​Types of guava

There are many varieties and cultivars of guava. You may have heard of apple guava, strawberry guava, and pineapple guava. While the first two are actually guava varieties, pineapple guava is a different species altogether. In the world of guavas, plants are sorted by fruit skin and flesh color, skin thickness, and sweetness. To find the best variety for your microclimate, contact your local County Extension Office.

Guavas are extremely drought tolerant, but plants require up to 39 inches of water each year to produce a good crop. Feeding roots only go down 9 inches, so top dressing with aged compost is an excellent way to keep guava trees fed.
Guava pests and disease

Guava wood is naturally resistant to insects and fungal disease. They are, however, susceptible to attack by weevils, mites, and guava fruit flies, and they are a host to the Caribbean fruit fly. Many moth and butterfly caterpillars will also feed on guava leaves, and the Erwinia psidii bacteria can cause rot diseases.


Guavas contain a lot of pectin, so it is easy to make guava jams, jellies, and marmalades.

Damage caused by proba bugs

The damage caused by proba bugs is similar to that of lygus bugs, only proba bugs are more aggressive in their feeding habits. Adults and nymphs feed on young artichoke leaves and at the base of developing buds. They feed by piercing the tissue and injecting a toxin that kills plant cells. As the surrounding leaf tissue continues to grow, these punctured areas turn into brown dead spots that dry and fall off, leaving a shot hole appearance. Feeding on the base of flower buds causes the bud [the part we eat] to turn black. Not very appetizing. This phytotoxin also causes stunting and deformed flower buds. Severely affected leaves will be smaller than normal and chlorotic.


Controlling proba bugs

Until relatively recently, commercial artichoke fields were treated with organophosphates and chlorinated hydrocarbon insecticides. Use of these neurotoxins is being phased out, so proba bugs are becoming more of a problem. Infested fields can lose 20 to 30% of the harvest to proba bugs. Farmers are now removing the coyote brush near their fields and tilling the crop residue under, in a practice called stumping, to help combat this pest.


Natural predators, such as big-eyed bugs, damsel bugs, minute pirate bugs, and spiders all feed on the nymph stage of proba bugs, so avoid using broad spectrum pesticides.


You can help protect your artichoke plant by cutting the plant off at ground level, once flower production is done for the year, and monitoring for signs of infestation in March and April.

The fungi that set up housekeeping within the tree end up being food for the newly hatched beetle larvae. By eating the fungi, the larvae then become carriers of the disease. These fungal colonies develop very rapidly, once they are inside a tree, and there is no known treatment at this time. Complicating matters even more, not all infected trees will show signs of infection. Some infected trees simply serve as breeding grounds, without showing any signs of disease, and we don’t yet know why.


Preventing disease

Healthy trees are far better able to protect themselves against borers. This means selecting plants appropriate to your microclimate, irrigating and fertilizing them properly, and providing healthy soil. Also, monitor your trees regularly.


Currently, Fusarium dieback is limited to Israel and Southern California. You can see a map of the disease, as it spreads through California, here. [It’s a big file, so it make take some time loading.] While Fusarium dieback has only come as far north as San Luis Obispo, to date, that can change overnight. Research is underway, to try and identify an effective lure that can be used to trap the borers.


If you suspect Fusarium dieback on a tree, please contact your local County Extension Office. Together, we may be able to slow or stop the spread of this disease.

Jerusalem artichokes are a species of sunflower with an edible tuber.


Having nothing to do with Jerusalem and very little to do with artichokes, these members of the sunflower family are native to the eastern half of North America. ​

Growing Jerusalem artichokes
​
To grow your own Jerusalem artichoke crop, begin by selecting a site. Remember, these plants are going to be around for a long time, and they can become rather tall. Unlike many other plants, sunchokes seem to enjoy being clumped together, but they should still be planted 8 to 12 inches apart. Create soil mounds over the plantings, 2 to 3 inches deep, and water regularly, allowing the soil to dry out between waterings.


Starting with a single Jerusalem artichoke tuber, you will eventually find your garden overrun with these perennials. Each plant can produce 75 to 200 tubers every year. Left unharvested, each of those will produce tubers of their own. In my book, that’s a good thing - but you may feel differently. Since tubers left in the ground for too long tend to deteriorate, and they can become invasive, Jerusalem artichokes are a good candidate for large containers or raised beds. This will facilitate crop rotation and control the number of Jerusalem artichoke plants you end up with each year. Any little piece of tuber left in the ground is likely to sprout, to plant accordingly.


Grown in containers, Jerusalem artichokes do not need to be fertilized if you start with nutrient rich potting soil mixed with aged compost. Plants will need to be watered deeply, once a week, throughout the summer. Staking may be needed to keep plants from toppling over, or you can grow them along a fence or against a building.


