ISU researchers gain understanding of the winter rye-cover crop yield problem

ISU researchers gain understanding of the winter rye-cover crop yield problem

Cover crops offer a valuable tool for farmers to reduce nutrient loss and help ensure clean water in Iowa waterways, but some farmers have reported that planting winter rye as a cover crop may reduce corn yield.

A team of researchers at Iowa State University is investigating why there may be an occasional decrease in corn yield after planting winter rye.

robertsona
Alison Robertson

“We want farmers to understand any risks involved before they plant cover crops,” said Alison Robertson, an associate professor in plant pathology and microbiology. “If there appears to be a downside to this practice, we want to understand it more fully and hopefully develop management practices to reduce the risks.”

Robertson leads a group of ISU faculty and USDA scientists, including Tom Kaspar, Matt Bakker and Andy Lenssen, on a project that is funded by the Iowa Nutrient Research Center at Iowa State. It is one of 31 projects funded by the center since 2013.

Cover crop research has shown a potential for nutrient management. Studies in Iowa have found that planting a cover crop of winter rye can reduce nitrate loss by 15 to 55 percent depending on the location, year and amount of cover crop growth.

Robertson said cover crops are encouraged as a good conservation practice on Iowa farms. Winter rye is the most common cover crop in Iowa due to its low cost, fast growth, winter hardiness and its ability to reduce nitrate concentration in drainage water.

“Cover crops have many benefits when planted between harvest and planting the next crop,” Robertson said. “Not only do they manage nitrogen, they also improve soil health by reducing erosion, enhancing soil structure and increasing soil organic matter.”

However, the potential for occasional corn yield loss following a winter rye cover crop could make farmers hesitant to adopt the practice, she added.

Kaspar, a USDA scientist and collaborating professor in agronomy, noted that long-term cover crop users do not appear to have problems with reduced yield. He said that poor planter performance and reduced early season nitrogen availability are possibilities for the yield reduction.

“If we understand that this potential problem exists, we can manage or avoid it and release the true potential of cover crops,” Kaspar said.

Robertson said another possible cause of corn yield reductions may be stand loss due to soilborne pathogens that can cause seedling diseases. If the soil is cool and wet, these seedling diseases can result in root rot that may lead to seedling death or corn plants with reduced growth.

The research showed that rye is a host for root rot pathogens that could also infect young corn plants. The scientists hypothesized that when the winter rye cover crop is terminated, these root rot pathogens may then infect young corn plants, if conditions are conducive for disease.

In a combination of greenhouse and field trials, Robertson and research associate Jyotsna Acharya

Tom Kaspar, right, of the National Laboratory for Agriculture and the Environment, examines an emerging cover crop of winter cereal rye with research associate Jyotsna Acharya, left, and agronomy undergraduate Taylor Berkshire on Iowa State's Boyd Farm. (Photo by Christopher Gannon/Iowa State University)
Tom Kaspar, right, of the National Laboratory for Agriculture and the Environment, examines an emerging cover crop of winter cereal rye with research associate Jyotsna Acharya, left, and agronomy undergraduate Taylor Berkshire on Iowa State’s Boyd Farm. (Photo by Christopher Gannon/Iowa State University)

found that corn emergence and early growth was significantly reduced when planted after winter rye, particularly when rye was terminated within 14 days of planting corn. They found that the shorter the time period between terminating the cover crop and planting the corn crop, the higher the likelihood of seedling disease. Additionally, the roots of the young corn plants showed evidence of root rot.

“Our next steps will be to determine the effect of other production practices such as starter fertilizer applications, banded herbicide application to terminate cover crops and modified planting procedures on the risk of seedling disease after rye cover crops. This year, in our 2016 field experiments, we also will be examining the use of a different cover crop, camelina, in corn and soybean rotations,” Acharya said.

The research also indicated that in some cases, alternative management practices to limit seedling disease may be required by farmers to reap the full benefits of cover crops. These can include selecting corn hybrids with better disease resistance or tolerance, alternative cover crop species and precise planting to maintain separation between rye plants and corn rows to manage the potential risk of disease.

Robertson said better understanding of using winter rye before corn production will lead to improved management practices to ensure the optimum use of cover crops for environmental and crop production benefits.

-30-