Corn
Some corn may have been sprayed as early as V5 but now we are approaching tasseling and some fields have already begun to tassel. With the corn prices being what they are more growers are inclined to apply a fungicide. Multiple studies have shown that a single application of a DMI (FRAC Group 3) + QoI (FRAC Group 11) fungicide at VT-R1 provide the best chance of return on investment. The Corn Disease Working Group of the Crop Protection Network updates the corn fungicide efficacy table in the following link.
The last few years we’ve seen more Gray leaf spot on corn in Virginia than other foliar disease. Be aware that if you used Xyway in-furrow you may not be protected against Southern corn rust that comes in later in the season some years. Typically, by the time Southern corn rust is observed in Virginia it will not impact yield greatly. However, for late-planted corn fungicide application must be made by R3 (milk stage) to limit yield loss due to Southern corn rust.
Soybeans
In Virginia, our primary foliar disease of soybean are frogeye leaf spot, Cercospora leaf blight and Septoria brown spot. Scouting for these diseases at or prior to beginning flower (R1) will give an estimation on the amount of disease pressure in a given field if diseases are present. Fields with disease pressure early are more likely to benefit from a fungicide application. Fungicides have the best chance of potentially reducing yield loss to foliar pathogens when sprayed beginning at pod initiation (R3) through seed initiation (R5). If dry conditions are prevalent during this spray window a fungicide spray is not advised. Be aware that foliar fungicides do not offer much protection against seed decay organisms or soilborne pathogens of soybeans. Below is the link for the Crop Protection Network’s soybean fungicide efficacy table.
It is not advisable to spray QoI (FRAC Group 11) fungicides alone as fungicide resistance to this group has been observed in the fungal pathogen that causes frogeye leaf spot.
If you have questions or concerns please don’t hesitate to contact me.
David B. Langston, Jr. Professor and Extension Plant Pathologist Tidewater Agricultural Research and Extension Center 6321 Holland Rd., Suffolk, VA 23437 Office (757) 807-6536 Cell (757) 870-8498 FAX (757) 657-9333 e-mail dblangston@vt.edu
Until these big high-pressure systems sitting in the eastern part of the country move east, it looks as if we are in for another week or so of dry weather. This is not good for soybean planting, any way you look at it. So, what should we do?
There are basically three options:
Plant shallow in dry soil and hope for enough rain to get the seed out of the ground. If you decide to take this approach, you want to ensure you achieve uniform seed depth and that you are not allowing the seed access to moisture below the seed that could lead to variable emergence. This approach would be less risky in clean-tilled situation where you are more confident that you have dried the soil out at shallow depths. Soybean seed will sit in the ground for several weeks and still emerge well when rainfall occurs. Some worry about “cooking” the seed during this period. Although it is true that the seed will continue to respire and its ability to germinate will decline, the bigger risk is that you catch a small rain that allows the soybean seed to imbibe water but not enough to get it out of the ground.
Caution must be exercised in no-till systems. With no-till the soil has not been uniformly dried out with tillage; therefore, there is non-uniform moisture distribution across the field. This leads to uneven access to moisture and ultimately emergence variability. Parts of the field will have adequate moisture to get the soybeans out of the ground, other parts will be completely dry as in tilled conditions, and much of the field will be in between. Those in-between areas are likely to have enough moisture to swell the seed and/or initiate germination but not have enough moisture to allow the seedling to emerge. This is my least favorite option.
Plant deep to the moisture. Under most conditions, soybeans may be planted 0.75 to 1.5 inches deep. But I don’t usually like to go much over 1 inch deep, especially in May. I want soybean to come out of the ground as fast as possible. With that said, we planted some at 1.5 inches last week. Soil temperatures are generally high enough right now for the seed to germinate and plants emerge relatively quickly. Soybeans should not be planted deeper than 2 inches. Many are not finding soil moisture at less than 2 inches. Even if there is moisture 1.5 inches down, exercise caution using this approach, especially your soils are prone to crusting, because a heavy rainfall could seal the soil before the soybeans emerge. In tilled conditions, the planter can push the soil down a little, creating a ridge of fluffy soil on each side. A heavy rain will cause this soil to move into that furrow and possibly add another ½ to 1 inches of soil to your depth. If you are going to go this route, check the emergence score on the variety.
