- Author: Jeannette E. Warnert
The presentations provide information about the evolution of CASI, its recent research and development work on conservation agriculture systems and its new capacity-building initiatives to increase the adoption of competitive and sustainable production systems in California’s Central Valley.
The videos can be viewed using a computer, smart phone, iPad or other tablet. The following presentations are available:
Introduction to Conservation Agriculture Cropping Systems 12:51
Jeff Mitchell, UC Cooperative Extension specialist in the Department of Plant Sciences, UC Davis
The History of CASI: Conservation Agricultural Systems Innovation 18:00
Ron Harben, California Association of Resource Conservation Districts
CASI's Merge with the Conservation Tillage Workgroup 21:19
Dan Munk, UC Cooperative Extension advisor in Fresno County
History of California's Center Pivot Industry and CASI's 21st Century Goals 6:58
Harold Hughes, Overhead irrigation specialist with Reinke Mfg. (retired)
KEYNOTE: Adapting to Change: Agriculture in the 21st Century 38:32
Dino Giacomazzi, dairyman/farmer, Hanford, Calif.
Sprinklers and Applications on Pivots 12:35
Dan Schueler, Southwest District Manager, Senninger Irrigation Inc., Clovis, Calif.
California's Historic 40-year Stalemate of its 5 million acres of gravity irrigation systems 8:55
Jerry E. Rossiter, President/CEO CISCO Ag, Atwater, Calif.
- Author: Jeffrey P Mitchell
Speakers from around the world will share their expertise with California farmers during a series of four conferences Aug. 28 to 30. The conference schedule is as follows:
Aug. 28, | 1-4 p.m. | UC Davis Heidrick Ag Equipment Center 113 / Hutchinson, UC Davis (530) 752-1898
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Aug. 29, | 8-11 a.m. | UCCE Stanislaus County 3800 Cornucopia Way, Suite A Modesto, CA (209) 525-6800
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Aug. 29, | 1-4 p.m. | UC Westside Field Station 17353 W. Oakland Five Points, CA
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Aug. 30, | 8-11 a.m. | UCCE Kern County 1031 S. Mount Vernon Bakersfield, CA |
Presenters at all four conferences are:
Jerry Hatfield
Director of the USDA-ARS National Soil Tilth Lab
Ames, Iowa
Dr. Hatfield's research emphasis is on the interactions among the components of the soil-plant-atmosphere continuum and their linkage to air, water and soil quality. He has broad experience with evaluation of farming practices on water quality, water use efficiency and climate impacts on agriculture.
Don Reicosky
USDA-ARS (retired)
Morris, Minnesota
Don Reicosky has been called "a giant in the carbon fields" for his "ground-breaking work" on tillage-induced carbon dioxide loss, carbon sequestration and soil quality and environmental conservation.
Clay Mitchell
Farmer
Geneseo, Iowa
A Harvard-educated engineer, Mitchell is widely recognized as "a farmer of the future" who has combined numerous technologies and innovations to greatly increase the efficiencies of his farm operations
Rolf Derpsch
No-till expert
Paraguay
One of the first people to research no-tillage technologies in Brazil and Latin America in 1971, Derpsch is a world leader in conservation tillage, on-farm research and technology development and sustainable productivity systems with permanent soil cover.
John McPhee
Tasmanian Institute of Agriculture
Burnie, Tasmania
John McPhee is a research pioneer with zero-till and controlled traffic farming for intensive horticultural crops.
For more information, contact Jeff Mitchell at jpmitchell@ucdavis.edu, (559) 303-9689. Also see the pdf flyer attached below:
Aug 2012 Meeting Series
- Author: Jeannette E. Warnert
In addition to researchers, the seven-minute video spotlights farmers and industry representatives with solid experience implementing the basic principles of conservation agriculture in California. Those principles are minimum soil disturbance, preservation of crop residues, diverse crop rotations, use of cover crops, integrated pest management, precision irrigation and controlled or limited mechanical traffic on soils.
“I saw a bumper sticker one time that said, ‘Stop treating your soil like dirt.’ That’s been my mantra now,” Yolo County farmer Fritz Durst says in the video. “I look and see what does my soil need, and that’s what I try to do.”
Dan Munk, UC Cooperative Extension advisor in Fresno County, said conservation agriculture integrates soil management and water management practices.
“One of the things we’re finding is that, by preserving residue on the surface, we’re actually decreasing the amount of evaporation substantially during the season, thereby increasing water use efficiency,” Munk says.
Ron Harben, CASI executive board member, adds that, “It all starts by looking at conservation tillage as objectively as possible.”
Subsequent videos in the documentary series will do just that. The next episode, to be released Monday, Aug. 13, focuses on maintaining crop residues. Research has shown that residues from the previous crop or a winter cover crop helps improve the soil and reduces evaporation from the surface.
A complete table of contents for the six-part video documentary series is available online at http://ucanr.edu/documentary.
- Author: Jeannette E. Warnert
The San Joaquin Valley boasts many of America’s most innovative farms. However, in terms of conservation agriculture practices – such as using little or no tillage, maintaining crop residues on the soil surface, and irrigating with buried drip or overhead systems – the most important agricultural region in the world is lagging behind.
To introduce more valley farmers to the benefits of conservation agriculture practices, Conservation Agriculture Systems Innovation (CASI) produced a six-part documentary featuring California farmers, UC researchers and agency representatives. The series premieres Aug. 6 on the CASI website (http://CASI.ucanr.edu) with a 7-minute segment that lays out the theoretical principles and the scientific basis for conservation agriculture. Additional segments will be released each Monday for five weeks thereafter.
