Bacterial head rot prevention and control

Cool winter and spring temperatures combined with prolonged periods of rain, fog, and dew provide the perfect medium for bacterial head rot pathogens. This means good air circulation between plants can go a long way toward preventing this disease. That’s a good thing, because chemical sprays and other treatments have not been consistently effective in preventing bacterial head rot.


The best way to prevent this problem in your garden is to start with resistant cultivars, such as broccoli with dome-shaped heads, space plants properly, and avoid overhead watering.

Junebug damage

Adult Junebugs feed on leaves. They fly in from weedy areas to feed at night. During the day, they tend to hunker down in a shady spot or burrow into the soil until dusk. The damage they cause is similar to Fuller rose beetles, earwigs, and snails. Grasshoppers and caterpillars may also cause similar damage. The only way to be sure is to catch them in the act.


The more insidious damage occurs underground as Junebug grubs feed on the roots of your lawn, especially ryegrass and bluegrass. Symptoms of infestation include brown, dying patches. If things get really bad, you can actually roll up patches of turf because it is no longer attached to the ground! Large numbers of Junebugs can defoliate a young tree in a matter of days. This is especially true for avocado trees, which may need to be protected with netting.

Host plants

Nearly all fruit and nut trees, including cherries and kiwifruit, are susceptible to Phytophthora root and crown rot. But so are alfalfa, and members of the nightshade and cabbage families. This means tomatoes, eggplant, and potatoes are vulnerable, as are kale, cauliflower, Brussels sprouts, broccoli, kohlrabi, horseradish, cabbage, collards, turnips, rutabagas, radishes, bok choy, and mustard. And all because of too much water.
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Symptoms of Phytophthora root and crown rot

Plants affected by Phytophthora root and crown rot look drought stressed. This is particularly unfortunate because the natural response is to provide more water - the last thing you want to do when Phytophthora is present. Symptoms normally start in just one branch or area of the tree or shrub before spreading to the rest of the plant. Leaves may turn purple or reddish. Sudden wilting and plant death may occur when the basal stem or crown are attacked, or the mold may attack the root system, causing plants to linger poorly for years before dying.

Preventing Phytophthora root and crown rot infestation

Proper water management is the best way to prevent and control Phytophthora root and crown rot. Never allow standing water to remain around tree and shrub trunks. Also, don’t let sprinklers hit tree trunks. These other tips can help you manage Phytophthora in your garden or landscape:

• Only install healthy-looking plants
• Do not plant plants too deeply or water excessively
• Allow soil to dry out between waterings
• Ensure proper drainage
• Quarantine all new plants for 4 to 6 weeks, including water that may drip from the containers
• Wash tools, boots, and hands after handling potentially contaminated plants
• Sanitize shoes with bathroom cleaner after walking through an infected area
• Do not add contaminated plants to the compost pile
• Use crop rotation to interrupt the disease triangle

You may be able to maintain an infected plant, with proper irrigation and good cultural practices, but it will never be the same. Phytophthora can stay in the soil for many years, so prevention is far easier than control.

If older leaves on cucumber, melon, or squash are turning yellow and leathery, the plants may be infected with cucurbit aphid-borne yellows.


This viral disease is transmitted by the cucurbit aphid-borne yellows luteovirus (CABYV). Luteoviruses are a genus of viruses that use plants as hosts, and are transmitted by aphids.

Symptoms of aphid borne yellow virus

Early symptoms are chlorotic (yellow) areas on lower leaves. These spots expand to include the entire leaf, leaving the larger veins bright green. The affected areas become leathery and brittle. Stunting and fruit drop are common as the plant struggles. Before genetic testing, this condition was attributed to plant aging (senescence), nutrient deficiencies, or other diseases, such as cucurbit yellow stunting disorder.


How the disease is spread

As the name suggests, this disease is spread by aphids. As aphids pierce plant tissue to feed on sap in the xylem, they infect the plants they eat. Once infected, the aphid will continue to spread the disease as it feeds. This disease can also be spread to lettuces, beets, and several weeds.


Controlling cucurbit aphid borne yellows

There is no way to control the virus, but you can reduce the presence of aphids in your garden with these tips:

• install silver reflective mulch at planting time to repel aphids (remove it as temperatures rise)
• install row covers to exclude aphids
• fertilize and irrigate plants properly, to keep them healthy
• avoid using broad-spectrum pesticides, which kill off beneficial predators that eat aphids
• clear aphid-bearing weeds from the immediate area

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Infected plants should be removed and destroyed, to prevent the disease from spreading to nearby plants.

