Clemson Takes Precision Agriculture On The Road

Kurt LawtonGeneral

Precision farming hits the road in South Carolina as Clemson University Mobile Precision Ag Lab travels the state to take ag research from the field to the farmer.

Clemson’s Will Henderson works from the back of the trailer to share real-time results of Clemson studies and demonstrate the principles of precision agriculture.
“It’s a traveling road show for precision ag,” Henderson said.

Precision agriculture is the practice of using remote-sensing, soil sampling and information-management tools to optimize agriculture production.

The intent is to improve the accuracy of applying water or chemicals within a field. The finite management of precision agriculture is in contrast to whole-field or whole-farm management where decisions are uniformly applied. This approach helps protect the environment and improve both yields and the grower’s bottom line.

“It’s micro-managing individual parts of the field,” Henderson said. “Precision ag can help increase a farmer’s net return by applying these principles on a site-specific basis.”

For more information, check out the story and video.

France Tests N Fertilization Using Remote Sensing

Kurt LawtonAerial Imagery, Company Announcement, Fertilizer, International, Remote sensing, Satellite

RapidEye, a German-based GIS mapping technology provider, is working with a France company to test and deliver biomass maps that can help farmers improve Nitrogen efficiency in wheat and canola fields, as reported by Vector1Media.

RapidEye provided S2B’s VISIOPLAINE platform with biomass maps to support nitrogen fertilization of canola fields for five regions from early winter 2008 to early spring 2009. In June 2009, RapidEye delivered chlorophyll maps for 2 different areas in France.

The results and field measurements are being tested, analyzed, and confirmed this year before introducing this solution into the wheat market in 2010. The cooperatives and scientific institutes contributed information collected in the fields, whereas RapidEye was responsible for the analysis from the remote sensing perspective, and delivered an intermediate product in the form of biomass and chlorophyll maps.

Based on these maps, S2B was able to make recommendations for nitrogen fertilization in canola and wheat fields to the farming community through their VISIOPLAINE platform. “In early 2009, S2B and RapidEye entered into a strategic partnership agreement for all remote sensing projects that VISIOPLAINE plans over the next three years.

Through our partnership with S2B’s VISIOPLAINE platform, we will increase RapidEye’s visibility in the French Precision Farming market.” said Michael Prechtel, Head of Sales and Marketing at RapidEye. Future projects with S2B include Precision Farming services for sunflower, potatoes and sugarbeet. RapidEye’s contributions to these projects include identifying variabilities of biophysical parameters within fields such as nitrogen content and leaf area index.

Precision Fertilizer Use Helping Shrink Hypoxia Zone

Kurt LawtonConservation, Corn, Fertilizer, sustainability

A good story that appeared recently in Wallaces Farmer magazine highlights farmer efforts to continually improve precision fertilizer application. In fact, it reports that the “dead zone” in the Gulf of Mexico has shrunk and that Nitrogen delivery has been reduced by 21 percent.

The “hypoxia zone” in the Gulf of Mexico is significantly smaller this year than scientists predicted it would be, and conservation efforts by farmers upstream in states like Iowa and Illinois are a key reason, say officials with the Iowa Farm Bureau, the Iowa Corn Growers and the Iowa Soybean Association.

The hypoxia zone, or ‘dead zone’ as it’s sometimes called, in the Gulf of Mexico is 65% square miles smaller than originally predicted, according to a new report from the Louisiana Universities Marine Consortium and Louisiana State University.

“This was surprisingly small given the forecast to be among the largest ever and the expanse of the dead zone earlier this summer,” said Dr. Nancy Rabalais, commenting on the report last week. She is one of the scientists who made the earlier prediction.

The decision about what strategy to take to solve the “dead zone” problem has ramped up as the Obama administration considers using a regulatory attack on the issue. Suzanne Schwartz, who directs a division of the U.S. Environmental Protection Agency that is working on the dead zone issue, says the federal government and Louisiana researchers are checking to see whether the pollution violates water quality standards. If it does, “The state of Louisiana could set standards for what comes in, using the legal authority of the Federal Clean Water Act,” Schwartz said at a conference in late July.

