the changes our climate will bring. Here’s what Dr. Evans had to say.


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Check it out: Learning for the Future from a Snapshot in Time

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By Sonia A. Hall, Center for Sustaining Agriculture and Natural Resources, Washington State University

Report cover with name and a photo of a vegetable field with slanting sunlight and trees in the background

The 2021 Pacific Northwest Water Year Assessment, an example of what we can learn one year that helps us prepare for the long term. Source: cover of the report, available at https://www.drought.gov/documents/2021-pacific-northwest-water-year-impacts-assessment

I just received the 2021 Pacific Northwest Water Year Impacts Assessment. If you want to delve into the details of how temperatures and precipitation evolved throughout the water year (which runs from October 1 through September 30), check out section 3. If you want to understand what the unusual combination of conditions we experienced meant for the agriculture, forestry, drinking water, fisheries, and recreation sectors, check out section 4. If you want to learn about institutional responses to these conditions, then check out section 5. You can even explore how well the seasonal forecasting used by many in the region did at predicting what actually happened (section 6).

This report really got me thinking about the question: what can we learn from the assessment of this one year (granted, it was an unusual year) that can help us prepare for what’s to come as the climate continues to warm? Continue reading

A Cornucopia of Opportunities for Domestic Produce

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By David I. Gustafson, Adjunct Research Faculty at Washington State University

This article is part of a series, Climate Friendly Fruit & Veggies, highlighting work from the Fruit & Vegetable Supply Chains: Climate Adaptation & Mitigation Opportunities (F&V CAMO) project, a collaborative research study co-led by investigators at the University of Florida and the Agriculture & Food Systems Institute. Other collaborators include researchers at the University of Arkansas, University of Illinois, the International Food Policy Research Institute, the World Agricultural Economic and Environmental Services, and Washington State University. This project seeks to identify and test climate adaptation and mitigation strategies in fruit and vegetable supply chains.

A pile of fresh vegetables, including carrots, potatoes, leafy greens and leeks

Eat your fruit and vegetables. Can farmers grow the necessary produce for all Americans to each five servings of fruits and vegetables daily? Photo: Shiela Sund under CC BY 2.0.

Most of our moms urged us to “eat our fruits and vegetables,” and multiple studies confirm this motherly advice. For instance, the U.S. National Institutes of Health recently reported that consuming more fruits and vegetable results in reduced mortality. Unfortunately, the same report tells us what we already know: most Americans don’t consume anywhere near the five servings a day needed for maximum health benefits.

But what if we did? Could America’s farmers grow all of that additional produce? Continue reading

Check it out: Tree Fruit Breeders’ Approaches to the Challenges of a Changing Climate

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By Sonia A. Hall, Center for Sustaining Agriculture and Natural Resources, Washington State University

Part of an apple tree with bright red apples in the foreground and the green canopy behind

Future climatic conditions could be an increased area of focus for plant breeding programs. Photo: Flickr user LaraS96 under CC BY-NC-ND 2.0.

With my colleagues on the AgClimate.net team we’ve been discussing plant breeding and climate change for a while, and are actually working on some articles about that relating to our Pacific Northwest crops and growing conditions. So I was intrigued to see this article by Leslie Mertz in the Good Fruit Grower magazine titled Breeding for uncertainty. Mertz starts off by saying “Developing a new tree-fruit cultivar is a long process that begins with breeders deciding which specific traits growers will want 15, 20 or even 30 years into the future.” And close to the end she states “Of course, breeding for the future is always difficult, but it has been made much more so with the extent and effects of climate change being unknown.” In between, though, Mertz discusses existing breeding programs that have used expected future climate conditions to select traits to focus on, and are taking on the added challenge of uncertainty about future climates. Check it out.

And stay tuned for some other articles exploring how climate change intersects with plant breeding efforts underway in the Pacific Northwest.

ANNOUNCEMENT: SoilCon is Returning in February 2022! Register Today

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Logo. SoilCon: Washington Soil Health Week, February 22-23, 2023 #WASoilConThe Washington State Soil Health Initiative, with support from Western Sustainable Agriculture Research and Education, is proud to announce that SoilCon is returning in 2022. This virtual conference will bring research, extension, and production together to discuss soil health parameters at a local, regional, and global scale. The conference will be held February 22nd & 23rd, with sessions from 8:00am-12:00pm PST each day.

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Climate Analogs for Specialty Crops: See the Future Now

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By David I. Gustafson, Adjunct Research Faculty at Washington State University

This article is part of a series, Climate Friendly Fruit & Veggies, highlighting work from the Fruit & Vegetable Supply Chains: Climate Adaptation & Mitigation Opportunities (F&V CAMO) project, a collaborative research study co-led by investigators at the University of Florida and the Agriculture & Food Systems Institute. Other collaborators include researchers at the University of Arkansas, University of Illinois, the International Food Policy Research Institute, the World Agricultural Economic and Environmental Services, and Washington State University. This project seeks to identify and test climate adaptation and mitigation strategies in fruit and vegetable supply chains.

 

Photo collage showing a prophet, a crystal ball, a ouija board and a scene from Star Trek

Figure 1. We have always longed to see the future, whether via prophets,
crystal balls, science fiction, or even through the use of Ouija boards.

“It’s tough to make predictions, especially about the future.” So said Yogi Berra, repeating a version of the apparently Danish proverb whose origins have been lost. Nevertheless, as difficult and logically impossible as it might be, humanity has an innate longing to see the future (Figure 1). Ancient kings kept prophets among their advisors. Fortune tellers make a living by gazing into crystal balls. Hasbro sells Ouija boards for $20.99. And among the most popular of today’s entertainment genres is science fiction.  Continue reading

A New Approach to Increasing the Use of Prescribed Fire in Oregon

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By John Rizza and Emily Jane Davis, Oregon State University Extension

 

Person pouring fuel on a large pile of slash, with other parts of the pile smoking in the background

After mechanical treatments occur, prescribed fire can help to reduce the accumulation of fuels so that the landscape is more resilient to future wildfires. Photo: Emily Jane Davis.

The health and function of many of Oregon’s forest ecosystems have historically been driven by and supported with fire. The warming and drying climate conditions observed in recent years are adding to the likelihood of severe, large-scale disturbances. The data and literature suggest that wildfires, along with insects and disease issues, are altering the landscape at an accelerated rate (Schimel et al., 2021). After nearly two centuries of decreased fire frequency, our landscapes have accumulated heavy fuel loads that are increasingly likely to feed very large fires. The fire effects are also becoming more severe, which is contributing to the decline in the health of these valuable landscapes. Prescribed fire, an important tool for reinstating fire’s beneficial role in these landscapes, is challenging to implement. To address some of these barriers to prescribed fire use, efforts are underway in Oregon that take a new approach. Continue reading