Blog Archives
JenREES 10/8/23
Soybean Cyst Nematode: 2023 was a year for soybean diseases. I’ve been thinking about the soybean disease problems we’ve had and am planning a series of columns to talk through thoughts on management. Will focus on soybean cyst nematode for this week.
After soybean harvest is a prime time to sample for soybean cyst nematode as they’ll be at their highest levels in the soil. Soybean cyst nematode (SCN) is considered the #1 soybean disease in the U.S. as it can rob yield (up to 40%) with or without the presence of symptoms on soybean plants. When symptoms are present, they can include patchy areas of fields that may contain chlorotic and/or stunted plants. Digging up plants and carefully looking around the roots, one may observe tiny white specks that look like sand grains. With closer observation, if it is SCN, the specks will appear lemon-shaped as the female soybean cyst nematode. Technically, when the female body turns brown and dies is when it is called a ‘cyst’. Each cyst protects and contains up to 400 eggs each. When soybean is planted, juvenile nematodes hatch from eggs within the cysts during the right moisture and temperature conditions. The nematodes migrate to soybean roots where they infect, feed, breed, and then females produce new cysts full of eggs. This lifecycle occurs 3-4 times during the summer, thus, SCN populations can rapidly increase in a field in one year.
I saw that this year, a handful of times. Most field situations didn’t only have SCN as the problem, but I saw SCN populations rapidly increase from the first time fields were sampled to the next time. As you or agronomists are taking soil fertility samples this fall, split part of the 0-8” (or 0-6”) sample for testing for SCN. Or, take the soil sample in areas where the yield monitor showed yields were very low, patches where you saw disease, or field entryways. It’s also wise to take a sample from a good portion of the field for comparison. In soybean fields, take the sample a few inches off the old soybean row. However, SCN samples can also be taken from corn or other crop fields to help inform decisions if rotating to soybean next year. Place the sample cores (12-20 in total) in a plastic bucket, mix, then place in your sampling bag. I use quart-sized ziplock type bags, but there’s also SCN sampling bags available at local Extension Offices or directly from the UNL Plant and Pest Diagnostic clinic (402-472-2559). Label the bag with your contact info., field name, and that you want SCN analysis. Also be sure to fill out a completed sample submission form requesting SCN analysis and mail the samples to the UNL Plant & Pest Diagnostic Clinic (1875 North 38th Street, 448 Plant Science Hall, Lincoln, NE 68583-0722). There’s no charge for the sample analysis thanks to the Nebraska Soybean Board and your checkoff dollars. Knowing if you have SCN is the first step in management. Will share more on management in future columns.
Caring for Drought-stressed trees/shrubs: With the continuing dry conditions, this is a critical time to prepare woody plants for winter and prevent winter injury, especially to evergreens. Dry fall conditions can reduce the number of leaves, blooms and fruits trees produce the next season. Trees often delay the appearance of drought-stress-sometimes months or years after the stress occurs. Drought-stressed trees are more susceptible to secondary attack by insect pests and disease problems, such as borers and canker diseases, which can cause tree death. When watering, moisten the soil around trees and shrubs, up to just beyond the dripline (outside edge of tree leaf/needle canopy), to a depth of 8 to 12”. Avoid overwatering; but continue to water until the ground freezes as long as dry conditions persist. Use a screwdriver pushed into the soil to gauge the depth of watering.
Cedar beetles (Cicada parasite beetles): Have gotten a few calls about numerous beetles on ash and other trees that were crawling on them and flying around. The ones I’ve received samples of are cedar beetles, also known as cicada parasite beetles, which were new for me to learn about. They are about one inch long, and dark brown or black. The males have short, comb-like antennae. The beetles are harmless to trees and are laying eggs in the bark cracks. Larvae hatch, travel down tree cracks and burrow through soil looking for cicada nymphs to feed on their blood. So, they’re considered a parasite of cicadas, not of trees, and no control is needed.
Cedar beetles/Cicada parasite beetles
Sudden Death Syndrome and Corn Residue
Symptoms of Sudden Death Syndrome (SDS) on leaves show green veins with discoloration between the veins (left photo). Signs of the blue/gray/white Fusarium fungus causing SDS on a rotted soybean root (right photo).
Grazing corn residue provides many benefits to both livestock and grain farmers, yet many corn stalks in our area are not grazed for various reasons. With as much hail as we’ve had this fall, grazing is also an option to remove ears and kernels that were lost, preventing volunteer corn next season. Normally there is less than a bushel of ear drop per acre, but we most likely have more than that in some of our fields this year. Two kernels per square foot or one ¾ pound ear in 1/100 of an acre is the equivalent of 1 bu/ac yield loss. In 30” rows, 1/100 of an acre is 174’ long if you count in one row or 87’ if you count in two rows.
Soil samples (0-8″) for soybean cyst nematode (SCN) can be taken at any time but always good to sample areas that were affected with SDS to determine if SCN is also present.
What may also be of interest to you is a recent finding between corn grain loss pre-and during harvest and sudden death syndrome (SDS) of soybean. Many asked me this this year, “Why did I see SDS this year when we’ve never had it in this field before?” It’s a great question and I often responded by saying we need to sample the areas affected with SDS for soybean cyst nematode (SCN) as the two diseases are synergistic. Sampling for SCN still remains free through your Nebraska Soybean Board Checkoff dollars and you can stop by the Extension Office for free sampling bags. Crop consultants should contact the UNL Plant and Pest Diagnostic lab directly at (402) 472-2559 if you are requesting 10 or more sampling bags.
Anything that moves soil can transport the fungal soil-borne pathogens causing these diseases. But recent research from Iowa State University also suggests that the fungal pathogen causing SDS (Fusarium virguliforme) survives on grain lost during the harvest process in fields and that SDS management in soybean actually needs to begin at corn harvest.
Studies were conducted for two years in greenhouse and in field plots with nine treatments to determine the survivability of Fusarium virguliforme (Fv) on corn and soybean residue. The treatments were: 1-Corn kernels + Fv; 2-Corn roots + Fv; 3-Corn stem/leaves/husk + Fv; 4-No residue + Fv; 5-Soybean seeds + Fv; 6-Soybean stem/leaves/pods + Fv; 7-Soybean roots +Fv; 8-Corn stalk on soil surface + Fv; 9-Corn kernels and stalk on soil surface + Fv. The researchers consistently found in both the greenhouse and field experiments that Treatment 1 of corn kernels at average harvest loss resulted in the most SDS. Treatment 2 consistently resulted in the second most SDS.
From Iowa State University, September 2010, “Good Harvest in Corn Should Help Manage SDS“.
This helps to explain why some farmers are finding SDS in fields that have been continuous corn for a period of years, are finding SDS in corn and soybean rotation when little or no SDS was previously observed, and why SDS has increased in seed corn fields that may have higher harvest losses. They did not experiment with tillage systems and their recommendation is to reduce harvest losses to reduce the risk of SDS.
Grazing residues can reduce your risk from these harvest losses and for those losses which were incurred with the hail/wind storms we’ve experienced since Labor Day. When grazing corn residue, cattle are selective. They will eat the grain first followed by the husk and leaf followed by the cob and stalk.
It’s also important to be aware of grazing restrictions from herbicides applied to row crops; you can read more about that in this post.
JenResources 