The possibility of the Environmental Protection Agency regulating how much nitrogen and phosphorus fertilizer farmers can apply to cropland is drawing fire from agricultural interests in Iowa and other states along the Mississippi River—including farm organizations, commodity groups and fertilizer dealers.

“What this shows us is that Mother Nature has as much to do with the size of the hypoxic zone as anything, but Iowa farmers are doing their part to use soil and water conservation measures to reduce nitrates and phosphorus run-off.  We’ve already seen a 21% decline in nitrogen delivery to the Gulf. That’s why Iowa Farm Bureau nominated the Iowa Department of Agriculture and Land Stewardship and Iowa Farm Service Agency for the Environmental Protection Agency’s (EPA) Gulf Guardian Award last year for its Iowa Conservation Reserve Enhancement Program,” says Rick Robinson, environmental policy adviser for the Iowa Farm Bureau Federation.


Robinson adds, “We still have more work to do, but the key thing is farmers are taking action to reduce runoff.  While we cannot control Mother Nature, we can target and coordinate federal and state conservation matching funds used for cost sharing – it’s a continuous effort.”


The report of the shrinking hypoxia zone comes as welcome news to Iowa farmers, who this year, have planted a record corn crop and are expecting a record corn yield. “Thanks to advances in seed genetics, better in-field conservation measures being put into place on the land by farmers, and the development of new precision farming methods and other technology, farmers can feed the world, while continuing to protect it,” says Robinson.

Precision Agriculture: Robot-Style

Kurt LawtonEducation, Events, GPS, Precision Ag in the News, Research, Satellite

Check out this video from a field robot event at Wageningen University in the Netherlands, courtesy of Epoch Times online.

“We can reduce the amount of chemicals we use by the very precise application and by doing so, we will also reduce emissions and residuals of chemicals on food.”

Putting theory into practice, students and engineers held a Field Robot Event at the Wageningen University campus last month.
They tested small, driveable machines averaging between 50 to 80 centimeters in width and no more than 40 centimeters in height. Cameras, sonar, infrared and GPS sensors helped the machines steer in the right direction

The robots can distinguish between good and bad plants. They are designed to direct a detergent spray on weeds with such high precision that they avoid touching the crop itself.

The Field Robot Event tested the tiny machines’ ability to navigate and detect weeds.

[Professor Eldert Van Henten, Wageningen University]:
“What we see is that currently tractors are already using auto-steering and GPS so in a way we are supporting human labor with technology. The next step might be that the farmer is supervising one or two additional tractors, still having supervision and then further future might be that robots are truly autonomous on the field.”

Last Of 8 New GPS Satellites Set To Launch

Kurt LawtonGPS, Industry News, Satellite

The U.S. Air Force, responsible for managing the GPS satellite constellation, is scheduled to launch the last in a series of new GPS IIR-M satellites to ensure improved GPS capability well into the future, as reported by Satnews Daily.

Built by Lockheed Martin, the satellite offers features to include improved accuracy, enhanced encryption, anti-jamming capabilities and a second civil signal to provide dual frequency capability and improve resistance to interference.

“The GPS IIR/IIR-M satellites are the cornerstone of the GPS constellation, there performance have been exceptional and we expect them to be operational well into the future,” said Col. Dave Madden, Commander, Space and Missile Systems Center’sGlobal Positioning Systems Wing. Lockheed Martin and the Delta II program have played an imperative role ensuring users worldwide continue to receive improved GPS services.

The GPS constellation has the most satellites and the greatest capability ever.  Currently, there are 30 operational satellites broadcasting worldwide, every day, 24 hours a day, 7 days a week, 365 days a year. The Air Force remains committed to providing uninterrupted positioning, navigation, and timing service to users around the globe.

The Air Force Space Command’s Space and Missile Systems Center, located at Los Angeles Air Force Base, Calif., is the U.S. Air Force’s center of acquisition excellence for acquiring and developing military space systems including six wings and three groups responsible for GPS, military satellite communications, defense meteorological satellites, space launch and range systems, satellite control network, space based infrared systems, intercontinental ballistic missile systems and space situational awareness capabilities.

