By: Mary H. Dyer, Credentialed Garden Writer
Oriental fruit moths are nasty little pests that wreak havoc in a number of trees including cherries, quince, pear, plum, apple, ornamental cherry, and even rose. However, the pests are particularly fond of nectarines and peaches.
Fruit moths in peaches aren’t easy to control, but the following information should be helpful. Read on to learn more about oriental fruit moth in peaches.
Adult fruit moths are gray with dark grey bands on thewings. The adults lay tiny, disk-shaped eggs on twigs or the undersides ofleaves. They fly in the evenings or sometimes early in the morning. The eggsare white, but eventually change to amber. One female moth can lay as many as200 eggs. Oriental fruit moths generally have four or five generations peryear.
Oriental fruit moth larva, which are white with dark heads,turn pinkish as they mature. The larvae overwinter in cocoons, which may beseen on the tree or the ground. In spring, the larvae bore into twigs, causingdieback and wilt.
The next generation of larvae bores into developing fruit,often leaving masses of gummy castings or “frass.”Later generations enter the stem end of the fruit, especially at the top of thetree. Tiny entry holes in peaches with oriental fruit moths are difficult tosee and are often an unpleasant surprise after the fruit is harvested.
Controlling fruit moth in peaches isn’t the easiest, butwith some simple approaches, it can be possible. If you plan to plant new peachtrees, plant early cultivars that will be harvested by midsummer. Cultivate thesoil around the trees in early spring. Working the soil to a depth of aboutfour inches (10 cm.) will help destroy overwintering larvae. Plant bloomingcover crops that will attract beneficialpredatory insects, including braconidwasps.
Pheromone dispensers hung from the lower limbs of trees inFebruary, and again 90 days later, will help prevent peaches with orientalfruit moths by interfering with mating. However, pheromones are generally usedin orchards and may not be effective for home gardens.
Dormant oils aren’t effective against fruit moths inpeaches, but some insecticides,including pyrethroids, are suitable for home use. Check with your localcooperative extension office as many are highly toxic to bees while othersthreaten fish and other aquatic life if the spray drifts or runs off.
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Larry Gut, and Mike Haas, Michigan State University, Department of Entomology - April 4, 2017
A guide for using mating disruption to effectively manage oriental fruit moths in Michigan tree fruit.
Oriental fruit moth, Grapholita molesta (Busck), is a major pest of peach and other stone fruits in Michigan and can also be problematic in apple in most production regions. Mating disruption is a highly effective tactic to consider when developing a management plan for oriental fruit moth. There are over 20 oriental fruit moth mating disruption formulations registered in the United States and an estimated 150,000 acres worldwide are treated with these technologies. Mating disruption is safe for humans and other non-target organisms including beneficial insects and, depending on the situation, can be used alone or in tandem with conventional insecticides. An important reason to employ mating disruption as a management option for oriental fruit moth is to avoid insecticide resistance problems that occur from repeatedly using insecticides from the same resistance class, which are often the pyrethroids due to their relatively low cost compared to newer types of insecticides.
Mating disruption relies on the insect’s own mate-finding abilities to prevent or greatly reduce the number of successful unions between male and female moths. By impeding the number of successful matings, fewer eggs are laid, leading to fewer larvae (worms) and less chance of fruit injury. When female oriental fruit moth prepare to mate, they let the males know by releasing a chemical called pheromone, which is active at extremely low concentrations and specifically attractive to just male oriental fruit moth. This “scent” floats through the air as a plume that the male finds with the use of his antennae, locating the female and mating with her.
Mating disruption products work by adding large quantities of synthetic pheromone to the orchard in a manner that either outcompetes calling females for the attention of males or impairs the ability of the male to respond to the pheromone in a normal manner. Disruption of oriental fruit moth can occur via either of the two principal mechanisms, depending on the release rate of pheromone from each dispenser. In both scenarios, control is achieved because males cannot locate females and mating gets disrupted.
