Category Archives: Rye Grass Cover Crop

The Germ Seed of Cover Crop Adoption in the US – Part 11

One Helping Hand Deserves Another

Jamie Scott, a 3rd generation Indiana farmer now in his mid-40s, grew up having heard about no-till and cover crops from his dad and grandad. As you may have read in earlier posts, no-till was barely on Midwest farmers’ radar screen in the 1980s, and cover cropping was even more of a rarity.

The Scotts had not adopted the practice vigorously at that time, and conventional tillage still ruled the day on their farm and most others farms as well. Nonetheless, the Scotts were not averse to it, which made a big difference. “My granddad would hand-sow clover or plant cereal rye with a spreader after harvest on certain plots,” Jamie said. “And I remember my dad telling me about his buying the farm next door in 1976. The previous owner, like my grandad, had also used cover crops. My dad was amazed to learn the difference between that neighbor’s fields and some of ours. Where he had consistently used cover crops, the organic matter was at or just above 4.0, compared to tilled acreage like ours which in places was as low as 2.5. That got my dad’s attention!”

It wasn’t until after attending a couple of ag conferences in 2002, though, that Jamie and his dad began to get serious with no-till and cover crops on their 2000 acres northwest of Fort Wayne. He visited the Oregon Ryegrass booth at the National No-Till Conference that year, and the Farm Machinery Show in Louisville, talking with Oregon grass seed growers Larry Venell and Don Wirth. “They were skeptical that I would be able get annual ryegrass to winter over that far north,” Jamie chuckled. “Back then, they thought annual ryegrass wouldn’t stand up to winter weather much north of I-70,” he added, “and we’re 125 miles north of there! One of the things that was helpful at the time was that they didn’t try to cover up what they didn’t know about ryegrass as a cover crop and how to manage it in this environment.”

Jamie Scott, Indiana farmer and cover crop advisor – https://www.no-tillfarmer.com/articles/7463-no-tiller-discusses-rotation-and-cover-crop-strategies

Fast forward to 2021. The entire Scott farm acreage is in no-till and cover crops. Jamie has become a regional expert on cover crops and oversees application and management of cover crop seed on more than 100,000 acres a year in his area. “If it weren’t for the Oregon Commission, and guys like Mike Plumer and Dan Towery to help me out, I probably wouldn’t be working with cover crops at all,” he said. “Their knowledge and willingness to come out to work through it with me was crucial.”

Their first year, after the corn and beans had come off the fields, Jamie and his dad Jim put in about 40 acres of annual ryegrass. “In that first year, the seed had three varieties in the same bag,” he said, “and this was before they had figured out which varieties were the hardiest. So, our results were mixed,” he added. “One corn field looked great, another was so-so, and the bean field we planted too late with annual ryegrass looked like nothing happened at all. But, the next spring, it turned out that even in the bean field, the ryegrass had sent out a lot of roots and we got benefits without much top growth. And in each of those fields, production was improved over fields where no cover crops were planted. We were sold after that,” he said. “In fact, I was driving by the bean field with an agronomist the following year, and he noticed without my saying anything that the beans where annual ryegrass had been planted looked greener and healthier.”

“I’ve come to understand that as stresses increase, like droughts, the greater are the benefits of cover crops,” Jamie added. “Take for example the deep rooting of annual ryegrass. It creates root channels that are used by corn plants to access moisture far deeper than otherwise. In dry years the difference in yield between cover-cropped acres and those in conventional tillage is remarkable.”

“The knowledge we lost in the 20th Century about no-till and cover crops is coming back,” Jamie continued. “After generations of nothing but deeper and deeper tillage, we’re becoming more conservation-minded as an industry. We’ve come to appreciate the connection between cover crops, soil health and crop production. On our property, we’ve gradually built the organic matter back up, and it has more than paid for itself in healthier soil and better production.

The Germ Seed of Cover Crop Adoption in the US – Part 9

Remember this bumper sticker: Every Day is Earth Day for Farmers?  

It was a reminder to tree-huggers who, since the first Earth Day (1970), had been wagging their fingers at farmers for being “bad for the environment.” Farmers, for their part, have been equally suspicious of environmentalists for wanting to restrict farm livelihoods with unrealistic government regulations.

Given that animosity and suspicion, it seemed unlikely that a partnership might ever form between farmers and environmentalists. But that is exactly what happened in the early 2000s, after The Nature Conservancy (TNC) had identified the Tippecanoe River watershed in Indiana among its top 10 priorities in America, in terms of threats to aquatic wildlife. They showed how sediment in the runoff from fields adjacent to the Tippecanoe River were killing freshwater mussels and other aquatic species in northwestern Indiana’s watershed.

