- Contributor: Jeannette E. Warnert
Monte and Bob Bottens are a father-son no-till team in Cambridge, Ill. The article outlines their 16-year effort to grow corn and soybeans using conservation agriculture practices. The Bottens were honored with this year’s ‘Responsible Nutrient Management Practitioner’ Award at the 2012 National No-till Farmer Conference in St. Louis, Mo.
Bottens is currently a part of CASI's Executive Group.
Another article in the same issue of No-Till Farmer presents a provocative and intriguing business model that recognizes the long-term value of high-quality soils, said Jeff Mitchell, UC Cooperative Extension cropping systems specialist. A group of farmers and investors launched Fall Line Farms at the 2012 annual National No-till Farmer Conference held in February in St. Louis, Mo.
Fall Line Farms seeks to expand no-till systems and increase awareness of the value of soil quality. The new company is offering to become capital partners for no-tillers who don't have the resources to buy farmland. It will consider prospects in any geographical area in the U.S. and may also offer advice on equipment, technology and agronomy to lessees.
One of the company's founders, Clay Mitchellis, is a 38-year-old farmer in northeast Iowa and holds a degree in biomedical engineering from Harvard University. He is known worldwide for his innovative farming systems and cutting edge agricultural practices and technologies.
The articles in PDF format are linked below.
New company aims to help no-tiller expand (PDF)
Father-son team aims to thrive, not survive (PDF)
- Author: Jeannette E. Warnert
Even on the west side of the San Joaquin Valley, where average rainfall is a mere 7 inches per year, farmers can reap the benefits of winter cover crops without the expense of irrigation, University of California research has found. Growing a winter cover crop helps retain soil nitrogen – keeping it from leaching into groundwater – improves water infiltration, reduces runoff, increases soil organic matter and boosts long-term soil fertility.
Moreover, a vigorously growing cover crop can smother winter weeds, reducing or eliminating the need for herbicides or tillage between crops.
“Despite the many and varied benefits of cover cropping that are increasingly seen by farmers in other parts of the country, the vast majority of Central Valley farmers currently do not use them,” said Jeff Mitchell, UC Cooperative Extension specialist in the Department of Plant Sciences at UC Davis. Mitchell, a cropping systems expert, is based at the Kearney Agricultural Research and Extension Center in Parlier, Calif.
The costs and benefits of winter cover crops are being examined in an ongoing trial at the UC West Side Research and Extension Center in Five Points, Calif. Initiated in 2000, the trial is led by Mitchell, William Horwath, a professor in the Department of Land, Air and Water Resources at UC Davis, and Dan Munk, UC Cooperative Extension advisor in Fresno County, a cotton and soils expert.
Mitchell said the West Side trial addresses valley farmers’ primary concern about cover crops – water.
“When water is short, as it has been in many recent years, farmers wonder how inserting an extra crop that doesn’t bring an immediate return on investment makes sense,” Mitchell said. “But our work over the last 12 years has demonstrated that cover cropping ‘on the cheap’ – relying only on rainfall for irrigation – supplies many benefits and doesn’t cost much.”
Rainfall during the November to March winter growth period in Five Points averages 7 inches, slightly less than the 30-year average annual rainfall of 7.6 inches for the site. Winter rainfall has varied considerably during the trial, from a low of 2.9 inches in 2003 to a high of 11 inches in 2006.
From 2000 to 2010, a cover crop mix of triticale, ryegrain and pea was grown at a seed cost of $55 per acre (2012 dollars). In 2011 and 2012, the researchers used a mixture of fava bean and “tillage radish” for the cover crop, at a cost of $50 per acre.
Tillage radish is a large-rooted winter annual being marketed for its ability to improve soil condition. It’s thick, tuberous roots break up the soil surface. When it is killed in the spring and the roots decompose and shrivel, it leaves behind channels that help with aeration and water infiltration.
Over the course of the UC trial, an average of 3,400 pounds of dry biomass per acre was produced by the cover crops each year with rainfall alone. Productivity generally related to the amount of rain, with as little as 65 pounds of dry biomass per acre in 2007, when rainfall was 5.2 inches, and 6,400 pounds in 2005, when 10.1 inches of rain fell.
The timing of rainfall was also important. Rain is needed early to establish the crop and late in the season to sustain its growth when the temperature warms.
Over time, growing cover crops results in a significantly higher amount of carbon in the top foot of soil. Following eight years of cover cropping, soil carbon values in the standard tillage cover crop system, in which the cover crop was treated as a green manure and incorporated into the soil at a depth of 10 inches, was 12.2 tons of carbon per acre. Where cover crops were combined with conservation tillage, the researchers measured 12.8 tons per acre. In areas managed with conservation tillage and no cover crop, 11.7 tons per acre of carbon was in the top foot of soil. Under standard tillage and no cover crops, currently the common practice in the San Joaquin Valley, soil carbon came in at 9.9 tons per acre.
In addition to improving soil quality, farmers are investigating whether storing extra carbon in the soil will make them eligible for selling carbon credits under California Assembly Bill 32, the Global Warming Solutions Act.
“Sequestering carbon in farmland could be a means of mitigating global warming from greenhouse gas emissions,” Mitchell said. “We are working with farmers to develop a record of performance so they can document their potential for storing more carbon using conservation tillage and cover crops.”
- Author: Jeffrey P Mitchell
A brief update here on recent progress and implementation activities related to our 2012 overhead / drip cotton and tomato fields.
2012 Tomatoes
The processing tomato variety ‘N6397’ was transplanted on April 30.