Southern Precision Agriculture Conference

Kurt LawtonConservation, Corn, Cotton, Displays, Education, Equipment, Events, Industry News

Southern growers interested or already involved with the efficient tools of precision agriculture should take part in the upcoming January conference in Tunica, Mississippi.

The Southern Precision Agriculture Conference will be held January 12th and 13th, 2010, at Harrah’s Tunica Convention Center in Tunica. It will be part of a joint meeting with the National Conservation Cotton and Rice Conference, the Southern Corn and Soybean Conference and the newly formed Southern Field Crop Alliance (SFCA).

The SFCA conference will examine issues across crops and precision agriculture technologies. And it provides a chance to network with growers and industries from across the south. For more information on SFCA, contact Angus Catchot at acatchot@entomology.msstate.edu or B. Rogers Leonard at rleonard@agcenter.lsu.edu. Conference details are found at http://nctd.net/.

Precision Farming Advances in Popular Science

Kurt LawtonConservation, Education, Farmers, Fertilizer, GPS, International, Precision Ag in the News, Research, Resources, Satellite, sustainability, University, weather

Popular Science magazine did a nice job providing readers with a glimpse into the precision agriculture research that is needed to grow twice as much food by 2050. The writer talked about how this challenge is everyone’s problem, but scientists are hard at work fomenting a second green revolution.

Here are the research projects that the magazine chose:
1. Sahara Forest Project — Greenhouses using seawater and solar power to grow cash crops in the desert.
2. Soil sensors — Research at Iowa State University into wireless soil sensors that may help farmers use water, fertilizer and other inputs more efficiently.
3. Improved rice — Researchers hope to turn this staple crop into a super rice that grows faster in warmer and drier climates by transforming its photosynthesis process.
4. Replace fertilizer — Michigan State researchers attempt to replace/reduce commercial fertilizer use with microbes. They are currently field testing microbial cocktails (Bio-Soil Enhancers) that can simultaneously reduce the need for phosphorous and nitrogen, protect plants against pathogens and boost yields in virtually any type of crop.
5. HarvestChoice — The Gates Foundation is funding data compilation of Africa’s agricultural systems and land use to increase yields to feed the growing continent.
6. Satellite soil moisture — NASA and USDA are working to monitor soil moisture levels around the globe to hopefully improve crop forecasting.
7. Robot labor — The challenge of American specialty crop growers finding human labor is increasing difficult. Current research using robots with a variety of sensors will help machines scan for fungus, growth rate, soil moisture, humidity, light levels and more. But cost of such technology is the current challenge.
8. Rebuilding soil — Scientists hope to turn waste into a charcoal that, when applied to degraded unproductive soil, will attract microorganisms to help plants access nutrients, hold more water and lock in carbon. Companies are working on portable machines to produce biochar on-site.
9. Make supercrops — Research is bioenginering the African staple crop cassava root to turn it into the PowerBar of the vegetable world. They’re attempting to increase protein, add vitamins, increase shelf life, add virus resistance and eliminate cyanide-producing toxins in the root.

Precision Farmers Cut Pesticide Use With Seed

Kurt LawtonConservation, Corn, Education, Farmers, Fertilizer, GPS, sustainability

GM seed helps feed the world through higher yields and fewer chemical inputs which helps the environment. Photo courtesy of NCGA.

GM seed helps feed the world through higher yields and fewer chemical inputs which helps the environment. Photo courtesy of NCGA.

While the anti-agriculture activists spout misinformed data about how genetically-modified grains have not boosted yields nor reduced use of fertilizer or chemicals–those of us living and breathing modern precision agriculture know the truth.

In my hundreds and hundreds of interviews I’ve done over the years with progressive farmers (in stories that have appeared in Progressive Farmer, Farm Industry News and other magazines), these guys and gals achieve regular yields that greatly surpass the state corn average (sometimes by 100 bushels and more). And when activists cite average yields to build their cases on, they fail to realize the true benefits of these crops.