Dan Towery, who by then worked as a Natural Resources Conservation Service (NRCS) agronomist and educator for the Conservation Technology Information Center (CTIC) in West Lafayette, Indiana, witnessed the historic partnership in real time. An Illinois native and graduate from Western Illinois University and, later, the University of Illinois at Urbana-Champaign, Dan had started his professional agronomy career in 1980, with NRCS.

Recalling those earlier days, Dan said the early ‘80s was when no-tilling began to attract the attention of agronomists and innovative growers. Given the erosion problems and loss of organic matter since the 1950s, people awoke to the value of no-till, and leaving plant residue on the soil after planting. Besides reducing erosion, no-till farming also reduces the number of tillage trips, thereby reducing fuel consumption as well as soil compaction. Likewise, it sets the stage for increasing organic matter and healthier soil biology, leaving soil intact and decomposing plants to be consumed by earthworms, fungi, and healthy bacteria.

Dan credits Larry Clemons, a conservation organizer for Indiana TNC, with the skills to bring together a diverse partnership to address the problem of freshwater pollution. The Indiana Department of Environmental Management was included, as were various land trust and environmental organizations, Soil and Water Conservation Districts, Purdue University, corporations, and landowners, some whose activities impacted the river’s health. By the time Dan started at CTIC, it was already part of that effort. It was he who suggested the use of annual ryegrass as part of TNC’s plan to reduce runoff from fields.

Dan was introduced to the Oregon Ryegrass Commission administrator, Bryan Ostlund, in 2004 when Bryan was in the Midwest meeting with Mike Plumer and a number of growers, looking at early cover crop test plots on small farm acreage, using annual ryegrass.

By then, annual ryegrass had demonstrated its worthiness as a cover crop, and that was one of the primary ways in which TNC addressed agricultural impacts to the Tippecanoe. Buffer strips planted along the river eliminated most of the riverbank collapse. Cover crops in adjacent fields reduced or eliminated soil. But more importantly, it kept agricultural products (fertilizer, chemicals, animal waste) from leaching into nearby waterways. Since then, continued conservation efforts have begun to make progress in cleaning up the Great Lakes, Chesapeake Bay, and the Gulf of Mexico.

Towery formed his own company in 2006 – Ag Conservation Solutions – and became a contractor for the Ryegrass Commission, collaborating closely with Mike Plumer. Working solo and as part of a team, Dan and Mike worked passionately, if not tirelessly, as advisors, facilitators, educators, and networkers. Sadly, Plumer died in 2017, and Dan continues his work to this day.

In terms of their outreach and education, both Dan and Mike were active in organizations – both ag and conservation related – that helped define best practices. Some of their advocacy work helped stimulate more financial incentives for those reluctant to try cover crops. Some of their work helped to shape environmental and ag policy, including the annual Farm Bill passed by Congress.

 Even as a good teacher, Dan has also been the first to admit that his success has hinged on his ability to listen and to learn. “And among the greatest teachers,” he said, “are those that live the closest to the soil.” It is in that respect that Dan has come to be a champion of “regenerative agriculture.”

Annual Ryegrass – the Germ Seed of Cover Crop Adoption in the US – Part 8

New Equipment to Deliver Seed to the Soil; New Research about Ryegrass as a Cover Crop – Part 2

After meeting, the two university extension agents, Mark Mellbye from Oregon and Mike Plumer from Illinois, established a quick and easy rapport, which was key to the cover crop campaign. On Mark’s first visit, after meeting Mike, they traveled to Junior Upton’s land in hilly, southeastern Illinois. Junior had agreed to be a test farm for annual ryegrass as a cover crop. Both he and Plumer were experienced by then with no-till, and both had been experimenting with cover crops. Plumer had brought his own seed drill to plant annual ryegrass seed on Junior’s place in the fall, after the corn was harvested. Mark had arranged for Oregon seed to be given to Junior for the test plot.

“It took a lot of time to modify equipment for the no-till environment,” Mark said. “It was more than a decade before you would find planter/drills that could clear away excess residue from the row, open and close a slit in the earth for the seed and be able to maintain a uniform seed planting depth. It was a specialty piece of equipment, and while some innovators would modify their existing planters, buying a new one was part of farmers’ resistance to cover cropping.

