Posts Tagged: Sonja Brodt

UC awards Brodt $2M to advance soil health, climate-smart farming practices

Regional farms will demonstrate practices such as cover cropping, reduced tillage, compost and mulch use, hedgerow planting, optimized irrigation systems

To accelerate adoption of climate-smart farming practices, the University of California Office of the President has awarded nearly $2 million to a team of UC Cooperative Extension scientists and community partners working on a network of farm demonstration sites. The project will be led by Sonja Brodt, coordinator for agriculture and environment at the UC Sustainable Agriculture Research & Education Program. This UC Agriculture and Natural Resources project is one of 38 funded with $83.1 million allocated to UC by the State of California for climate action research and innovation.

Scaling up soil health and other climate-smart agricultural practices to sequester carbon, increase water and nutrient use efficiency, and improve the resilience of farms to climate-related threats like drought and floods is a core pillar identified in California's Natural and Working Lands Climate Smart Strategy. 

Climate-smart agriculture is a systems-based approach that requires localized adaptation across the diverse soils, cropping systems, socioeconomic and cultural contexts throughout California.

“Our project will strengthen the nascent California Farm Demonstration Network for on-the-ground, regionally specific demonstration of a range of climate-smart practices,” said Brodt. “Regional farms will demonstrate practices such as cover cropping, reduced tillage, compost and mulch use, hedgerow planting, irrigation system optimization and more.”

The $1,999,524 project will pilot a participatory partnership extension model that allows farmers to learn from their peers to reduce adoption risks and adapt knowledge to an ever-changing environment, increasing the likelihood of farmer success and accelerating long-term uptake of complex, place-specific practices. 

Building on the capacity of local trusted organizations, project collaborators will be organized in a hub-and-spoke network with three regional Farm Demonstration Hubs (Sacramento Valley, North Coast and Central Coast), a pilot Hmong/Mien Demonstration Hub, and a statewide Organic Demonstration Hub.

Collaborators at each hub will be responsible for identifying and nurturing farm demonstration sites, and conducting demonstration trials and farmer-to-farmer outreach activities. Centralized organization and capacity building will be provided by UC SAREP, UC Organic Agriculture Institute, the California Association of Resource Conservation Districts, the Community Alliance with Family Farmers, and the California Farm Demonstration Network Advisory Panel.

In addition to several UC Cooperative Extension advisors and specialists across the state, partners include the UC Hansen Research and Extension Center and the Rodale Institute California Organic Center, both in Ventura County, and the UC Climate Smart Agriculture Program. Eight Resource Conservation Districts will also be involved in leading Farm Demonstration Hubs.

The project will also conduct soil health assessment activities to inform soil health and resilience monitoring protocols in future research and extension efforts. Since many existing soil health metrics were designed for agroecosystems in the Midwest and Eastern U.S., this project aims to lay the groundwork for research to adapt soil health metrics to the arid and Mediterranean climates of California.  

“By utilizing relationships built between demonstration hub managers and demonstration farms across different cropping systems, we will gather quantitative and qualitative soil health data, information about growers' management practices as well as their own perspectives of what they really need to know about their soils in order to better manage for climate resilience and mitigation,” said Brodt.

Ultimately, the project partners aim to establish an enduring on-farm extension and research system that will help thousands of farmers adopt climate-smart practices tailored to their farms.

Other grant-supported projects focus on water access, conservation

The largest of the Climate Action Matching Grants, an $8.2 million investment, supports the development of planning tools to advance sustainable, inclusive and equitable water distribution for California's 39 million people. The project is led by Ted Grantham, a UC Cooperative Extension specialist in the Department of Environmental Science, Policy and Management at UC Berkeley. Kristin Dobbin, UC Cooperative Extension specialist in the Department of Environmental Science, Policy, and Management at UC Berkeley, and Erik Porse, director of the California Institute for Water Resources are collaborating on the project.