Keep the seed in the bag until the next time we catch rain. This is the safest approach and the one that I am leaning to now. Based on historical data, we have another couple of weeks before we start seeing yield declines from delayed planting. Data from recent research throughout the Mid-Atlantic shows that each day delay in planting past mid-June can result in a ½ bu/A or more yield loss and in general these yield declines begin in the second or third week of June. We still have some time before we get to that point. The optimum planting date range for soybeans is late-April through mid-June, although it will vary from year-to-year and field-to-field based on rainfall, soil water holding capacity, and soybean maturity, but the goal is to get the soybean plants to lap the middles before reproductive growth begins. We still have still have time to do this in most cases.
Waiting to plant
is more of a concern for those who still have early-maturing varieties to plant
(MG 3 and early-4), as these varieties will have less time for vegetative
growth. I do suggest planting your earliest maturity groups first, whichever strategy
you choose to employ. Later maturity
groups have more time for adequate growth when planting is delayed.
What about
fungicide seed treatments? You have likely already decided on this and cannot
change. But fungicidal seed treatments
are less likely needed in this situation where soils are warm. It looks as if
temperatures will be warming all week, so I don’t see cold soils as a problem.
Whatever decision
a grower makes, uniform seed placement in critical to achieve uniform emergence
and ensure each seed has as equal of access to water as possible. I don’t get too concerned if some
plants emerge just a few days apart, but we don’t need them emerging a week
apart. Dr.
Rachel Vann of N.C. State discussed the importance of uneven and delayed emergence
in soybeans – How
Important Is Uniform Emergence in Soybeans? Still, keep
in mind that although earlier emerging plants will usually yield more, the late
emerging plant will still contribute to yield.
Due to soybean’s compensatory ability, the yield on the whole will
differ little from only a few days difference in soybean emergence within the
row. If you know me, you know that I’m
not a fan of planting with drills due to lack of equal spacing within the row. This lack of even spacing will become
increasingly important if plant emergence is not good.
In conclusion,
there are advantages and disadvantages to each planting option discussed, but
we still have time to plant soybeans in our region before we see drastic yield
declines. All options discussed will likely result in delayed emergence due to
environmental conditions.
After looking at some wheat fields this morning I believe most of Virginia’s wheat is between head emergence (Feekes 10.3) and flowering (10.5.1). Wheat disease pressure has been low but with rain chances increasing by the middle of next week that could change. I have seen some physiological damage caused by weather or hypersensitive responses (resistant responses) to disease but no real disease outbreaks. With the flowering stage here we typically begin spraying for wheat scab or Fusarium head blight (FHB). Right now risk of FHB is low. The risk of FHB can be monitored by the FHB Risk Assessment Tool provided by Penn State (http://www.wheatscab.psu.edu/). Fungicides such as Caramba, Prosaro, and Miravis Ace are recommended for FHB and DON control. Caramba and Prosaro will provide better control when applied at flowering while Miravis Ace has a wider window of activity from heading to 6 days after flowering. Remember to avoid using strobilurin (FRAC Group 11) fungicides after flag leaf as these fungicides can increase DON levels in grain. Fungicides applied for FHB will control the other major foliar wheat diseases. The 2019 Fungicide Efficacy for Wheat Diseases can be found at the following link. NCERA 184 Wheat fungicide table 2019_Final
If you have questions about wheat diseases you can reach me, David Langston, via e-mail or phone.
Be aware
that Velum Total now has a name and label change. The new product is simply Velum. The insecticide imidacloprid has been dropped
from the product meaning that it no longer contains material to control thrips.
If you purchase the relabeled Velum product, you will need to apply an additional insecticide. I recommend Admire Pro or generic products that include the active ingredient imidacloprid. Granular alternatives in peanut include Thimet 20G (phorate) and AgLogic 15G or 15GG (aldicarb). Refer to label rates.
Thrips are capable of causing yield loss and plant death in certain scenarios. I recommend that you use an in-furrow product in peanut. Foliar sprays are generally insufficient on their own, but may be warranted as an additional input in very high-pressure years. Cotton has the option of having insecticidal seed coating applied in addition or instead of using an in-furrow product (imidacloprid and aldicarb are labeled for both crops). Seed treatments alone require scouting and foliar sprays if warranted.
Thrips injury ratings of peanut planted with different thrips products, with and without 8 oz./A of acephate applied at pegging. The red line indicates the injury level where economic damages begin to accrue. Dark blue line is untreated for thrips, light blue line is foliar acephate only.
Use existing
quantities of Velum Total as you ordinarily would.
The workshops will be virtual via Zoom on Tuesday Dec. 8th and Tuesday Dec. 15th. On both days, choose the time that works best for you: 8-10 am OR 6-8 pm. Optional in-person “watch party” meetings offered at several locations.