Two other discoveries helped that issue. First, innovators showed success using planes to broadcast annual ryegrass seed. While it took more seed per acre with broadcasting than a drill, it was quick, it didn’t require a new equipment purchase, and it could be done without tying up a farmer’s time.

A second type of broadcasting seed was also developed, using high-clearance equipment with modified spreaders.

In both cases, a major benefit to aerial or broadcast seeding was that the window for planting a cover crop was opened considerably. Though experimentation, the early adopters found that seed could be sown while the corn or beans were still in the field. Yes, some of it would lodge in foliage and perhaps the coverage was less uniform than with a drill. And, yes, there was less seed-to-soil contact ideal for germination, especially if there wasn’t sufficient rain to establish the cover crop. But compared to the cost of acquiring specialized drill equipment, and the impracticality of planting cover crops after harvest, the cost of buying an extra 10 pounds of seed per acre was insignificant. (see the free management guide)

The second hurdle was to learn enough about the behavior of annual ryegrass as a cover crop to have more confidence talking to potential customers about what to expect and how to manage the crop. This phase was the one where Mark logged the most time. “I made more than 30 trips to the Midwest over a five-year period, during which I worked with Mike and others on gathering data on annual ryegrass research plots in nine different Midwest locations,” Mark said.

The research was in two basic areas: testing different annual ryegrass varieties – some brand new – and then how each variety responded to recommended doses of herbicide. Each of the nine plots was a minimum of five acres, and data was collected on repeated trials over a period of five years. What came out of the research, in addition to which varieties were the hardiest and which the easiest to manage, was the new understanding we have about the potential for herbicide “carryover” from a prior year’s weed control program, which can negatively impact the start of a new cover crop the following year. You can read more about that here. Mark said that Oregon seed growers provided all of the seed for the trials as well.

“During the herbicide trials, we got additional support from industry partners like BASF, Bayer and Monsanto,” Mark added. “And, of course, the contribution of land, time and equipment on the part of the partner farmers in the Midwest was of tremendous value.”

“The final hurdle to overcome was resistance to change,” Mark continued. “And that’s an ongoing effort. What truly helped was getting some research done, getting people like Mike Plumer and Dan Towery involved as educators. Then, beginning in 2010, the Oregon Commission began funding an outreach effort focused on education, not sales. We started with a series of annual ryegrass publications (click here), and because of our widespread research trials, ag media reporters and editors looked at the data and began to profile innovators like Junior Upton, Jamie Scott, Dan DeSutter and others.” These were the early adopters who became champions of no-till, cover crops and annual ryegrass.

“Each year,” Mark added, “me and others from Oregon would also go to the major industry trade shows. Each year, the interest in cover crops grew and the word of mouth provided a big shift in how the public viewed this new crop management practice.”

Likewise, each year, dozens of field day demonstrations would be held, where cover crops were being used and where the grower, and either Plumer or Towery, would give background and details for those with questions.

During the same time period, the Commission also produced a series of instructive videos on various aspects of growing and managing annual ryegrass as a cover crop. You can find those here.

In the next couple of blogs, we’ll introduce Dan Towery, a consultant with an amazing career devoted to conservation agriculture. His contributions, like Plumer’s and Mellbye’s, have helped thousands of growers ease into cover crops, with good advice and hands-on experience.

Annual Ryegrass – the Germ Seed of Cover Crop Adoption in the US – Part 7

Meet Mark Mellbye – Oregon’s ‘Johnny Appleseed’ of Annual Ryegrass – Part 1

As you may have read, Oregon grass seed growers and the state’s Ryegrass Commission were largely responsible for giving the Midwest cover crop initiative a substantial push over the past 25 years, as has been summarized in previous posts.

The growers you’ve read about in this series, namely Don Wirth and Nick Bowers, both named another Oregonian for acknowledgement, who put a considerable imprint on the project’s success. That man is Mark Mellbye.

Mellbye was raised in Oregon and earned two ag-related degrees from the state’s land grant college in Corvallis – Oregon State University (yes, another OSU!). He joined the Peace Corps after his first graduation and spent 18 months in Lesotho, teaching science and math, then another year traveling throughout Africa.

Before taking a position back at his alma mater, in 1986, Mark was an extension agent in Washington State. The nature of his position at OSU, he said, matched the state’s interest in helping to promote Oregon ag products, and that’s why he was able to spend so much time with Midwest cover crops in the past 25 years.

“A large part of my work in Oregon was to respond to local growers’ requests,” Mark said, “to work on projects of use to them.” Before he retired, Mark was the District Agronomist, overseeing OSU Extension projects in three counties, collectively known as “the grass seed capital of he world”. “The other aspect of my job, and the University was very supportive of this, was to help extend the marketplace for Oregon seed. The Midwest cover crop initiative was the focus.”