Throughout the series, viewers will meet farmers who are implementing conservation agriculture successfully and profitably on their Central Valley farms. The 6- to 10-minute episodes review the core principles and practices associated with conservation agriculture systems and provide examples of successful local adoption.
After the six-week series airs, viewers, farmers and others interested in conservation agriculture are invited to the UC West Side Research and Extension Center in Fresno County for the annual Twilight Conservation Agriculture Field Day, Sept. 13. The event, which begins at 4 p.m. and concludes when darkness falls, is free and includes a barbecue dinner. Viewers can get clarification on points from the video series and meet many of the farmers and scientists featured in the documentary, plus get a first-hand look at conservation agriculture research currently under way.
To register for the Twilight Field Day go to http://ucanr.edu/TwilightRegistration. The West Side Research and Extension Center is at 17353 W. Oakland Ave., Five Points.
“Our goal with the video series is to reach a wider audience of farmers with our research results and on-farm success stories, which show conservation agricultural practices can help make farmers more competitive and sustainable in the long run,” said Jeff Mitchell, UC Cooperative Extension specialist in the Department of Plant Sciences at UC Davis.
The Conservation Agriculture Systems Innovation documentary series includes the following episodes:
Aug. 6: “Introduction to conservation agriculture” – The first video defines conservation agriculture and outlines its increasing credibility in the global context.
Aug. 13: “Maintaining crop residues” – California farmers have tended to adopt “clean cultivation” systems, but research has shown that maintenance of residues from the previous crop or a winter cover crop helps improve soil and reduces evaporation from the surface.
Aug. 20: “Conservation agriculture in tomato production systems” – These systems cut production costs, reduce dust emissions and store more carbon in the soil.
Aug. 27: “Conservation agriculture in dairy silage production systems” – Three dairy farmers committed to conservation agriculture systems in their silage production share their secrets and success.
Sep. 3: “Minimum tillage systems” – This video features examples of a number of reduced pass or ‘pass combining’ tillage systems that have been developed during the past decade.
Sep. 10: “Coupling conservation tillage with overhead irrigation” – Overhead irrigation systems, such as center pivots, are particularly useful when coupled with conservation tillage.
For more information, contact Mitchell at (559) 303-9689 or jpmitchell@ucdavis.edu.
- Contributor: Western SARE From the Field Profile
While this requires considerable tillage and seed-bed preparation ahead of each successive crop, the production systems lend themselves to conservation tillage approaches developed in other regions. Adopting these approaches could:
- Reduce the time between the harvest of one crop and the planting of the next
- Lower costs
- Lessen dust by as much as two-thirds
To address these issues, Jeff Mitchell, UC Cooperative Extension advisor in the UC Davis Department of Plant Sciences, was awarded a Western SARE Professional + Producer Grant for $9,400 to evaluate and refine strip-till and no-till planting systems for corn forage production and no-till drill winter forage planting at the San Joaquin Valley in terms of crop establishment, weed control and profitability (Conservation Tillage Forage Production in California‘s San Joaquin Valley, FW06-308).
The work, conducted on the Larry and Daniel Soares dairy in Hanford, also sought to determine whether conservation tillage practices could enhance the quality of life of dairy producers as measured by profitability and the easing of time and labor requirements.
The project team evaluated strip-till silage corn production following wheat for-age at the 600-cow dairy. In 2006, the trials evaluated conventional, no-till and strip-till in replicated strips, each 10 acres, in an 80-acre field. After the 2005-06 winter wheat forage crop was chopped in April 2006, a 6-row 30-inch Case DMI Ecolo-Till strip-tiller was used to subsoil to 12 inches and clear soil for planting. The traditional tillage strips were disked and listed before planting.
In 2007, because of irrigation pump challenges, the demonstration was moved to two fields, where an 8-row 30-inch Schlagel strip-tiller was used for the strip-till comparison.
The results for 2006 were compromised by irrigation challenges, but in the 2007 demonstration, corn plant populations were higher in the strip-tilled fields, and weed populations and yields were roughly equal in both fields.
On the whole, said Mitchell, the results were positive and encouraging.
Indeed, since the project started in 2005, interest in conservation tillage has increased markedly in the San Joaquin Valley. Growers have learned that strip-tillage involves less intercrop tillage than normally employed following winter wheat chopping in preparation for spring corn silage planting.
By converting to strip-tillage, a typical dairy producer could eliminate four to five tractor passes. With high fuel costs, fewer passes across the field are better not only for the field but also for the dairy producer.
It has also been shown that strip-tillage and no-tillage for forage production can reduce particulate matter emissions by 50-90% compared with traditional tillage.
“We estimate a reduction in costs of $50 an acre by using strip-tillage instead of traditional tillage,” said Mitchell. “However, it is important to understand that strip-tillage may not work in all soil types; heavier soils may be more difficult than coarser soils.”
Mitchell offers these thoughts for producers considering strip-tillage:
- When strip-tilling, having some moisture in the soil precludes bringing up large clods
- Timely weed management is needed – time herbicide applications close to planting (within a week)
- Using the same GPS system for both the strip-tilling and planting operations will keep the planter on the strip-tilled area
Improved strip-tilling could enable triple-cropping – the sequential growing of three crops in a year – which could help San Joaquin dairy producers manage manure nitrogen with minimal risk of losses. Mitchell is currently assessing this in a Western SARE Research and Education Grant, Triple-Cropping Dairy Forage Production Systems through Conservation Tillage in California‘s San Joaquin Valley (SW08-060).
Want more information? See the related SARE grant(s) FW06-308, Conservation Tillage Forage Production in California‘s San Joaquin Valley, and SW08-060, Triple-Cropping Dairy Forage Production Systems through Conservation Tillage in California‘s San Joaquin Valley.