Three other projects involving UC ANR researchers received California Climate Action Seed Grants and Matching Grants subawards:

• Development of a hydrogel that can work as a soil amendment to help small-scale vegetable farms conserve water led by UC San Diego associate professor Shengqiang Cai with Ruth Dahlquist-Willard, UC Cooperative Extension small farms advisor and interim director of UC SAREP; Mallika Nocco, UC Cooperative Extension specialist; and Matthew Gilbert, UC Davis professor of whole plant physiology. $297,979

• Development of a tool for predicting climate-water variation led by UC Irvine professor Isabella Velicogna with Tapan Pathak, UC Cooperative Extension specialist. $199,531

• A study of urban stream corridors led by UC Davis professor Gregory Pasternack with Igor Lacan, UC Cooperative Extension environmental horticulture and urban forestry advisor. $33,824

• A study of how California's housing crisis affects the growth of the wildland urban interface (WUI), where the fringes of development reach into natural areas led by UC Santa Cruz professor Miriam Greenberg, with Barb Satink Wolfson, UCCE fire advisor, Devii Rao, UCCE livestock and natural resources advisor, and the Central Coast Prescribed Burn Association.

Updated 8/31/23 to add the wildland urban interface study.

New guide shows how elderberry activates hedgerows, ecologically and commercially

A farm-edge hedgerow can be more than a boundary or barrier. When it comprises blue elderberry, it can be a way to integrate biodiversity in an often-simplified agricultural landscape – and connect with a legacy of stewardship and use by California's Native peoples.

A new guide, published by UC Agriculture and Natural Resources, provides detailed instructions and advice for California farmers on growing, harvesting and marketing blue elderberry. It is available as a free download in the UC ANR catalog at https://anrcatalog.ucanr.edu/Details.aspx?itemNo=8709.

“It's the only publication of its kind, that we know of, that focuses on commercial production of a native species from within a hedgerow, which people normally think of as a conservation feature,” said Sonja Brodt, one of the publication's authors and associate director of UC ANR's Sustainable Agriculture Research and Education Program.

In addition to illustrating the plant's many ecological benefits, “Producing Blue Elderberry as a Hedgerow-Based Crop in California” highlights the economic viability of the products made from its flowers, berries and other components.

“Consumer interest in elderberry products is booming,” said Brodt, “and blue elderberry has the potential to meet local needs with a locally adapted species that is climate-resilient, and can be produced in a relatively low-input way that supports – rather than displaces – our native ecosystems.”

The guide incorporates the findings of a UC SAREP project exploring the farm management practices, nutritional content and market potential of elderberry products. And Brodt emphasized that this resource also draws upon the deep knowledge of Indigenous people, as well as best practices of growers such as Katie Fyhrie, formerly of The Cloverleaf Farm in Dixon and another author of the guide.

“We originally got inspiration to do this work from local farmers who are pioneering the use of blue elderberry harvested on their farms, and from Native Americans in California who have long stewarded and utilized blue elderberry for food and other cultural uses,” Brodt explained.

The other publication authors are Gwenael Engelskirchen, sustainable supply chain analyst for UC SAREP; and Katie Uhl, graduate student researcher; and Alyson Mitchell, professor in UC Davis' Department of Food Science and Technology.

Growing elderberries in hedgerows adds to farm income, benefits environment

As the sustainability of agriculture continues to be threatened by changes in climate, pests and loss of biodiversity, the ancient practice of planting hedgerows with edible and medicinal species such as elderberry can help growers generate additional revenue while fostering beneficial insects and improving soil health. 

Most modern-day farmland is occupied by simple “monocrop” systems that often require frequent, energy-intensive inputs like synthetic fertilizers and pesticides to sustain their yields. These practices can be harmful to water quality, biodiversity and soil health.

But farmers who incorporate perennials into their farm landscapes can better harness living things—crop plants, pollinators, beneficial microbes and natural enemies of pests—to provide services rather than adding synthetic products, to the ultimate benefit of the farm and the environment.

Restoring field edges by planting hedgerows is a common way to add perennials to farm fields without taking land out of production. These managed rows of trees, shrubs, grasses and wildflowers were an ancient feature of agricultural landscapes throughout the world. 

 

As farmland industrialized in Europe and North America in the 1900s, many old hedgerows were removed. But hedgerows have seen a resurgence in recent years as their significant environmental benefits—including natural pest control and pollination services, improved soil health and carbon sequestration—are increasingly recognized.

With hedgerows, “the whole farm can be a site of both conservation and profitability,” says Sonja Brodt, deputy director of the University of California Sustainable Agriculture Research & Education Program (UC SAREP). 