He added, “Of course, I was only marginally responsible for what happened with annual ryegrass adoption in the Midwest, but it’s impressive to think that when we started in the late ‘90s, there was no annual ryegrass seed sales to the Midwest whatsoever. Today, there’s upwards of 20 million pounds being shipped there for cover crop use annually, out of about 200 million pounds of annual ryegrass seed produced in Oregon.”

Mike Plumer’s name is forever linked with pioneering cover crops in the Midwest. What is less known is that Plumer, the Illinois crop advisor, didn’t consider annual ryegrass as a possible cover crop until he met Mark in 1997 and they began working together. Until then, Mike had been dabbling with cereal rye, winter wheat, hairy vetch and peas as cover crop potentials. And, as those who knew Mike understood, he was very principled and would immediately balk if he sensed he was being used for some commercial purpose, including the sales of annual ryegrass.

For the cover crop project to succeed, it would have to succeed on a number of fronts. After all, change is hard for most people, and new things tend to have bugs to work out before they are widely accepted.

“One hurdle was that the equipment needed to plant any seed into a no-till field – whether you’re talking corn, soybean or cover crop seeds – was in the process of significant upgrade and modification,” Mark said. “Today, machines can consistently plant those seeds into residue and even into green standing cover crops. Another hurdle was that the nature of annual ryegrass growth in cash crops was an unknown, but the notion was already out there that it should not be trusted. There was a suspicion, generated mostly by weed scientists, that annual ryegrass would become uncontrollable if it got loose in Midwest cornfields.”

“We’ve largely cleared those hurdles,” Mark said, “and we’re on our way to clearing the next one, which is largely educational. It may take the next generation of growers to accept the idea that conventional tillage is too expensive, and that despite the learning curve, cover crops are better for the wallet, for the soil and for the environment.”

Annual Ryegrass – the Germ Seed of Cover Crop Adoption in the US – Part 6

Learning by Doing; Importance of Innovators and Early Adopters – Part 2

“In the first five years of the annual ryegrass cover crop project in the Midwest, there was a lot of hand-holding going on as we learned what annual ryegrass could do, and most importantly, how to modify agricultural practices to make cover crops successful,” said Nick Bowers, Oregon grass seed grower and cover crop proponent. “Most of those who started trying cover crops early were already practicing no-till, so adding cover crops was an easier lift.”

And when it came to determine who was teaching who the most, it was a back-and-forth thing, for sure. “We had no idea how much we didn’t know about annual ryegrass,” Nick continued, “other than how it worked in Oregon and in the south, where most of our seed had gone for years. In the first decade of the project, we had some spotty successes because of that lack of knowledge. First, the seed we sent back wasn’t always able to withstand tough winter conditions – sub freezing temperatures, wind-chill and no snow, for example. We originally recommended that the annual ryegrass seed be planted in October, after corn harvest. And we wouldn’t figure out for a decade the effect that residual herbicide in a field could have on the next year’s cover crop, whether to diminish or even wipe out the next year’s growth.”

As for the problem of winterkill, Nick and many other Oregon growers worked on research trials in the Midwest and Oregon, trying to build more hardiness into new annual ryegrass varieties. The Commission hired Mike Plumer and Dan Towery to conduct years’ worth of trials, and other university agronomists began to work in tandem.

 It worried some that building a more tolerant annual ryegrass would make it harder to kill in the spring. So, the trials included that piece. If annual ryegrass was to be an accepted new crop in the Corn Belt, it had better grow easily, grow healthy, and die when sprayed with the proper mixture of herbicide. In the past 25 years, we’ve had no reports of annual ryegrass getting out of control, and that says a lot about the amount of education, because if you mismanage cover crops, bad things can happen. As the data grew, the Oregon team would alternate attendance at field day demonstrations and annual trade shows. Pamphlets, research papers, and videos helped to spread the knowledge. The trickle of interest became a torrent. 

Successful management of annual ryegrass depends on paying attention to details. Click here for a management guide to cover crop control.

“When we started,” Nick continued, “we thought the best way to plant annual ryegrass was to drill it after corn harvest in the fall. Since then our cooperating partners began aerial application of seed, flying it on while corn and soybeans were still in the field. That’s now the most popular way to plant. And more recently, people have found increasing benefits from ‘interseeding’ cover crops into the fields in the spring, when corn is basically knee-high.”

