–by Dr. Raymond Cloyd
European pine sawfly, Neodiprion sertifer
Spruce spider mite, Oligonychus ununguis
Lilac/ash borer, Podosesia syringae
–by Dr. Raymond Cloyd
European pine sawfly, Neodiprion sertifer
Spruce spider mite, Oligonychus ununguis
Lilac/ash borer, Podosesia syringae
–by Raymond Cloyd
The Kansas Honey Producers Association appreciates Kansas State University extension agents and all the work they do across the state for pollinators including honey bees. We would like to offer support during these challenging times. With the focus on home and health, we are seeing an increased interest in beekeeping across the state. The Northeastern Kansas Beekeepers Association offers beginning classes associated with beekeeping each year. Because of the need to distance ourselves, our classes are held remotely. Although this has some disadvantages, the classes are recorded. The private YouTube links to both classes are provided below. The first class is “Beginning Beekeeping” and provides information on biology, acquiring bees, basic diseases, colony growth, and seasonal management. The second class is “Year 2 and Bee-Yond,” which focuses on topics related to individuals with some beekeeping experience. Topics include why hives die, making splits and requeening a hive, management of varroa mite, and extracting honey. The classes are available to members of the Northeastern Kansas Beekeepers Association for $5.00 but these classes are being offered free to extension agents. We ask that you respect our work and if others would like to view the programs, please direct them to our web site: www.nekba.org. Questions and requests for assistance may be sent to Becky Tipton, President of the Kansas Honey Producers Association at bstbees@embarqmail.com or 785-484-3710.
Beginning Beekeeping: https://www.youtube.com/playlist?list=PL-ODXdd1Vl4knXZL7IcjeBhVIGu3bcdju
Year 2 and Bee-Yond: https://www.youtube.com/playlist?list=PL-ODXdd1Vl4k0DQmqCvLszBrs6zJtOR94
— Dr. Raymond Cloyd
The larvae (caterpillars) of the Eastern tent caterpillar, Malacosoma americanum, are emerging (eclosing) from their eggs and feeding on the leaves of trees and shrubs (Figure 1).
Figure 1. Eastern tent caterpillar feeding on new leaves (Raymond Cloyd, KSU)
After caterpillar’s emerge from the eggs, they create a distinct white, silken nest (or tent) in the branch crotches of trees and shrubs (Figure 2) including: birch, crabapple, hawthorn, mountain ash, poplar, willow, and flowering cherry, peach, and plum. The nest protects caterpillars from cold temperatures and natural predators.
Figure 2. Eastern tent caterpillar nest (Sean Mills)
Caterpillars are black and have a white stripe extending the length of the body along with blue markings on both sides of the body (Figure 3). There are five larval instars (stages between each molt). Eastern tent caterpillar is one of our earliest caterpillar defoliators in the season, feeding on newly emerged leaves, which can reduce the ability of trees and shrubs to produce food by means of photosynthesis. Although feeding damage may not directly kill a tree or shrub, a decrease in photosynthesis can predispose plants to secondary pests such as wood-boring insects. Leaf quality can influence tree and shrub susceptibility. For instance, black cherry, Prunus serotina, trees grown in the shade are fed upon less by Eastern tent caterpillars due to lower leaf nutritional quality.
Figure 3. Eastern tent caterpillar (Raymond Cloyd, KSU)
The young or early instar (1st through 3rd) caterpillars are active during the daytime and reside in the silken nest at night. During the day caterpillars emerge from the silken nest and feed on plant leaves. On over-cast or cloudy days caterpillars will remain inside the silken nest. The final instar (5th) caterpillar only feeds at night. The length time of time that caterpillars spend feeding increases 4-fold between the 1st and 5th instars. Feeding activity depends on temperature with caterpillars feeding for a longer period of time when exposed to warmer temperatures than cooler temperatures. Eastern tent caterpillar overwinters as an egg mass attached to the branches or small twigs (Figure 4). There is one generation per year in Kansas.
Figure 4. Eastern tent caterpillar egg mass attached to branch (Raymond Cloyd, KSU)
The silken nests can be physically removed or disrupted by hand. You can destroy, disrupt, or open-up the silken nest using a rake or a high-pressure water spray. The young exposed caterpillars are susceptible to consumption by birds. However, the later instars are fed upon less because the hairs on the body deter birds from feeding on them.
Spray applications of the bacterium, Bacillus thuringiensis subsp. kurstaki, or spinosad are effective in killing small (young) caterpillars and suppressing minor infestations of Eastern tent caterpillar. These insecticides are stomach poisons so caterpillars must ingest the material to be negatively affected. When caterpillars are mature and approximately 2 inches long, then pyrethroid-based insecticides, such as bifenthrin, cyfluthrin, and lambda-cyhalothrin should be applied. It is important to apply insecticides when caterpillars are active during the daytime to increase exposure to the insecticide. However, pyrethroid-based insecticides are harmful to pollinators (e.g. honey bees) and beneficial insects. Therefore, do not apply pyrethroid-based insecticides when pollinators are active. For more information on managing Eastern tent caterpillar populations contact your county or state extension specialist.