Hedgerows can be costly to establish, and this is often the reason farmers choose not to use them. But incorporating a harvestable crop into a hedgerow can be profitable. 

Brodt is leading a collaborative effort with California farmers and UC researchers to develop native western elderberry as a hedgerow cash crop. Blue elderberry (Sambucus nigra ssp. cerulea) is a native subspecies of elderberry that is well-adapted to Mediterranean climates and grows prolifically across California. It is thought to be more heat- and drought-tolerant than the more commercialized North American and European subspecies of elderberry.

“Elderberries have this great potential as a ‘win-win' crop. Farmers harvesting and selling elderberries from their hedgerows can receive a direct income from a farm practice that benefits the local ecosystem,” says Brodt.

Consumer demand for elderberry-based products has skyrocketed in recent years. Blue elderberry has similar antioxidant levels to blueberries and can be processed into products such as jams, syrups, tea mixtures and herbal supplements. 

“We found that two-thirds of surveyed herbal and specialty foods processors and retailers were strongly interested in sourcing California-grown elderberries and couldn't find enough supply to meet their needs” says Gwenaël Engelskirchen of UC SAREP. Farmers who grow blue elderberry can tap into this growing market.

The research team recently completed a field trial in the southern Sacramento Valley to assess the profitability of blue elderberry. They found that elderberry yields from a 1,000-foot, multispecies hedgerow could provide $2,700 to $4,800 in revenue, after harvest and de-stemming costs, in only the second year after hedgerow planting. This revenue helps offset typical hedgerow establishment costs of $3,000 to $4,000, and elderberry revenue is expected to grow over time as the plant yields continue to increase. Value-added processing and specialty products made on-farm could also increase overall profitability. 

While native elderberry hedgerows is a new area of research for the University of California, North America's indigenous people have been harvesting and tending blue elderberry in California for hundreds of years. Many Native persons across the state continue to gather, cultivate and use elderberry. 

Sage LaPena, Nomtipom and Tunai Wintu ethnobotanist and certified medical herbalist, stresses that “elderberry is one of our most important traditional medicines and we've never stopped using it.” Cultivating elderberry for harvest could be one path towards increased food sovereignty for California's Native American tribes.

“There's an important lesson with this work,” said Brodt. “While new technologies are valuable for making agriculture more sustainable, we shouldn't lose sight of ancient practices that have benefited humanity and our landscapes over thousands of years. Hedgerows and other biological solutions are an essential piece of the sustainability puzzle. In addition, we have much to learn about the value of our native species from Native peoples and their traditional practices.” 

 

To learn more about this research and to find educational resources for cultivating, processing, and marketing elderberry, visit https://ucanr.edu/sites/Elderberry. 

 

 

 

Organic farming lessons offered online

Farmers who want to learn organic production practices for California specialty crops can now get training at their convenience on their own computers. The organic farming training is designed by the University of California Sustainable Agriculture Research and Education Program, Organic Farming Research Foundation and California Polytechnic State University in San Luis Obispo.

“This course includes information from the latest scientific research conducted by our University of California colleagues across the state, and boils it down into practical information for beginning or transitioning organic farmers of fruit, nuts, vegetables and other specialty crops,” said Sonja Brodt, UC SAREP academic coordinator for agriculture and environment.

The training program contains six learning modules: soil health, weed management, irrigation and water management, insect and mite pest management, disease management, and business management and marketing.

“We were able to draw on the expertise of 22 technical advisors, the majority of them from UC Cooperative Extension, UC campuses and Cal Poly San Luis Obispo, to ensure the scientific accuracy of the information provided,” Brodt said.

The program provides a combination of written content, videos and do-it-yourself exercises that allow students to follow along at their own pace and test their grasp of the knowledge. Farmers may read or view any parts of the course they choose, in any sequence. No certificate or credit is given at completion.

“While it was developed for California specialty crop farmers, the content is based on foundational principles that are relevant to all organic farmers and our hope is that growers across the U.S. find it to be a useful resource,” said Lauren Snyder, OFRF education & research program manager.

The organic farming training is free. To obtain a link to the training, submit a request at https://ofrf.org/beginning-farmer-training-program.