“As for the residual herbicide effect, we’re learning alongside those continuing to experiment, including lots of universities, and we share their successes and failures readily.” Check out this flyer we produced about that .

Nick’s work in the Midwest also led to a new business for he and a neighboring farmer, Wayne Kizer, a seed growing/distribution company, KB Seed Solutions, whose sole purpose is to provide high quality seed to those using cover crops.  “We started the company 14 years ago,” Nick said, because it became clear that people wanted to know precisely what was in each bag of seed – that it would do what it was supposed to do. Midwest customers wanted to be sure that what they were planting was designed to work well in that environment.”

Annual Ryegrass – the Germ Seed of Cover Crop Adoption in the US – Part 5

Learning by Doing; Importance of Innovators and Early Adopters – Part 1

When Nick Bowers joined the Oregon Ryegrass Commission, he was a third-generation family member to do so. His grandfather was among the founders of the Commission, a grower-funded group that promotes use of ryegrass in a variety of ways. It’s strictly a volunteer gig.

When Nick joined, he probably had no idea that he was about to become a leader and champion of cover crops in the Midwest. He didn’t know that in doing so, he would be helping to build quality back into depleted soil, where the bulk of corn and soybeans in the US are grown. Maybe he was surprised that it would result in a new business for him, in addition to his family farm. “And,” he said, “I would never have guessed in 2000 that by 2020 all but 10 percent of my farm would be in no-till.”

As the Chair of the Commission, Nick was there when the idea hatched to test annual ryegrass as a cover crop in the Midwest. He and other Oregon seed growers donated annual ryegrass seed they’d grown to help jumpstart the project. That initiative is now 25 years old and continues to bring market development and research of cover crops to new audiences.

Nick was among the first Oregon seed growers to visit the Midwest, along with Commission administrator Bryan Ostlund. There came dozens more trips as the years went by. “It was at a time I could easily travel, when my kids were younger and in school,” Nick said. “There were years when I was back east for a week a month,” he added. Nick, other growers and a career extension agent from Oregon State University, Mark Mellbye, were committed to seeing the project through and introducing it properly. “Mark was immensely helpful, both in Oregon and the Midwest,” Nick said. “It wasn’t about sales, but about research, field trials and education. I think our collective effort helped a lot, because you had university agronomists and even competing growers from Oregon emphasizing the same things over and over. It helped build credibility in the Oregon seed industry,” he added.

Nick recalls that, in the first few years of effort, Oregon growers sent only a few truckloads of annual ryegrass seed to growers in the Midwest. “It was tough finding people willing to try it out,” simply because it was novel, and it was a risk that successful farmers didn’t see a need to take. And I had quite a time of finding a proper storage facility for the seed we didn’t use right away,” he added. In fact, during one of his annual trips, Nick remembers noticing that a few pallets of seed had been broken into by mice and it had to be re-bagged. All of that changed as people began to find annual ryegrass easier than they thought to integrate into their no-till operation.

Nick said that initial success with “innovators” was important, because “early adopters” keep an eye on innovators, who were pretty excited at the results they were getting with annual ryegrass: erosion control, weed suppression, saving on nitrogen fertilizer and noticing a bump in yields.  Once the early adopters began buying seed, the sales of annual ryegrass began to multiply quickly. Some of them became seed distributors for Oregon growers. More importantly, they became the next tier of experienced trainers and educators. The cover crop revolution was growing roots.

In the next chapter, Nick and others will talk about the kind of “hands-on” work Oregon growers did to get cover crops accepted in the Midwest.

Annual Ryegrass – the Germ Seed of Cover Crop Adoption in the US – Part 4

From Pedestrian to Princess: Annual Ryegrass in Midwest Cornfields

Annual ryegrass has led a bit of a Cinderella life. Plain and pedestrian for a century or more, it was a go-to seed for jumpstarting green acreage quickly in city parks and ballfields, highway roadsides, golf course fairways and big estates around the world. Among its greatest assets over time: it’s easiness to germinate and affordability.

But then, in the mid 1990s, Oregon seed growers and the Ryegrass Commission gave Junior Upton an opportunity to see what the crop might do to slow the erosion on his thin, hilly acreage east of St. Louis. The old Cinderella seed did its job keeping soil in its place as spring rains tried to pry it loose. But the new Cinderella story, the thing nobody anticipated, was the crop’s deep rooting capability. In a couple of years on his no-till corn and beanfields, annual ryegrass roots were found at depths of four to five feet, having busted through the fragipan layers. The other ‘ah ha’ was that his corn production began to rise. Well, these three things helped add energy and excitement to a fledgling cover crop movement.  It was the first of what has become a long list of benefits, courtesy of annual ryegrass as a cover crop.