Orchard shape and size are important considerations when implementing a mating disruption program. The ideal orchard would be square to rectangular and at least 5 acres in size. Long, narrow orchards have too much “edge,” which is not ideal for effective mating disruption due to dilution of the pheromone at the edges and the increased opportunity for mated females to move from nearby, non-disrupted orchards into the pheromone-treated block.
Orchards that are very young and do not have a well-developed canopy are not great candidates. Additionally, an orchard with many missing trees is not ideal for mating disruption. The best strategy is to apply mating disruption on a whole-farm or area wide basis. This approach entails growers applying pheromone to all of their stone and pome fruit plantings and convincing neighboring growers to do the same.
An effective oriental fruit moth disruption program also requires monitoring with pheromone-baited sticky traps. If the male moths can find the traps, then it is likely they can also find the calling females and mate with them. Thus, if oriental fruit moth are not captured in traps, this is an indication that the mating disruption program is working.
The reliability of the monitoring program increases as more traps are deployed. The minimum trapping density is three traps in smaller blocks (less than 10 acres) and five traps in larger blocks. At least one trap should be placed close to a border. A few oriental fruit moth are often captured in border traps, as pheromone coverage on borders is sometimes lower and less uniform than required for complete disruption. If moths are captured on the border, inspect trees for signs that larvae have entered shoots, (i.e., flagging or shepard’s crook) or fruit damage and apply a border spray of insecticide if an infestation is detected.
Oriental fruit moth damage to shoots is a more direct measure of mating disruption success than monitoring male moth capture in traps and should be assessed even when no moths are caught. Shoot counts are an especially important measure of efficacy early in the season. Examine 20 shoots on 20 trees per block, looking for flagging or other signs of damage. An insecticide spray is likely needed if 1 percent or more of the shoots are infested or if fruit damage is detected.
Oriental fruit moth mating disruption products fit into one of three broad categories:
Each option is effective and the choice comes down to which alternative best fits into your orchard management plan. Considerations for each option are shown in the table below.
Commercially available oriental fruit moth mating disruption products
Hand-applied (plastic tube, membrane, clip, wax dollop)
Apply once in beginning of season. Efficacy well-established.
Must have labor available. May not last season-long for late-ripening fruit.
Apply with standard spray equipment. Option to treat on an as-needed basis. Option to tank-mix with pesticides.
Multiple applications required for season-long control. Variable longevity. Rain will wash off product.
Apply once in beginning of season. Easy to apply. Programmable, option to apply pheromone only when moths are present.
Possibility of mechanical problems. Pheromone coverage on edges can be problematic. Treating a large area is best.
Hand-applied dispensers are the most widely used products for oriental fruit moth disruption. As the name implies, they are manually placed in trees at densities of 100-200 devices per acre. In orchards with canopy heights of less than 12 feet, dispensers can be applied at mid-canopy (7-8 feet). In orchards with taller trees, apply at least half of the dispensers in the upper third of the canopy. Place dispensers on sturdy branches to ensure they remain at the desired height throughout the season. Inform workers about the presence of dispensers so they do not remove them during spring pruning.
Dispensers are commonly put in the trees in the spring prior to the first oriental fruit moth flight. There is also the option of treating the first generation with insecticides and then applying the dispensers a few weeks later. However, the spring pheromone application is most effective, especially if combined with a single insecticide spray. Some dispensers will last season-long (about 120 days), while others will need to be applied a second time after about 80 days. Refer to the product label.
Apple growers will likely have to contend with oriental fruit moth and codling moth. An option for disrupting the two pests is to use a hand-applied product that contains the pheromone of both species. The application rate for codling moth is typically higher than that for oriental fruit moth. Thus, it may be more economical to apply the dual product at the lower rate of 100-200 dispensers per acre and then supplement the treatment with an additional 100-200 codling moth only dispensers.
Sprayable products consist of pheromone encapsulated in microscopic polymer capsules from which the pheromone is slowly released over time. Several million capsules are applied per acre that together deliver 9-20 grams of pheromone over a period of three to five weeks, depending on environmental conditions. Shorter longevity occurs when pheromone release is accelerated by high temperatures or capsules are washed off foliage by rain.