Damage caused by citricola scale

Underneath those tiny domes of protection, citricola scale attach themselves to stems and leaves of citrus and pomegranate. They pierce the surface to reach the phloem, to siphon away valuable nutrients and sugary sap, weakening the tree. And they poop. This poop, called honeydew, contains a lot of sugar, and it creates the perfect growing medium for sooty mold fungus. Sooty mold blocks photosynthesis, further reducing your tree’s vigor. Citricola scale can reduce flowering and fruit production. During heavy infestations, twigs can be killed by citricola scale.


How to control citricola scale

Regularly monitoring citrus and pomegranate trees for these pests is your first line of defense. If you notice ant trails or sooty mold, take a closer look at twigs and leaves for signs of scale. Since ants protect these pests, you can eliminate that protection, making the citricola scale more vulnerable, by wrapping the tree’s trunk with a sticky barrier. Also, there are naturally occurring parasitic wasps that will control citricola scale insects (as long as you do not apply broad spectrum pesticides). Applying dormant oil in winter can also help reduce citricola scale populations.


Research has shown that 40% of citricola scale in San Joaquin Valley are resistant to organophosphates. It is believed that there is also a cross-resistance to malathion and carbaryl. This looks to be yet another example of chemical pesticides actually making the pests stronger, as we add more poisons to the environment and our food chain.


Bottom line, to control citricola scale on your pomegranate and citrus trees, inspect twigs very closely in April through June, and then look at the underside of leaves in late July. These pests can then be flicked off the leaf or stem with your fingernail.

Relatively new to the United States, the European pepper moth is poised to cause significant damage to gardens and commercial agriculture.


Each time an invasive plant or pest is brought into an area, there’s no telling what might happen. Resident predators or local diseases may make short work of the interloper. Then again, the insurgent may find a rich, predator-free environment perfectly suited to a population explosion. We don’t know, yet, which way things will go for the European pepper moth, but it’s probably a good idea to know what we’re up against, just in case.

What's eating your trees?

If you see orange frass and bark damage, it's probably the American plum borer.

Damage caused by plum borers

As plum borers feed, they leave behind a trail of destruction. Reddish orange frass collects wherever they feed. Also webbing and extensive gumming can be seen. Gumming is a gooey discharge plants use to protect themselves. The gum hardens as it dries, but, unlike sap, it is relatively easy to wash off. Eventually, branches are weakened to the point of breaking and the tree’s overall health declines, reducing or eliminating any chance of harvesting those delicious plums.


Controlling plum borers

Plum borers are easier to prevent than control. Once they enter a tree, they are relatively safe from predators and pesticides. Use these tips to prevent a plum borer infestation:

• Keep pruning cuts smooth, so they can heal quickly.
• Provide sunburn protection by whitewashing trunks and exposed branches.
• Avoid mechanical injury by lawnmowers, weedwackers, and cars.

If a bark injury is already present, or if your tree has bacterial galls or a fungal canker, and you know that plum borers are nearby, it may be worthwhile to hire a professional to apply a residual, contact insecticide. Over-the-counter products are not effective against the American plum borer.

Yesterday, I harvested the very first, sun-warmed, tangy-sweet raspberry of the season.


To me, raspberries rank right up there with tomatoes for good reasons to grow your own. Store bought raspberries rarely have the flavor or plump texture that fresh, homegrown raspberries provide. That being said, cane blight can take all the fun out of growing raspberries at home. If you know what to look for, you can prevent this disease from spreading.

Cane blight is a fungal disease. The fungus responsible for cane blight goes by the name Leptosphaeria coniothyrium. It is also known as Paraconiothyrium fuckelii. [Apparently, someone hates this disease even more than I do!] Cane blight is most commonly seen on raspberries, but it can also attack blackberries. The same fungus also causes a rose canker and a root rot on strawberries. Other host plants include bamboo, juniper, stone fruits, blueberries, and currants.

Symptoms of cane blight

This disease starts out looking similar to fireblight, spur blight, and anthracnose, but it progresses differently. Canes infected with Leptosphaeria coniothyrium will develop purplish-black lesions at wound sites. These lesions will develop into black or brown cankers that encircle the cane, causing wilt and twig dieback. Infected canes may also twist around other stems, rather than growing normally. Bark may split and the wood becomes very brittle. Leaves and fruit on those canes will wither and die, but stay attached to the cane. If you look closely, you can actually see tiny, black fungal bodies on the wood.