Junior and Mike Plumer weren’t shy about the results on Upton’s farm, with his yield on marginal land overtaking that of his neighbor’s acreage, which had historically been superior. But as with any new thing, Upton and Plumer found it challenging to convince others to try annual ryegrass. Farmers are wary of new gimmicks. Generation after generation has come to rely on more power, deeper rippers, and better chemistry to keep field production high. They’d say, “Conventional tillage was good enough for my pop and grandpa, so it’s good enough for me, too!” Philosopher Arthur Schopenhauer observed three stages of truth: at first, most people ridicule it. Then as it gains traction, they vigorously oppose it. Finally, when it has become familiar and others are on board, they accept it and act like they’ve never doubted it in the first place.

Don Wirth said that, at each of those stages, you’ll find a different type of person. Those who see change as their friend and are always looking for a new angle he calls innovators. The next tier are the “early adopters”, who benefit from the innovators and put changes into effect quickly. The final group are those who, like Junior’s neighbors, wait to see how things turn out before getting their feet wet. There’s nothing wrong with any of the three groups, in fact it’s a natural thing. But it shows why it takes so many years to change habitual behavior in human beings.

Thankfully, we were able to find  more than a dozen innovators willing to cooperate with our project in the late 1990s and early 2000s.  What helped the project immensely were these three things:

  • The Oregon Ryegrass Commission commitment to a long term educational and marketing effort, backed by dollars contributed by Oregon seed growers themselves
  • Don Wirth, Nick Bowers, and a few others from the Oregon seed growing industry, continued to be of immense value, for their funding, their seed and their many voluntary trips to the Midwest to witness field trials, work with cooperating growers, go to trade shows and answer questions about annual ryegrass with people interested in cover crops.
  • Hiring Mike Plumer and Dan Towery to network, work with cooperating growers, attend trade shows, become active on regional and national boards related to agriculture, and spending tons of time out in the field, adding quality control to what was one big-ass experiment.

In the next blog, we’ll talk about some of the new benefits discovered in those early years, as well as some of the interesting partnerships formed, including with environmental groups eager to try new ways to clean up polluted Midwest waterways.

Annual Ryegrass – the Germ Seed of Cover Crop Adoption in the US – Part 3

Deep Rooting Annual Ryegrass Busts Compaction

In the last blog post, you learned that the Oregon Ryegrass Seed Commission funded field trials and research in the mid-to-late 1990s into mid 2000’s, to determine the ways in which annual ryegrass might be a beneficial cover crop. You also recall that this effort was triggered by an “ah-ha” that Oregon seed grower Don Wirth got from talking to Ohio farmers at the Farm Machinery Show, who were using annual ryegrass for grazing and sileage, but who found that it helped boost corn production in those same fields.

Don was so avid about the project that he carved out more time from his business to join the Ryegrass Commission board and voluntarily lead the new effort taking place in Illinois and Indiana. All seed companies were asked to donate annual ryegrass seed, specifically diploid ryegrass varieties, having two sets of chromosomes per cell instead of four (tetraploid varieties). These tend to be hardier in yield, even in less than ideal growing conditions. Don’s seed company agreed to mix and ship the seed at his expense. 

The plan began by inviting innovative farmers already no-tilling to add annual ryegrass to their management practice. On his first trip back, Don met with a number of people, including no-till pioneer Jim Kinsella, veteran agronomist Mike Plumer, and Purdue University agriculture professor Eileen Kladivco. Oregon seed grower and Commission member Nick Bowers came on that trip, as did Commission administrator Bryan Ostlund.

In the first year of the program, Purdue helped to locate cooperative growers eager to try a small plot of annual ryegrass. “The fact that cover crops require a change in management practices, it was important to start by learning from mistakes on small plots,” Don said.

Veteran cover crop researcher and educator Mike Plumer, examining the root structure of annual ryegrass in a core sample taken from a cornfield, where the annual ryegrass was introduced as a cover crop.

Among the first to try annual ryegrass included Dan DeSutter in Indiana and Ralph “Junior” Upton in Illinois. “Mike Plumer, an Extension agronomist at the University of Illinois, took me to Junior’s farm, a veteran of no-till who had begun experimenting with cover to reduce erosion,” Don continued. “He farms in Springerton, Illinois, on hilly, compacted and poorly drained soil that had very little topsoil when he started. The year after Junior planted annual ryegrass, Plumer returned and they dug into the field to look at root structure. They were dumbfounded to learn that annual ryegrass sent roots down to 40-plus inches deep, 10 inches deeper than either corn or beans were going that year.