Sprayable pheromone will have a range of active ingredient strengths listed on the label, allowing for several options to manage oriental fruit moth. A single high-rate application at the start of each generation’s flight may provide generation-long disruption. Two applications will probably be required if emergence is prolonged, it rains or during hot summer periods.
A proven alternative to applying a higher rate once or twice per flight is to use the lowest labeled rate and apply more frequently, say every seven to 10 days. This ensures a fresh supply of pheromone is present even when rains have washed away earlier sprays. A third option is to use insecticides supplemented with one or a few targeted pheromone applications when high moth captures are recorded in traps.
A low-density approach stores and releases the pheromone via aerosol emitters that dispense large quantities mechanically. These devices provide a controlled constant release rate and a stable environment for the pheromone prior to its release. Each unit releases milligram quantities of pheromone every 15 minutes over a 9- to 12-hour cycle. Aerosol emitters for oriental fruit moth are deployed at a density of 1 unit (up to 2 per acre in heavily infested orchards) prior to the start of the first adult flight. An aerosol product that emits the pheromones of both oriental fruit moth and codling moth is also available and is deployed at a density of 1-2 per acre.
One concern with using this technology is that the mechanical failure of a unit would leave large areas unprotected. Thus, it is a good idea to routinely inspect the devices to make sure they are functioning properly. Another potential weakness is the low deployment density may leave areas of little or no pheromone coverage, especially on borders, where mate-finding might occur. Since edges can be problematic in aerosol-treated crops, emitters are generally hung in the upper canopy to facilitate spread of the aerosol across the orchard. Treating large contiguous areas of 40 acres or more is recommended for the best results and supplemental treatment of the perimeter with hand-applied dispensers can help protect borders.
Michigan State University Extension encourages growers to utilize mating disruption in their oriental fruit moth management program, particularly in peach production where there is a need for breaking the cycle of repeated pyrethroid use against oriental fruit moth. By following the guidelines in this article, effective oriental fruit moth management can be achieved.
Dr. Gut's work is funded in part by MSU 's AgBioResearch.
This article was published by Michigan State University Extension. For more information, visit https://extension.msu.edu. To have a digest of information delivered straight to your email inbox, visit https://extension.msu.edu/newsletters. To contact an expert in your area, visit https://extension.msu.edu/experts, or call 888-MSUE4MI (888-678-3464).
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Q: I have three peach trees that produce every year. But my problem is bugs. Do you have any suggestions to get rid of the bugs before I commit murder on the trees? — W.B.K., Houston
A: Since your trees are producing, try to identify the pest so you can properly treat. Plum curculio, catfacing insects, Oriental fruit moth, peach tree borer and scale are peach pests. Perhaps your problem is one of the most common, the plum curculio, a weevil. If so, you'll see its offspring — whitish to yellow-white, legless grubs with brown heads — in the fruit. The curculio eats a hole in developing fruit and deposits eggs inside. The worms hatch and feed, so fruit often ripens and drops early.
Treatment timing is important. You don't want to spray and kill insects that pollinate the blooms, so it's best to apply treatments after the petals fall. (Some gardeners build scaffolds to place row cover over the trees after blossoms fall.)
To discourage future outbreaks, remove infested fruit. Plant varieties that produce before pests emerge. 'Tropic Beauty' is a 150-chill-hour peach that produces before the curculio is active.
Ask your nurseryman or your extension office for an appropriate insecticide. Garrett Juice is one organic treatment.
UC IPM Pest Management Guidelines: Almond
UC ANR Publication 3431
F.G. Zalom (emeritus), Entomology, UC Davis
D.R. Haviland, UC IPM and UC Cooperative Extension Kern County
E.J. Symmes, UC IPM and UC Cooperative Extension Butte County
K.E. Tollerup, UC IPM and Kearney Agricultural Research and Extension Center, Parlier
C. Pickel (emeritus), UC IPM and UC Cooperative Extension Sutter and Yuba counties