Preventing cane blight

Fungal spores can blow in on the wind and be splashed up onto plants by rain, sprinklers, and overhead watering. Spores enter healthy canes through injury sites. Jagged pruning cuts, growth cracks, and damaged roots can all provide points of entry, so keeping plants healthy and protected is the best way to prevent this disease. Use these tips to help prevent cane blight on your raspberries:

• wait until the weather and the canes are dry, before pruning
• space plants out for good air flow, to help them dry more quickly
• provide good drainage
• avoid over-fertilizing [Regular soil tests are always a good idea!]
• mulch around the canes and irrigate regularly to prevent the soil from becoming hydrophobic
• control pests, such as borers, that may cause injury points
• quarantine new plants before adding them to an established raspberry bed

If the chlorotic areas spread to the point that the entire leaf is yellow, except for the veins, it is likely to be CYSD. Small green patches may appear in the yellow areas. Other symptoms include leaves curling upwards and becoming brittle. As the disease progresses and the vascular system breaks down, older leaves are dropped and fruit is neglected, as the plant tries to protect itself. This makes fruits smaller, less flavorful, and more prone to pests and other diseases. Also, fruits from infected plants do not store as well as fruits from healthy plants.


Controlling CYSD

There are no effective chemical or biological controls. Since CYSD is spread by whiteflies, whitefly control is key to halting the spread of this viral disease. These tips can help reduce the chances of CYSD spreading through your garden:

• Only use high quality, disease-free seeds
• Quarantine and carefully inspect new plants for signs of disease or whiteflies
• Avoid using broad-spectrum pesticides, which kill whitefly predators
• Use floating row covers over newly planted seeds and seedlings
• Remove and destroy infected plants
• Fertilize and irrigate established plants correctly, to keep them as healthy as possible
• Implement crop rotation practices in your garden or foodscape

Protect your cucurbits from whiteflies for an abundant harvest this summer and fall!

For the backyard orchardist, the easiest way to break the apple scab disease triangle is to remove and dispose of infected leaves. [This disease can also overwinter on nectarine and peach leaves.] Commercial apple growers may apply zinc and fertilizer-grade urea to leaves in autumn to speed leaf drop, and apply fungicides during the rainy season, at budbreak and a month after petal fall. but these are probably not practices you want to be doing at home. If your apple tree(s) become severely infected, you can use fixed copper, Bordeaux mixture, sulfur, or neem oil can be used from the time green tips appear, until the tree is in full bloom. Avoid using these treatments after that time as they can cause fruit russetting. And be sure to follow the directions for any of these treatments carefully. For example, applying sulfur within 3 weeks of using horticultural oils, or on days when temperatures are above 90°F can lead to phytotoxicity.


As you conduct a weekly inspection of your apple tree each spring, be sure to enjoy the emerging blossoms!

Black scale damage

All scale insects are sap-suckers. They use piercing mouthparts to access vascular tissue within the host plant. This feeding weakens the host plant, leading to fruit drop, wilting, twig dieback, stunting, and overall loss of vigor. In this weakened state, citrus trees are more susceptible to damage by drought, temperature extremes, other insects, and disease. Heavy infestations of black scale can kill part or all of a tree.


Black scale lifecycle

Each May and June, here in California, and again in October and November, female black scale insects lay as many as 2,000 eggs, without ever mating! These eggs hatch out into crawlers, which crawl around on the host plant, looking for a nice place to set up shop, usually on leaves. These crawlers go through several instars, or stages. In the second instar, they develop a ridge on their back. This ridge expands into an “H” shape. After they molt a second, time, they head for twigs, and begin growing in earnest. This is where their bodies become more circular and their protective cover turns a leathery mottled gray. As each of these offspring approaches reproductive age, the cover gets darker and harder, and the “H” often disappears.


How to control black scale

Black scale insects tend to be a serious problem every 5 to 10 years. Normally, local parasitic wasps and other predators keep this pest under control. Dust and the use of broad spectrum pesticides can interfere with these natural controls. In years of heavy infestation, specific pesticides may be needed. Before using a pesticide against scale insects, be sure to look closely. If you see tiny holes in the scales, there is no need to spray. Those holes are from scale parasites which have already done their job. 

You can also reduce scale populations by hand. Simply grab a wet, soapy rag and start wiping them off. While you’re at it, you can help your tree increase photosynthesis by wiping off the sooty mold, too.