Harvesting Jerusalem artichokes

As the leaves, flowers, and stems begin to die back at the end of the growing season, usually around October, you can dig up the tubers and allow them to dry, unwashed, for storage. Each plant will produce approximately five pounds of tubers. Sunchoke stems can be chopped and used for mulch, while the tubers to be used for the next year’s crop are simply placed back in the growing bed, along with some aged compost, and the cycle begins again.



[Mostly] edible sunchokes

Surprisingly low in starch, Jerusalem artichokes contain a type of carbohydrate sugar, called inulin, which gives them an underlying sweet taste. While the human gut cannot digest inulin, bacteria further down can, so some people may experience a certain ‘airiness’ after eating sunchokes. If they are not bothersome to you, they also provide a lot of potassium, iron, fiber, and B vitamins. ​

Or, if you prefer, you can ferment your Jerusalem artichoke crop to make brandy, the way they do in Germany.


As an older native plant, sunchokes have very few pests or diseases to worry about. So, mark your calendar to start Jerusalem artichokes in March or April, and start preparing the planting space today!

Acidic soils are far more likely to cause calcium and iron to form hardpan layers, than alkaline soil. Soil structure is another important factor. Clay particles are very small and already tend to become compacted. In clay soil, rain or irrigation followed by high temperatures can also create hardpan. However it occurs, plant roots don’t like it.


Do you have hardpan?

Poor drainage is the first sign of hardpan, followed by a general failure to thrive. If you have a soil tester, you can take a few 2 or 3 foot deep samples of your soil, to see if there is a hardened layer. If you have a post hole digger, you can basically do the same thing, with more soil and more effort. The important thing is to look at the layers of soil as you bring them up. If you reach a layer where all the plant roots start growing horizontally, you have hit hardpan.


Managing hardpan

Once a layer of hardpan has formed, it takes brute strength and proper soil amendments to correct the problem. Basically, you can either dig down into the hardpan layer, breaking it up, or add significant amounts of organic matter and let nature takes its course.


If you opt for the brute strength method, you will have to wait for the soil to be dry. [Digging wet soil is never a good idea.] You can use a digging fork, spade, or broadfork to break through the hardpan layer. As you do this, you will want to make sure that the subsoil is not brought up and mixed with the topsoil.


To prevent compounding the problem by even more digging, it is important to add significant amounts of organic matter, in the form of aged compost or manure, or peat, to improve the soil structure, as you dig. Earthworms and other soil dwelling creatures will, over time, break through a thin layer of hardpan, but only if enough organic material is added to the soil.


Treating acidic soil with lime can help break up the chemical bonds that hold a hardpan layer in place. This is not an option, here in the Bay Area, where our soil tends to be very alkaline. You can also top dress the area repeatedly with organic matter to treat hardpan, but it may take years before you see results.

Soybean pests and diseases

Spider mites are the most destructive pest of soybeans, followed by corn earworm moths, Mexican bean beetles, bean leaf beetles, and cyst nematodes. Fungal diseases, such as stem blight, rust, and white mold can infect soybean plants, along with bean yellow mosaic and other viral diseases. But don't let that stop you!


If you have the space, give soybeans a try in your yard!

Wrapping your trees to protect against winter cold sounds like a good idea, but it probably isn’t.


For decades (centuries?) people have wrapped their trees to protect against frost cracks, winter sunscald, and other forms of cold weather damage. While this sounds like a great idea, it ends up that those wraps can actually cause more harm than good.

Problems with tree wraps

According to the International Society of Arboriculture (ISA), studies have shown that tree wraps do not actually prevent temperature fluctuations. In some cases, temperature variations are even worse with the wraps. Also, tree wraps provide protection for many wood-boring insects, wasps, and earwigs, just to name a few. This is especially true with snugly fitting wraps.


Manufacturers and many gardening sites suggest that tree tubes be left on young trees for several years, until they are well established. They claim that tree tubes insulate the trunk against winter sunscald and shade it against summer sunburn. These tubes may also prevent a tree from swaying in the breeze so much that it fails to get strong, through a process called thigmomorphogenesis. [How’s that for a cool garden word?]


Wrapped too tightly, tree wraps can interfere with normal growth, causing girdling. Depending on the material used, it may cut into the bark, causing points of entry for pests and disease.


Often bare root stock and young trees are sold with tree wraps in place. These wraps can provide protection during digging and shipping, but they can also hide injuries, insects, and improper pruning.


Wrapping your trees may reduce mechanical damage and rodent feeding, but it is more likely to result in insect damage and fungal disease. And it will not protect your trees against frost cracks or winter sunscald. Personally, I prefer whitewashing, mulch, and proper irrigation to prevent cold weather damage.