–by Frannie Miller
The Pesticide Safety and Integrated Pest Management Program is hosting an insect-themed art contest for Kansas 4-Her’s and art students. This year the artwork needs to fit into the contest theme of “Exploring Pollinators.” The goal is to explore what pollinators do and why they are important and create an art piece that captures that information. Selected artwork will be used to promote pollinator week (June 21-27, 2021) and create other educational items. The program encourages youth to get your creative hats on and create an entry before the April 16, 2021 deadline. Entries must feature an insect as the central focus of the art. More information on the rules and how to submit an entry can be found at: https://www.ksre.k-state.edu/pesticides-ipm/ or you can e-mail fmiller@ksu.edu to have the rules e-mailed to you.
Honeybee by Emma Good
Silverfish by Leeann Skinner
–by Frannie Miller
Are you an applicator that is still short some hours to renew your 2020 commercial applicator license or just want to get credits to renew this year? If your license expired during the COVID-19 State Disaster Emergency (2020) it shall remain valid until 90 days following the termination of the emergency declaration (date yet to be determined). The Kansas State Pesticide Safety Program is providing a training opportunity this April for several of the categories to help these individuals renew. This training will be offered in a virtual format via zoom. These will be the only trainings offered by the program this spring. In order to hold the training, we must have at least 20 registered participants.
Training dates and categories:
April 21-22: Right-of-Way, Industrial Weed, and Noxious Weed (7 hours 6, 7C & 9A plus core)
April 28-29: Forestry, Ornamental, Turf and Interiorscape (5 hours 2/3C, 7 hours 3A/3B plus core)
April 30: Ag Plant (7 hours 1A plus core)
Training information is available at https://www.ksre.k-state.edu/pesticides-ipm/commercial-applicator.html or e-mail fmiller@ksu.edu to have the flyer e-mailed to you!
–by Dr. Raymond Cloyd
Striped and Spotted Cucumber Beetle: Insect Pests of Vegetable Gardens (MF3545)
https://bookstore.ksre.ksu.edu/pubs/MF3545.pdf
Colorado Potato Beetle: Insect Pest of Vegetable Crops (MF3541)
https://bookstore.ksre.ksu.edu/pubs/MF3541.pdf
Whiteflies: Management in Greenhouse Production Systems (MF3532)
https://bookstore.ksre.ksu.edu/pubs/MF3532.pdf
Elm Leaf Beetle: Insect Pest of Elm Trees (MF3537)
https://bookstore.ksre.ksu.edu/pubs/MF3537.pdf
Cross-Striped Cabbageworm: Insect Pest of Vegetable Crops (MF3505)
https://bookstore.ksre.ksu.edu/pubs/MF3505.pdf
Japanese Beetle: Insect Pest of Horticultural Plants and Turfgrass (MF3488)
https://bookstore.ksre.ksu.edu/pubs/MF3488.pdf
Insect and Mite Pests of Vegetable Gardens (MF3480)
https://bookstore.ksre.ksu.edu/pubs/MF3480.pdf
List as of: November 9, 2020
–by Dr. Raymond Cloyd
Dormant oils can be applied to certain ornamental plants and fruit trees during the winter to kill insect and mite pests that overwinter as eggs or mature females. Consequently, dormant oil applications can help reduce inputs from insecticides and miticides early in the growing season (spring). The advantages of dormant oil applications include: 1) a wide range of activity against the life stages of mite and scale insect pests including the eggs and 2) relatively minimal harm (toxicity) to humans and other mammals. In general, dormant oils are derived from paraffinic crude oil and are the heaviest of the petroleum-based oil sprays with a low unsulfonated residue (Figures 1 and 2).
Figure 1. Dormant oil product (Raymond Cloyd, KSU)
Figure 2. Close up of label of dormant oil product. Note the unsulfonated residue value is 91% (Raymond Cloyd, KSU)
The unsulfonated residue is an assessment of the compounds remaining after distillation and refining that can harm plants. An unsulfonated residue >92% indicates a highly refined product with less potential for phytotoxicity (plant injury). Dormant oils typically have an unsulfonated residue value <92%.
Dormant oil applications kill the overwintering life stages of cerain mites and scale insect pests (Figure 3)
Figure 3. San Jose scale on branch of apple tree (Raymond Cloyd, KSU)
prior to their becoming active in the spring. Applications are made during winter to deciduous ornamental plants and fruit trees. A 2% to 4% application rate is commonly recommended from early winter through early spring. Dormant oils have contact activity and suffocate the insect or mite pest overwintering life stages by blocking the breathing pores (spiracles) or directly penetrating and disrupting cell membranes. However, dormant oils have minimal residual activity (persistence) once residues dissipate, so thorough coverage of all plant parts is important.
Dormant oils are applied to all plant parts. Therefore, the overwintering life stage of an insect or mite pest must be located on the plant. However, not all insect and/or mite pests overwinter on plants. For example, dormant oil applications are not effective against the twospotted spider mite, Tetranychus urticae, because the mite overwinters as a female in plant debris or mulch. However, the spruce spider mite, Oligonychus ununguis, overwinters as an egg on plants, primarily conifers, such as: arborvitae, hemlock, juniper, and pine. Therefore, dormant oil applications will be effective in killing overwintering spruce spider mites.