Glassy-winged sharpshooter lifecycle

Clusters of white eggs are laid on the underside of leaves and then covered with a white, powdery coating, called a brochosome. This coating and the nearby leaf tissue turn brown after the eggs hatch and the nymphs use their piercing mouth parts to suck sugary sap from the xylem. These nymphs will molt several times before reaching adulthood. While sharpshooter feeding is not a serious threat to healthy host plants, these insects carry many diseases, and their excrement forms a coating on leaves that looks like whitewash and falls on cars below. Heavy feeding on new, small plants can cause wilting.


Sharpshooter host plants

These pests are opportunists. Scientists estimate that there are over 700 different types of plants used by sharpshooters as food. These plants include grapes, citrus trees, and stone fruits. This means most of the fruit and nut trees in your garden or landscape are susceptible to these pests. What’s worse, as these pests feed, the bacteria they carry is injected into the plants!


Diseases carried by glassy-winged sharpshooters

The glassy-winged sharpshooter (Homalodisca vitripennis [formerly H. coagulata]), like other sharpshooters, are sap-sucking insects. As they feed on plants infected with the Xylella fastidiosa bacteria, the bacteria begin reproducing within the insects mouthparts. When the sharpshooter feeds on successive plants, the bacteria and the diseases they cause, are also transferred. These pests can bring several, currently incurable, diseases to foodscape, including:

• alfalfa dwarf
• almond leaf scorch
• cherry plum dieback
• citrus X disease
• coffee leaf scorch
• mulberry scorch
• oleander leaf scorch
• olive quick decline syndrome
• phony peach disease*
• Pierce’s disease
• plum leaf scald*
• sweet gum dieback
• variegated citrus chlorosis*

*These diseases have not yet been found in California, as of April 2018.

How to control glassy-winged sharpshooters

Insect predators, such as parasitic wasps, and naturally occurring pathogens are the most effective, long-term control measure, so avoid using broad-spectrum insecticides. In severe cases, insecticides may need to be used. Just be sure to use them sparingly and follow the directions exactly. Insecticidal soaps and oils have also proven effective.


If you see a glassy-winged sharpshooter, please contact your local Sheriff or County Extension Office right away!

[Yes, I’m kidding about the Sheriff. But I’m serious about the County Extension.]

Leaf scorch management

If your beloved almond tree becomes infected, early detection is critical. The infected branch, or its scaffold, should be removed 5 to 10 FEET below any visible symptoms. Keep a close watch to see if any signs of infection appear elsewhere on the tree. If the tree is less than 10 years old, your best bet is simply to replace the tree.


I hope that your almond tree never faces this problem, but now you know what to watch for.

The Asian citrus psyllid (Diaphorina citri) arrived in North America from Asia or India in 1998. The insect feeds on the sap found in leaves and stems of citrus trees. As they feed, they produce large amounts of honeydew (sugary bug poop). This honeydew is a popular food of ants and the sooty mold fungus. That wouldn’t be a serious problem, by itself. The situation is made far worse because the Asian citrus psyllid carries a bacteria that causes a devastating disease called huanglongbing (HLB). Also known as citrus greening, HLB is a vascular disease that kills trees and there is no cure.

​Trees infected with citrus greening must be destroyed.

Western tussock moth controls

Local governments use several methods to control heavy infestations of western tussock moth caterpillars:

• They are spraying playground equipment with pressurized water and then sweeping up piles of caterpillars.
• They release specific beneficial insects to prey on the pests.
• They spray insecticides.

Hopefully, your garden and landscape will be spared a visit from the western tussock moth. If you are not so lucky, you can spray Bacillus thuringiensis (Bt) to deter these pests. If a severe infestation does occur, you may have to prune out heavily affected limbs.

Shot hole borer controls

Healthy trees are generally able to protect themselves against shot hole borers. This means regular irrigation to avoid water stress, proper fertilizing, depending on the age, size, and life stage of the tree, and pruning out dead and diseased wood. It also mean whitewashing trees in late winter to prevent sunburn damage to the bark. If infested wood is found, it should be removed and destroyed, to prevent the borers from spreading to healthy wood. Once shot hole borers are in the wood, there isn’t much else you can do. Insecticides are ineffective. You may be able to thwart some borers by applying sticky barriers around the trunks of your trees.


Bottom line: keeping your trees healthy in the first place is a lot easier than pruning out branches and twigs infested with shot hole borers!