Funding for this online training program was made possible by the U.S. Department of Agriculture's (USDA) Agricultural Marketing Service through grant AM170100XXXXG011. Its contents are solely the responsibility of the authors and do not necessarily represent the official views of the USDA.

California elderberries have rich benefits for farms and diets

Native California elderberries can be found at the intersection of sustainable farming, super nutrition and economic viability. Naturally drought tolerant, flavorful and packed with nutrients, they are capturing the interest of farmers, health-conscious consumers and scientists.

Elderberries were the focus of a field day offered by UC Agriculture and Natural Resources Sustainable Agriculture Research and Education Program (SAREP) in September at Cloverleaf Farm, an organic berry and tree fruit operation in Dixon.

Elderberries occur naturally around the world. In California, Native Americans used the tree's stems for making flutes, berries for food and purple dye, and bark, leaves and flowers for their purported anti-inflammatory, diuretic and laxative properties.

“They had a relationship with the plant for food, medicine and music,” said SAREP academic coordinator Sonja Brodt. “We wish to honor the elderberry's history here and thousands of years of management by California native tribes.”

UC Cooperative Extension advisor Rachael Long said elderberries are her favorite native plant.

“They're pretty in the spring and summer. The flowers smell like cloves. It's a wonderful fragrance,” she said.

But perhaps the best attribute of elderberries for Long, a proponent of planting hedgerows on the edges of farmland, is the tree's ecological benefits. Elderberries can be among the rows of trees, shrubs, grasses and sedges in hedgerows that attract beneficial insects and pollinators to farms to help with biocontrol of pests and pollination of plants in adjacent crops.

“Flowering native plants like elderberries, toyon, Christmas berry, coffee berry, manzanita and coyote brush provide nectar and pollen for native bees, honey bees and other insects,” Long said. “I see a lot of green lace wings (predators of aphids, spider mites and other pests) in elderberry.”

Long reported that a tomato farm didn't have to spray as much for aphids because of the beneficial insects attracted by the hedgerow. “They saved $300 per acre each year,” she said.

Hedgerows require long-term planning and care, including weed control. Establishing a hedgerow costs about $4,000 for a 1,000-foot-long planting with a single row of shrubs and trees bordered by native perennial grasses. At that rate, Long has calculated that a return on investment in pest control takes about 15 years. For pollination, the return on investment is about 7 years.

Installation of hedgerows can be eligible for cost sharing with USDA's Natural Resources Conservation Service Environmental Quality Incentives Program. Costs can also be offset by harvesting the elderflowers and elderberries in the hedgerow and making value-added products – such as syrups and jams – or selling the flowers or berries to a processor.

Farmer Katie Fyhrie shared how Cloverleaf Farm is managing elderberries in a hedgerow, harvesting flowers in the spring to make and bottle elderflower cordial, and harvesting berries in the fall to produce and bottle deep purple sweet-tart syrup. Sixteen ounce bottles of cordial and syrup sell for $12 each. The cordial and syrup are ideal for serving with seltzer and ice for a fruity and uniquely wild-tasting drink.

Fyhrie is also working with Brodt of SAREP to gather data for research on best production practices, farm and processing labor costs, and yield comparison between native plants and named varieties from the Midwest. The study includes data from three California farms.

The project is a collaboration among the UC Sustainable Agriculture Research and Education Program (a program of the Agricultural Sustainability Institute at UC Davis), the UC Agricultural Issues Center, the UC Davis Department of Food Science and Technology and four farmers to assess the farm management practices, cost, nutritional content, and market potential of California elderberries.

While laboratory research comparing the nutritional characteristics of the California blue elderberry with the North American black and the European black is continuing at UC Davis, food science professor Alyson Mitchell and her graduate student Katie Uhl were able to share what is already known about the nutritional benefits of the fruit.

They said elderberries are high in vitamin C, dietary fiber, phenolic acids and anthocyanins. Elderberries contain antibacterial, antioxidant and anti-inflammatory agents. While they have a strong history as a treatment for colds and flu, more studies are needed to understand their medicinal use, Mitchell said.

The field day in Dixon was among the first outcomes of the two-year project. A growers' production guide, cost of production study, an assessment of market demand and nutritional analyses are also planned. The information will be made available, along with other resources on elderberry cultivation and processing, on the ASI website.

 

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