Posts Tagged: Desert Research and Extension Center
New research fills gap on best practices for California carrot production
One doesn't need to be a seasoned farmer to know that growing conditions in Canada are completely different than those found in the low desert of California.
And yet, for many years, studies conducted in Canada were used to generate nitrogen uptake data for the California carrot production system, so growers managed their fields based on their own experiences – and that research conducted thousands of miles to the north.
Carrots had been among the crops grown in California that did not have site-specific data to suggest the best source, rate, timing and placement of nitrogen, in the highly variable cropping seasons and locations throughout the state. That's why new information – based on local research and published in August – is invaluable to farmers in Imperial and Kern counties, where the majority of the carrots in California are grown.
Two years of data from two experimental trials at UC Agriculture and Natural Resource's Desert Research and Extension Center – as well as from 10 commercial fields – produced key recommendations for farmers to make the most of their irrigation and nitrogen applications.
“The point is we developed information in your field, based on your practices, your climate, your production system – and this is what is really happening,” said Ali Montazar, UC Cooperative Extension irrigation and water management advisor for Imperial County. Montazar conducted the study alongside Daniel Geisseler, UCCE nutrient management specialist at UC Davis, and Michael Cahn, UCCE irrigation and water resources advisor for Monterey County.
With reliable data gathered under real-world conditions, Montazar said growers now have solid reference points for when – and at what rate – to irrigate and apply fertilizers in the low desert environment. One of the key findings, for example, was that the carrots' nitrogen uptake is generally low in the first 40 to 50 days, so growers are advised to limit their fertilizer application during that period.
Then, by tailoring those basic guidelines to their own site-specific situation and optimizing their practices, growers can maximize the amount of nitrogen taken up by the carrots – and minimize the amount that is leached out.
“Improving irrigation and nutrient management in the desert production system is what local growers are themselves trying to achieve. With improving efficiency and reducing nutrient leaching, we can improve the quality of water in the Salton Sea,” said Montazar, noting the longstanding challenges of reducing contaminants from irrigated lands to protect its unique ecosystem and wildlife.
While contamination of groundwater is not a critical issue in the desert, the best practices in this study can also help carrot growers in parts of California where nitrogen leaching into groundwater and drinking water supplies is a greater concern.
Montazar is currently leading a team in studying carrot-growing management practices under slightly different conditions in Kern County, with the hopes of publishing findings in late summer 2022.
The Imperial County study, “Spatial Variability of Nitrogen Uptake and Net Removal and Actual Evapotranspiration in the California Desert Carrot Production System,” is published in the journal Agriculture, and can be found at https://doi.org/10.3390/agriculture11080752. Findings and recommendations also appear in Progressive Crop Consultant: https://progressivecrop.com/2021/09/new-knowledge-based-information-developed-to-enhance-water-and-nitrogen-use-efficiency-in-desert-fresh-market-carrots/.
Funding for this study was provided by the California Department of Food and Agriculture's Fertilizer Research and Education Program, as well as the California Fresh Carrots Advisory Board.
Southern Californians get another reason to love pizza
“Pizza can be a healthy meal, if you build it right,” said Stephanie Collins, outreach assistant at the Desert REC. “We can teach kids to add vegetables and educate them about whole grains and non-fat cheese.”
Collins initially envisioned the pizza garden teaching tool when she joined UC Cooperative Extension four years ago as a nutrition educator. The recent removal of a large tree stump made the location available.
The pizza garden will be part of the center's UC FARM SMART program, in which about 5,000 school children and “snowbird” winter residents annually visit the station to learn about UC's ongoing agricultural research in the desert area, tour the 255-acre facility on a hay wagon and taste products that are grown in the vicinity.
“Alfalfa is cheese in the making,” Collins said.
Tomatoes, onions and arugula are planted in the next wedge. The tomatoes are used for traditional sauce and onions are a healthy and flavorful topping, but arugula?
“Arugula is great on pizza,” Collins said. “It has a strong, peppery flavor.”
In another section, visitors can smell, feel and taste the herbs that season pizza sauce. Oregano, basil, sage, thyme, chives, parsley and rosemary fill the third wedge.
The fourth section holds bell peppers and rhubarb.
The garden is encircled with marigolds for the appearance of crust, and the wedges are dotted with a variety of non-pizza plants, like ornamental kale, vinca and lavender. These plants also serve an educational purpose, said Sam Urie, the UC FARM SMART manager at the Desert REC.
“A diversity of plants attracts beneficial insects, so they help the garden out,” Urie said.
The mostly senior citizen visitors pay $20 per person for the station tour, which includes a homemade lunch featuring locally produced foods. This year, the centerpiece of the meal will be carrot-ginger soup.
The visitors' fees help offset the cost of the tours for local children, who pay just $3 each.
For more information or to schedule a tour, contact Urie at (760) 791-0261, surie@ucanr.edu.
An initiative to enhance competitive and sustainable food systems is part of the UC Division of Agriculture and Natural Resources Strategic Vision 2025.
Breeding a better carrot
The scientists working in USDA’s carrot breeding program, embedded at the University of Wisconsin, Madison, realized long ago that the Southern California desert agriculture research facility has the ideal climate and soil to grow their experimental hybrids through the winter months.
Each spring, the scientists gather for a tasting. The carrots grown in DREC’s fields are then shipped to Wisconsin, where they will be planted to produce seeds. In the fall, a new batch of seeds will be shipped back to El Centro, where they will be planted, and in turn harvested again sometime in February 2014 for evaluation.
More than 1,000 varieties are grown each year on a one-acre nematode-free section of the research center with silty clay soil. In 88 beds each 120 feet long, a different carrot variety is planted every six feet under the direction of center superintendent Fernando Miramontes.
Over the years, the industry’s carrot preferences have changed. Specific cultivars are grown to create the now ubiquitous baby carrot.
“We grew about 100 varieties for the cut and peel sector of the industry,” said Rob Kane, a University of Wisconsin staff research associate who works with project leader, Phil Simon, UW research geneticist and professor of horticulture. “Farmers want a carrot that is about five-eighths inches in diameter, 14 inches long that they can cut into four pieces to make baby carrots.”
Another part of the trial contains varieties for “cello” carrots, which have different characteristics.
“Cello carrots are wide at the shoulders and taper more,” he said. “Long length doesn’t work for the cello carrots. Refrigerator vegetable drawers aren’t big enough.”
A third part of the trial contains novelty carrots, with cultivars in shades of purple, yellow, red and white.
“These carrots hold promise for juice development,” Kane said. “They can be sources of antioxidants that are said to be cancer preventative. Red carrots have lycopene, yellows have leutien and purple carrots have anthocyanins.”
Size and color are important, but the most significant trait scientists seek is good taste.
“We’re looking for a carrot that is smoother, has better flavor and disease resistance. You never have a complete package,” said Professor Simon recently told the Imperial Valley Press. “It’s crucial to have rich, full flavor. I know it when I taste it.”