White rust symptoms

As flowers and leaves are infected with white rust oomycetes, white blisters (pustules) form under the plant’s skin on the underside of leaves. These blisters contain baby oomycetes. When the blisters pop, oomycete spores take to the wind, infecting nearby plants. Spores are also transferred to other plants by splashing water from irrigation or rain. These pustules appear waxy and may be pinkish, at first. Upper leaf surfaces exhibit pale green or yellowish spots that can reach 1 inch in diameter. [This disease should not be confused with chrysanthemum white rust (Puccinia spp.), which is a fungal disease and appears as masses of black, brown, purple, orange, or yellow pustules. Chrysanthemum white rust is under a CA state eradication program.]


White rust controls
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As far as I know, there are no resistant plant varieties available (yet). Commercial growers rely on fungicides to control this disease, but you can reduce the likelihood of infection simply by decreasing the amount of time leaves stay wet. Rather than overhead watering, use drip irrigation or soaker hoses. These methods save water, too. In severe cases, an area may need to be left fallow, or you can use some serious crop rotation.

Currants are a refreshing berry used to make jams, jellies, pies, and wine, but currant borers can really put a dent in your crop.


In California, the invasive currant clearwing moth (Synanthedon tipuliformis) makes its appearance each April, laying eggs in bark crevices, at old pruning cuts, and in narrow branch crotches. While individual moths only live one week, overlapping generations can extend egg-laying through August. These pests bore into the canes of currants, and sometimes blackberries.

Currant borer damage

When the eggs hatch, larva chew entry holes in canes, burrowing into the cambial tissue and sapwood. Here, they will feed on sap and vascular tissue for the rest of the summer, and then overwinter within the canes. In March, they will resume feeding, going through several instars, before entering a pupal stage. All this boring and feeding can girdle branches, causing twig and branch dieback. It also restricts the growth of infested plants, resulting in fewer blooms (ergo, less fruit). You may be able to see sawdust-like frass mixed with sap oozing out of entry holes, and longitudinal scars on infested twigs and branches.


Currant borer controls

Once a branch is infested, it should be removed and destroyed, or thrown in the trash. Severely infested plants should be removed completely. Once borers are inside a plant, there isn’t much you can do. Some people try shoving wires into entry holes, trying to stab the larva, but this is only marginally effective. Woodpeckers enjoy catching adult moths on the wing and braconid wasps parasitize these pests. There are also some beneficial nematodes that are available commercially. I’m not sure which species of nematode will work against currant borers, but you basically inject the live nematodes into the borers’ holes and spray the branches with nematodes in solution. Nematodes are fiddly and I have not had good luck with them, but they may work for you. Rather than losing valuable plants, it is far easier to prevent borer infestations int the first place.


Healthy plants are better able to protect themselves against infestation, and rapid growth tends to make stems susceptible. Caring for your currant plants in a way that keeps them healthy and growing at a steady pace, rather than overloading them with fertilizer for faster growth, is the best way to prevent infestations. Also, avoid water stress with regular irrigation, especially during the peak of summer. Whitewashing the trunks of mature tree-trained currants with a 50:50 mix of water and latex interior paint can help reduce sunburn damage, which is more susceptible to infestation.


Pheromone traps can be used to monitor for this pest. Just remember that the down-side of using pheromone traps is that they end up attracting pests from a greater distance. According to the U.S. Dept. of Agriculture, insecticides should be applied 7 to 10 days after the first male moth is captured in a pheromone trap. If you decide to use an insecticide, please, Please, PLEASE, follow the directions on the label exactly. Insecticides are poisons.


Finally, regularly inspecting your currants and blackberries for signs of infestation can give you a unique opportunity at borer control. Just before clearwing borers emerge, they have a habit of pushing themselves halfway out of their tunnel and just sitting that way for a bit - catching their breath, I assume. So, look for areas of damaged bark and frass. If you see a borer half-way out of a twig, cane, or branch, help it out the rest of the way and then feed it to your chickens or stomp on it.

Darkling beetle is the common name for all 20,000 species within the Tenebrionidae family. Some of the more famous California darklings include Blapstinus, Coelus., and Eleodes..

Darkling beetle damage

In addition to attacking seedlings at ground level, darkling beetles feed on the foliage of many garden plants, such as lettuce, chicory, cabbage, broccoli, and other brassicas, beans, melons, pumpkins, tomatoes, and squash. This feeding can be seen along leaf edges and on the underside of leaves. Darkling beetles also feed on the ‘netting’ (raised areas) of melons, the flowers of most cucurbits and pistachio, and on some fruit crops, such as figs.