Every farmer attributes these astounding yield gains to better genetics that help reduce plant stress while allowing use of fewer expensive fertilizer and chemical inputs. And the tools of precision farming–from GPS-guided auto steer and planter/spray boom control to intelligent prescription maps and software that delivers laser-focus fertilizer application by field management zones–help achieve awesome environmental stewardship.

For example, Mazon, Illinois farmer Donna Jeschke has cut her pesticide use by 80 percent thanks to seeds that grow into corn that resist bugs. “Since we have been using this genetically modified seed,” Donna says, “we have never had to spray for corn borers on either GMO seed or on refuge,” which is non-modified corn farmers grow so beneficial bugs can survive.

Donna uses global-positioning-satellite technology, or GPS, to make sure her tractor plants razor-sharp, perfect rows. This more precise farming saves her 10 percent in fuel and also means she can apply fertilizer without waste, which not only saves money but is better for the environment.

“Obviously the land is the greatest natural resource that farmers have,” she says. “Without that resource, we would not be in business. So we must be careful stewards of the land.”

Precision Ag Retailer Blogs To Customers And Fans

Kurt LawtonAg Leader, Dealers, Education, InfoAg, Resources, Retailers, Trimble

Does your precision technology provider deliver good information to you in methods beyond direct contact or a Website?

A good lesson regarding customer service and expanded ways to connect with customers comes from precision agriculture solutions provider HTS Precision Ag, based in Harlan, Iowa.

For example, check out their blog called “Precision Ag Explained,” where Adam Gittins posts weekly insights on products, issues and even his attendance and talk he gave at the recent precision agriculture conference InfoAg.

This week, Gittins talked about Trimble’s new Ag 3000 cellular modem, used to connect to a VRS or CORS network for RTK corrections — a product he tested and wrote about in a previous post. And he mentioned the company’s True Guide, which correct implement drift. Another post talks about Ag Leader’s commitment to training customers and prospects by breaking ground on a new training center. And still more posts highlight their own training sessions and ride & drives.

Not only does HTS blog, they are also using a Facebook fan page (where you can even RSVP for training sessions if you are a Facebook member) to connect with users on that social media site. And they also have an updated Website where they also connect with customers using an email newsletter.

HTS offers solutions to growers from Ag Leader Technology, Trimble Navigation, Norac, Garmin and Wilson Electronics. They serve growers in portions of Iowa, Kansas, Missouri, Oklahoma and Nebraska.

New USDA Satellite Images of Ag Land

Kurt LawtonAerial Imagery, Precision Ag in the News, Resources, Satellite

USDA’s National Agricultural Statistics Service (NASS) just released new satellite images of agricultural land cover for the 2008 crop year.

The images, referred to as the Cropland Data Layer (CDL), identify geospatial crop locations in three U.S. regions: the Mid-Atlantic and, for the first time, the Southwest and Southeast.

The CDL information is a useful tool for projects ranging from monitoring crop rotational patterns, land use change and environmental modeling, to water resource and carbon emission management. Agribusinesses and farmers, as well as government, researchers and academic institutions, use the CDLs to study pesticide risk, epidemiology, transportation, fertilizer usage and potential, market data analysis and carbon dioxide fluxes.

The Mid-Atlantic region is the largest CDL and covers Delaware, Maryland, New Jersey, New York, North Carolina, Pennsylvania, Virginia and West Virginia. The Southwest region CDL includes Arizona, Nevada, Utah and Wyoming, while the Southeast region CDL is comprised of Alabama, Georgia, South Carolina and Tennessee.

NASS produced the CDLs using satellite images observed at 56 meter (0.775 acre) resolution and collected from the Resourcesat-1 Advanced Wide Field Sensor (AWiFS), Landsat Thematic Mapper and Moderate Resolution Imaging Spectroradiometer (MODIS). The collection of images was then categorized using on-the-ground information including field location, crop type, land cover, elevation, tree canopy and urban infrastructure.

The entire inventory of CDL products, including metadata and accuracy assessments, is available online at the USDA National Resource Conservation Service’s Geospatial Data Gateway and the NASS Website.