Virtually daily crop growth and development. Sampling is now being done.
Terry Ioerger installed Watermark Irrometer sensors last week and they’re up and running now.
Our 2012 goal is to make sure we optimize water applications in the tomatoes.
I’ve received an idea for UAN32 liquid fertilizer with AGROTAIN PLUS from John Diener and have asked the West Side Research and Extension Center to implement this on Wednesday, May 23. The fertilizer will be shanked in using our coulter-led liquid fertilizer tool bar.
2012 Cotton
The Acala cotton variety, Phytogen 725 RF was planted at 62,000 seeds/acre on May 3. Twelve gallons / acre of 10-34-0 + Avail were applied about 4 inches off the seed line. The entire field was overhead irrigated up the following day and a half.
- Author: Jeannette E. Warnert
Conservation Agriculture Systems Innovation (CASI) is pleased to sponsor interactive conferences on conservation agriculture and controlled traffic farming at four locations in the Central Valley on Aug. 28, 29 and 30.
Presenters will include:
Jerry Hatfield
Director, USDA ARS National Soil Tilth Lab, Ames, Iowa
Don Reicosky
Retired USDA ARS, Morris, Minnesota
Rolf Derpsch
No-till expert, Paraguay
Clay Mitchell
Farmer, Geneseo, Iowa
John McPhee
Tasmanian Ag Research Institute, Devenport, Tasmania
The meetings will be:
Aug. 28, 1 - 4 p.m. UC Davis Heidrick Ag Equipment Center 112 Hutchinson UC Davis (530) 752-1898 |
Aug. 29, 1 to 4 p.m.
|
Aug. 29, 8 to 11 a.m. UC Cooperative Extension - Stanislaus County 3800 Cornucopia Way, Suite A Modesto, CA (209) 525-680 |
Aug. 30, 8 to 11 a.m. |
Conservation agriculture production systems optimize food, fiber and energy production from available resources, increase soil health and productivity by increasing soil organic carbon and build up many additional ecosystem services that cannot be achieved by intensive tillage-based cropping systems.
Controlled traffic farming: Plants grow better in soft soil but wheels work better on roads - the same machinery wheel tracks in cropping fields are maintained year after year. There are a multitude of potential benefits of conservation agriculture and controlled traffic farming. However, these systems are currently very minimally used in California.
The purpose of this series of conferences throughout the Central Valley in August of 2012 will be to bring together world experts on these systems to share information related to the principles of conservation agriculture and controlled traffic farming and to discuss opportunities and benefits these approaches may have for current California systems.
For additional details, view the file attached below:
Aug 2012 CASI field meetings
- Author: Jeannette E. Warnert
Seven CASI representatives traveled to Nebraska for the annual Water for Food Conference, May 30 to June 2. The group arrived early to reach out to Water for Food leaders.
CASI chair Jeff Mitchell, UC Cooperative Extension specialist in the UC Davis Department of Plant Sciences, said a partnership between Water for Food and CASI would be designed to foster:
- Information exchange activities
- Focused joint research and demonstration activities on improving the efficiency of water use in agriculture through the development of new technologies for diverse crops
- Student training exchange programs
- International conservation agriculture and precision irrigation training programs
- An opportunity to achieve greater impact to accelerate the adoption of improved systems
Water for Food is a research, education and policy analysis institute committed to helping the world efficiently use its limited freshwater resources, with particular focus on ensuring the food supply for current and future generations. CASI is seeking to launch an effort that combines research, demonstrations and outreach to increase adoption of conservation agriculture systems in California, systems that ensure maximum water use efficiency.
California farmers, like growers in many important agricultural areas around the world, have developed successful food production systems but aren't always interested in investing in the latest technology. The lost food production potential is enormous.
"If all the known technologies were adopted throughout the world, we likely wouldn't be seeing the social problems and hunger problems we see today," said Ron Harben, a member of the CASI executive board and director of the California Association of Resource Conservation Districts. "California can be an implementation laboratory for global efforts. Once we know how to successfully effect change, this process can be duplicated in other countries."
A mainstay in conservation agricultural systems is the use of overhead mechanized irrigation, such as center pivot. Nebraska has been a leader in implementation of these systems and is the home of four major mechanized irrigation systems manufacturers. Nebraska boasts 85,000 center pivot irrigation systems; only several hundred are being operated in California.
A growing body of research has shown significant economic and environmental benefits of mechanized irrigation, especially when combined with conservation tillage practices.
CASI executive board member Dan Schuler, sales manager for Senniger Irrigation Company, suggested one reason California farmers have been slow to adopt overhead irrigation is the proximity of drip and micro sprinkler irrigation dealers on the West Coast. Less than enthusiastic interest in conservation tillage may stem from its origin as a solution for erosion problems. The Central Valley of California is flat and receives negligible summer rain. No serious erosion problems are perceived in the Golden State.
Currently, more than half of California farmland is flood irrigated. A significant portion is irrigated with drip systems and micro sprinklers, but these are mainly permanent crops.
Among CASI's goals will be overcoming misperceptions and traditions and finding the right incentives for farmers to implement new technologies. The organization is now actively seeking support for its educational, research and information campaigns.
Water for Food executive director Lenton noted that the issue of encouraging Nebraska farmers to adopt center pivot irrigation systems has been addressed. Now, scientists are looking for ways to finesse even more efficiencies using advanced technologies.
"In California, the issues are more similar to the rest of the world," Lenton said. "There would be a real value in such as partnership."