Some species of darkling beetle also act as vectors for plant diseases and poultry parasites. Some darklings can also cause structural damage to insulation and wooden buildings. They are also attracted to poultry feed, but my guess is that the chickens make short work of that arrangement, as long as the unavailable feed is stored properly, in a metal container.


Darkling beetle control

Commercial farmers use insecticides to kill these pests. They also use a shallow ditch, filled with water, to block these pests from coming out of the weeds and into the fields. If you are an organic grower, as I am, you will have to use cultural controls. You can minimize darkling beetle damage organically when you:

• remove weeds and other plant debris from an area before planting
• speed up the breakdown of organic matter on and in the soil
• do not put seedlings out until they are 5 or 6 inches tall
• raise fruit off the ground with straw or hammocks
• eliminate dirt clods
• apply sticky tape barriers around fig trees
• allow planting beds to go fallow (unused) periodically
• avoid using alfalfa as a green manure in areas affected by darkling beetles (UCANR)

In 2015, a report published by The Coleopterists Bulletin warned that three non-native darkling beetles have been found in California and Nevada. Each of these species is somehow tied to ant or fire ant populations:

• Opatroides punctulatus Brullé, first discovered in the Sacramento area in 2003, now spreading rapidly throughout Nevada and California.
• Gondwanocrypticus platensis, a South American species of Crypticini that has spread widely in southern California
• Gonocephalum sericeum, an African native; this is the first sighting in the Western Hemisphere

I was unable to find any freely available photos, so you will have to track them down on your own. If you see any of these invasive beetles, please capture them and contact your local County Extension Office.


You may be surprised to learn that some people keep darkling beetles as pets.

If you have citrus trees, you probably have citrus mealybugs.


Cousin to scale insects, these tiny pests are often overlooked. At first, all you may see is some sooty mold on a few leaves, an ant trail, marching up and down the trunk of the tree, or, finally, the telltale cluster of fuzzy white, tucked under leaves or in crevices. Left unchecked, mealybugs can scar fruit, and cause chlorosis (yellowing), early leaf and fruit drop, and poor overall tree health.

Citrus mealybug description

All mealybugs are soft, flat, oval-shaped critters with segmented bodies. The mealybugs that attack citrus are covered with a white wax that also creates spines (filaments) around the outer edge and the back end. Unless you use a hand lens, you probably won’t notice individuals, but mealybugs colonize areas, creating white, fuzzy egg clusters that are easy to spot.


Mealybug lifecycle

Male citrus mealybugs are not needed for reproduction, but they are needed by long-tailed mealybugs. When mealybug eggs hatch, the 'crawlers' are pale yellow, with red eyes, and distinct antennae. Crawlers are not born with their protective wax coating. They begin to excrete it soon after hatching. They are called crawlers because they crawl to a feeding site, where they will continue to develop (and damage fruit) for a month or two.

Citrus mealybug damage

Each female mealybug can lay hundreds of eggs, and there are usually two or three generations a year, so infestations can become a problem. As sapsuckers, citrus mealybugs pierce fruit, leaves, and young stems, to get at the sap. They also feed on tender, new growth. As they feed, they leave behind a trail of honeydew that attracts protective ants, and creates the perfect growth medium for sooty mold. Citrus mealybug feeding near fruit stems also leads to fruit drop. Citrus mealybug feeding also reduces fruit quality. Trees fail to thrive and are prone to infestation by disease and other pests. In addition to oranges, lemons, limes, and grapefruit, citrus mealybugs also have a taste for ornamental plants, such as tulips, coleus, cyclamen, begonias, and dahlias.



How to control citrus mealybugs

The first step to controlling citrus mealybugs is to monitor your trees, especially in spring and fall, for signs of ant trails, sooty mold, and egg clusters. Since ants will protect and farm the aphids for their honeydew, apply sticky barriers to tree trunks to block ants from protecting the aphids against their natural predators. Those natural predators are your trees’ best defense against citrus mealybugs. Ladybugs, lacewings, and hoverflies will devour these pests, so avoid using broad-spectrum pesticides. For extreme infestations, you can buy an introduced predator, called the mealybug destroyer (Cryptolaemus montrouzieri). Insecticides are not recommended. Diatomaceous earth and insecticidal soaps can be used.



Mealybugs prefer dusty conditions, so hosing trees off can make them less appealing to citrus mealybugs.