In a tribute article to Junior’s innovative practices and willingness to teach others, No-Till Magazine gave him a “Legends of No-Till” award, along with an article, which is quoted below, in which different cover crops are discussed for their different benefits.

Cereal rye helps with weed control and soil erosion and is a great companion crop for the other cover crops. The root system of ryegrass helps to break up the fragipan in his soil and also assists with weed control. When managed properly, hairy vetch generates both supplemental nitrogen and additional weed control.

Some other early experimenters with annual ryegrass came to a different conclusion, based on some pretty awesome mistakes. “People thought annual ryegrass could become a pest if not controlled properly,” Don said, “and they’d be right about that. A weed specialist in Dickson Springs, Illinois,  told me ‘anybody promoting and selling  annual ryegrass is committing a crime!’ He based that on his failure using herbicide spray on the annual ryegrass in the spring. The booms on his sprayer were way too low and he was getting all kinds of skips in coverage,” Don added.

“Another weed scientist on the research farm in Jacksonville Tennessee, warned that annual ryegrass would easily develop a tolerance for glyphosate and other herbicides,” Don continued. “But, in his case, he was using a variety of annual ryegrass seed out of Australia (Lolium rigidum) instead of the varieties we grow in the U.S., which are all derived from Italian annual ryegrass (Lolium multiflorum). Again, these early mistakes are very useful, as we came to emphasize the importance of proper equipment and chemistry to successfully control the cover crop. In the 25 years we’ve been doing this, we haven’t heard yet of any horror stories of our varieties developing tolerance to herbicides.”

In the next blog, we’ll talk more about the methodical way in which Oregon seed growers and Midwest cooperating farmers began to flesh out the various benefits of annual ryegrass. We’ll also summarize the efforts seed  growers undertook to develop new varieties that would be winter hardy and still be susceptible to burndown in the spring. And finally, you’ll hear about the innovation taking place in the timing of annual ryegrass seeding and the different ways being developed to apply the seed economically.

Annual Ryegrass – the Germ Seed of Cover Crop Adoption in the US – Part 2

Note: this is the first in a series of blog posts summarizing the growth of sustainable agriculture in the U.S. Specifically, this series will look at the role of cover crops and how  Oregon seed growers played a crucial role in introducing cover crops to Midwest farms.

Ah-Ha” is Shorthand for Innovation

Don Wirth is accustomed to “ah-ha moments” in his life. So, the Oregon grass seed farmer and co-owner of Saddle Butte Ag Inc. wasn’t surprised when the lightbulb went on in his head at the annual Farm Machinery Show in the mid 1990s. He was there representing Oregon grass seed growers, specifically those who grow tall fescue.

“Three farmers from Ohio approached me and asked me what I knew about annual ryegrass. I knew enough to ask them what they knew first,” Don laughed. “Well, they told me they had been rotating annual ryegrass into their corn acreage and using it for grazing and sileage, and that they were getting up to seven tons of ryegrass silage sileage per acre with it.” None of that surprised him, although plenty of questions popped up for him, like what time of year they planted and how they got rid of the ryegrass before planting corn again.  They said they drill the ryegrass into corn stubble and then no till corn into the ryegrass stubble.

When the guys claimed that their corn production had improved in the acres planted with annual ryegrass, Don’s “ah-ha” was the stimulus for what has been a quarter-century of growth in cover cropping and “sustainable agriculture”.

He came back to Oregon that February and shared his news with Nick Bowers, co-owner of another Willamette Valley seed farm and Bryan Ostlund about putting some plots on dairy farms in the Midwest.   The Commission funded the project and plots were established the next year.

At the time, annual ryegrass was a high-volume, low-priced seed used primarily in warmer climates, sprayed liberally on ball fields, parks and highway rights-of-way. The idea that this lowly species might find a niche market, at a higher price, in the corn belt was attractive. At that time, in the mid-1990s, a few innovators had already been expressing delight with the benefits of no-tilling. But cover cropping was almost unheard of.

Fast forward for a moment to 2020. No-tilling and cover crops are household terms in farm country. The reduction of what was called “conventional” tillage is stunning, as farmers adopt management practices that rebuild the soil instead of continually ripping it up every year and seeing much of it wash or blow away during the year’s weather cycles.