Topics:Session One: Tues Dec 8th 8-10 am OR 6-8 pm Herbicide Resistance- What is It? Mechanisms of Action-How to Choose Herbicides Creating Effective Herbicide Plans
Session Two: Tues Dec 15th 8-10 am OR 6-8 pm IWM with a focus on Palmer Amaranth, Common Ragweed, and Marestail Local Perspectives on Resistance Management Putting It All Together: Creating a Weed Management Plan
Speakers: Dr. Michael Flessner and Dr. Vijay Singh, Virginia Tech Dr. Mark VanGessel, University of Delaware Dr. Kurt Vollmer and Ben Beale, University of Maryland
CCA Credits will be offered. For More Information Contact: Ben Beale at 301-475-4481 or Kurt Vollmer at 410-827-8056 28
Fire ant mound around brace roots of corn plant, Suffolk, VA.
We have high numbers of fire ant mounds in our crop fields and around our farms this year. There have been some unfortunate encounters and this message is to make you aware of what these mounds look like and the potential for injury. Mounds look like large piles of loose dirt (keep in mind they have to start small at some point). They are often found around fence posts and mailboxes, but many are located in fields, pastures, and lawns. Field borders and paths are frequently infested. Fire ants sting, just like wasps and bees, and some people will be allergic and require medical interventions. People that are not allergic will have itchy, painful welts that often fill with fluid and may take days or a week or more to heal. Usually, you will have dozens or even hundreds of stings. This is because the swarm very fast and wait to sting all at once. Keep in mind that I have lived around them most of my adult life in North Carolina and we have come to accept them as part of our environment and have learned caution and awareness. I have been stung multiple times, usually once every few years, and usually when I am scouting crops. Be aware of where your feet are standing. Walk quickly when crossing a field because you can disturb them and get away without injury. Treatment options are below for mounds located near homes and barns. You do not want children or young animals near these things.
Fire ant mound around edge of soybean field, Suffolk, VA.
I would not attempt to clear your crop fields. A single acre can contain hundreds of mounds and millions of fire ants. Fire ants are predators and will eat caterpillars and other insect pests. They will not eat seeds and plants. Large mounds can damage equipment in rare cases. Products exist that can be applied to turf and lawns with year-long residuals (e.g., TopChoice). These products require a pesticide applicator license to purchase. Baits (e.g., Advion) are an alternative if you are not licensed to apply insecticides. These can be purchased online, many local retailers do not carry them yet. Surface treatments do not work because the colony can live very deep underground. Do not attempt to treat once the weather turns cold because it will not work. Wait until spring. Pray for a cold winter.
Be safe y’all and stay healthy. As always, reach out to me if you have questions or concerns. Keep in mind that I am NOT an urban or ornamental entomologist and I am NOT trying to sell you any specific product. FOLLOW THE LABEL WITH ANY INSECTICIDE.
Corn earworm moth black light trap catches were low this week, averaging from 2 to 6 per night (Greensville=3; Hanover=2; Southampton=6; Suffolk=2). Most trap operators will be shutting off their traps by the end of this month. We greatly appreciate the efforts of cooperating growers, Virginia Cooperative Extension Agents Mike Parrish, Sara Rutherford, Laura Maxey-Nay, Scott Reiter, and Josh Holland, and Tidewater Agricultural Research and Extension Center’s Daniel Espinosa. TABLE
With the exception of Hanover, trap captures have declined since last week. The average nightly corn earworm/bollworm moth black light trap captures for this week (rounded) were: Greensville=18; Hanover=7; Prince George-Templeton=3; Prince George-Disputanta=2; Southampton=8; Suffolk=38. Thanks to our trap operators for their reports! TABLE
Average nightly corn earworm/bollworm moth black light trap captures for this week were: Greensville=28; Prince George-Templeton=5.5; Prince George-Disputanta=7; Southampton=17; Suffolk=76. Here is the Table
For soybean, here is the tool that calculates the corn earworm larval threshold number based on user input values for sampling techinque (sweep net or beat cloth), cost of insecticide application, price of beans, and row width: threshold calculator
We have done 391 vial tests so far this season, with 35% of moths surviving the 24-hour exposure to the pyrethroid cypermethrin at the rate of 5 micrograms per vial.
Average nightly corn earworm/bollworm moth black light trap captures for this week were: Dinwiddie=54; Greensville=15; Prince George-Templeton=13; Prince George-Disputanta=11; Southampton=22; Suffolk=92. Here is the Table
We have 37% survival in our cypermethrin vial tests (338 corn earworm moths tested from Suffolk, VA).