Dormant oils are effective in killing the overwintering life stages of certain scale insect pests, especially those that overwinter as first and/or second instars or nymphs (crawlers) on ornamental plants and fruit trees. For instance, euonymus scale, Unaspis euonymi, overwinters as second instar nymphs or mature females on the branches and are susceptible to dormant oil applications. However, scale insect pests that overwinter as eggs; such as, oystershell scale, Lepidosaphes ulmi, and pine needle scale, Chionaspis pinifoliae (Figure 4),
Figure 4. Pine Needle Scale Females (Raymond Cloyd
are less susceptible to dormant oil applications because the eggs are stacked or piled on top of each other underneath the dead female (Figure 4). Consequently, dormant oils cannot penetrate and contact the eggs located underneath the dead eggs or those located in the bottom layer. Therefore, insecticide applications are required in the spring when nymphs emerge (eclose) from the eggs and then start emerging from underneath the dead female scale covering.
Some plants, such as arborvitae, beech, redbud, and certain maples (Japanese, red, sugar, and amur), are sensitive to dormant oil sprays applied to the branches or the trunk. Moreover, the needles of Colorado blue spruce, Picea pungens, can be discolored or change from blue to green following a dormant oil application. Phytotoxicity can be a problem when >4% application rates are used and/or when applications are performed in early fall before dormancy or in late spring at bud-break. Problems affiliated with phytotoxicity are less likely to occur when applications are made in late November through February, which is when most plants are completely dormant.
Dormant oils should never be applied to plants that are stressed because stressed plants are more susceptible to phytotoxicity. For instance, lack of moisture, temperature extremes, sudden drastic changes in the ambient air temperatures after spraying, prolonged windy conditions, and disease or insect infestations may predispose plants to phytotoxicity.
There is a general misconception that insect and mite pest populations cannot develop resistance to dormant oils. However, this is not true. For example, a Christmas tree plantation of Scots pine, Pinus sylvestris, trees were sprayed with dormant oils for over 10 years in succession to “control” pine needle scale. Eventually, the scale population became more and more difficult to “control.” Why? Well, what was discovered was that the scale covers increased in thickness, which prevented the dormant oil from penetrating the outer covering and killing any eggs.
Dormant oil applications performed during the winter can reduce insect and/or mite pest populations during the growing season. Therefore, inputs from insecticide and/or miticide applications can be reduced, which will preserve any natural enemies (parasitoids and predators); thus allowing them to naturally regulate insect and/or mite pest populations.
–by Frannie Miller
Each year in the fall, I plan trainings and look forward to seeing applicators from across the state as they attend these commercial recertification-training programs. This year will look a lot different in terms of training opportunities. Due to the ever presence of Covid, the Kansas State Pesticide Safety Program will be hosting virtual training opportunities through zoom. This will allow the applicator to obtain pest management credits from the safety of his or her home or office. I have heard from some applicators that feel they are technologically challenged, but don’t let that keep you from trying a new way of learning. The team is here to help you every step of the way!
The Kansas State Pesticide Safety Program is hosting training on the following dates:
Flyers containing the registration information can be found on the Pesticide Safety and IPM webpage at: https://www.ksre.k-state.edu/pesticides-ipm/commercial-applicator.html. If you use Facebook, you may want to consider liking the Kansas State Pesticide Safety and IPM program page, which can be found at: https://www.facebook.com/KSRE-Pesticide-Safety-and-Integrated-Pest-Management-Program-109039044075447.
Other groups or associations may be hosting other training opportunities. A complete list can be found at: https://portal.kda.ks.gov/PAF/PafTraining/TrainingEventList.
If you don’t remember how many credits you have or need, you can look up your training status at: https://portal.kda.ks.gov/paf/pafapplicator/login/
If you have further questions, regarding how this training will be conducted contact Frannie Miller at (620)241-1523 or e-mail fmiller@ksu.edu.
–by Dr. Raymond Cloyd
We are receiving inquiries regarding the large milkweed bug, Oncopeltus fasciatus, nymphs and adults feeding on the seed pods of milkweed (Asclepias spp) plants (Figure 1).
Figure 1. Large Milkweed Bug Adults And Nymphs Feeding On Milkwee Seed Pod (Raymond Cloyd, KSU)
Large milkweed bug adults are 9/16 to 5/8 inches (10 to 18 mm) in length, with black and orange markings on the body (Figure 2).
Figure 2. Large Milkweed Bug Adult (Raymond Cloyd, KSU)
There are five nymphal instars before becoming adults. Females lay eggs on milkweed seed pods or in crevices between the seed pods. Females can lay up to 30 eggs per day and approximately 2,000 over her lifetime, which is about one month in the summer. The adults contain toxic compounds that are obtained from the plant fluids during feeding, which protects them from predators. Large milkweed bugs cause minimal damage to milkweed plants and are present for a short period. Large milkweed bugs overwinter as adults. There may be one to several generations per year in Kansas