The acres committed to no-tilling has risen from about 3 million acres in the mid-1970s (the era that ushered in Earth Day, and the far-reaching Clean Air and Clean Water legislation) to more than 100 million acres. The growth chart suggests that the practice is continuing to climb steeply, as more growers come to understand the benefits, and the savings, available with new management practices.

When Don, Nick and the Commission jumped into promoting annual ryegrass and cover crops, it’s safe to say there were only a handful of highly innovative farms testing cover crops with no-till, which basically amounts to planting a cover crop in the field after corn has been harvested.

Today, the number of acres planted in cover crops is somewhere between 15 and 16 million acres. But, like no-tilling, the rate of adoption is remarkable. For example, in just five years (2012 – 2017) the number of cover crop acres increased by almost 50 percent! And the number of farms using cover crops also increased by 15 percent in that same time.

In the Annual Report 2019 – 2020 Cover Crop Survey published by SARE and the Conservation Tillage Information Center (CTIC), the following paragraph describes what has become an “ah ha” for the agriculture industry.

Growers clearly appreciate the contributions they attribute to cover crops: healthier soils, lower herbicide and fertilizer costs, reduced erosion, and improved weed control. In fact, they appreciate the benefits enough to invest substantially in cover crop seed, and about one in three cover crop users pays for application as well. More than half of the horticulture respondents reported that cover crops increased their profitability.

In the next blog post, you’ll learn more about how the Oregon growers became instrumental in the Midwest adoption of cover crops, through a combination of inspiration, perspiration and innovation and cooperation with Midwest growers, universities and nonprofits.

In the meantime, make note of this FREE educational opportunity, the Fall 2020 national Cover Crop Summit (nov 17 – 18). One of the sponsors is KB Seed Solutions, co-owned by Nick Bowers, one of the Oregon cover crop innovators you’ll learn more about in the next chapter.

Annual Ryegrass – the Germ Seed of Cover Crop Adoption in the US – Part 1

Cover Crop Pioneers Grow in Oregon

Oregon makes a big deal of its history. Among the most acclaimed events is the settlement of that territory by whites coming west on the Oregon Trail from what we now call the Midwest. It was such a big deal, a “reenactment” event celebrating the 150th anniversary of the start of that westward migration was held in the early 1990s. I vividly recall watching covered wagons rickety-wracking over the old dirt ruts in eastern Oregon, as men, women and children dressed in period clothing came trudging on towards their own Promised Land, the dust and grime of the journey clinging and whirling around in their footsteps. Many of them, around the campfire that night, told stories about their perilous journey overland from St. Joe, Missouri, just as their ancestors had done before them.

About the same year, in the mid 1990s, a couple of pioneering grass seed farmers began working on a novel cooperative agriculture project in the Midwest. With encouragement from Mike Plumer, a couple of willing corn and bean growers in Illinois put in some test plots of annual ryegrass seed that fall, after harvest, to see if it might slow down erosion over the winter and into spring.

In the next dozen blog posts, we’ll be looking at some of those grass seed pioneers, who spent a whole lot of time and cash proving that annual ryegrass could change the way agriculture is done in America. It would eventually signal an end to the heavy equipment, the deep ripping of soil and the added expense of chemical inputs. Annual ryegrass and many other varieties of cover crop soon followed: cereal rye, hairy vetch, crimson clover, and others have been revolutionary in showing how to improve yields while also improving soil health.

These Oregon grass seed pioneers had considered annual ryegrass to be a perpetually low-priced commodity plant, most often used in great quantities for roadsides, city parks, sports fields and golf fairways. By developing a new market for the lowly variety, farmers bet that the price might inch upwards for that specialty use, and it has.

But in order to be considered worthy of continued use as a cover crop throughout the Midwest, southern Canada, New England, the Atlantic seaboard and into the south, seed growers would be pushed into developing new varieties that would withstand harsh winters. In other words, they had to be toughened up, so as not to wither and die in sub-freezing weather. But at the same time, they had to build into the equation a vulnerability to herbicides, particularly glyphosate. Because, if annual ryegrass were really tough, it would be hard to eliminate in the springtime and even become a persistent pest weed. Thankfully, they succeeded and annual ryegrass is very easy to manage, as long as you’re particular about the details.

This year and next, we’ll be celebrating the 25th anniversary of those first annual ryegrass field trials in Illinois, with veteran crop educator Mike Plumer at the front of the pack, helping to understand how cover crops could help improve soil health, reduce erosion, improve water and air quality, and still end up profiting those who used it.