Breaking dormancy

​There are several chemical changes that occur as plants enter dormancy. These changes protect plants against the cold. Warm, sunny days can trick overeager cells into breaking dormancy and losing those protections. Then they die, leaving a sunken area below the bark.
​

Traditionally, tree wrapping was recommended as a protection against winter sunscald, but we now know that those wraps can cause more harm than they prevent. Wraps allow moisture to collect, setting the stage for rot, and they provide an excellent hiding place for pests and fungal disease. Also, cracks that occur under the wraps tend to not heal as well. Bottom line: don’t wrap your trees.


If your trees tend to get winter sunscald, you can block or shade the southwest side of your trees to provide some protection against winter sunscald.


Winter sunscald care

Once damage has occurred, you can speed the healing process by smoothing the edge of the wound with a sharp, sterilized knife. Do not remove more than 1/2” of the bark. Also, resist the urge to paint tar or sealant over the wound. This usually traps moisture against the wound, increasing the chance of disease and decay.


Finally, you know that old adage about getting lost in the woods and looking for moss on the north side of trees? Well, that piece of advice is useless. Moss grows on the side of the tree with the most moisture and sun protection. What you can do, however, is look for winter sunscald, which nearly always occurs on the south or southwest sides of trees in the northern hemisphere.


Now you know.

How to grow witch hazel

Growing witch hazel requires patience. After they have been cold stratified, seeds take up to a year to germinate. You will want to start them in pots, where they will stay for 2 or 3 years, before they will be ready for transplanting. Flowers do not appear until plants are 6 years old. Native to the northeast and throughout the Appalachian Mountains, witch hazel prefers life on the northern side of everything: the north side of your house, on north facing slopes, that sort of thing.

These frost cracks tend to be vertical, exposing the cambium layer, and can be several feet long, though you may not actually see them until spring, when the tree resumes growing. Frost cracks are more likely to occur where injuries, such as collisions, have occurred in previous years, providing a good argument for protective tree supports in high traffic areas.


Frost cracks can also occur when the bark and underlying wood are heated during the day, causing them to expand. As temperatures drop in the evening, the bark cools faster than the internal wood, causing the bark to crack.


Frost cracks are most common on the west and southwest sides of thin, or smooth barked trees, such as apple and pear, as well as beech, crabapple, horse chestnut, linden, maple, oak, sycamore, yellow poplar, and willow. Other plants are susceptible to frost cracks and winter sunscald, as well.


Caring for frost cracks

Once a frost crack has occurred, it is likely to occur again. Caring for these injuries properly will go a long way toward protecting your tree from invading pests and diseases. First, resist the urge to paint sealant or tar over the wound. Sealants are not effective at treating these injuries. Quite the contrary, sealants tend to trap moisture against the wound, increasing the chance of decay, especially near branch collars. If a frost crack has jagged edges, you can help your tree heal by cutting a narrow strip (< 1/2”) around the wound with a sharp, sterile knife, creating smooth edges. This will speed the growth of cambium, which will develop into a protective callus.


How to prevent frost cracks

First and foremost, keeping your plants healthy and properly irrigated will help them protect themselves. Since healthy tissue and defective tissue expand and contract at different rates, maintaining healthy trees in the first place is your best insurance against frost cracks and winter sunscald. These other tips can make a big difference is how your plants weather the winter:

• Select varieties best suited to your microclimate.
• Whitewash trunks and exposed branches.
• Avoid fertilizing late in the growing season; wait until after leaf drop.
• Leave frost and ice damaged leaves in place, as they provide insulating protection, unless it is a soft stemmed plant, in which case damaged areas should be removed completely, to avoid rot spreading into healthy tissue.

Temperature-sensitive plants can be protected with blankets or other coverings, just be sure to keep the covering from touching leaves and tender stems, and allow the material to hang, rather than bunching it around the trunk. This helps collect radiant heat form the surrounding soil.


Remember, it is far better for your plants to have frost and ice protections in place before they are needed.

If extrafloral nectaries are not super-sized nectarine flowers, what are they?


While most plants produce nectar in their flowers to attract pollinators, there are over 2,000 plants that produce nectar in other places, and for entirely different reasons.

What are extrafloral nectaries?

Nectar is the currency used by plants to attract beneficial insects. Nectar is manufactured in glands, called nectaries. Nectaries are usually found in flowers. When these glands occur elsewhere, usually on leaves or stems, they are called extrafloral. So, extrafloral nectaries (EFN)s) are knob-shaped, nectar-producing glands found on leaves and stems. 


These glands can take many different forms. Some are very primitive in structure, while others are highly complex. Regardless of the form, the nectar produced by EFNs is surprisingly consistent across species, and around the globe. This is in direct contrast to the wide ranging differences found in the nectar produced by flowers.


Why do plants have extrafloral nectaries?

If nectar is supposed to attract pollinators, why would it occur on stems and leaves? The most popular theory asserts that extrafloral nectar attracts insects, spiders, and crustaceans that protect the plant from sap-sucking, plant nibbling, seed eating pests. There is another theory that claims extrafloral nectaries may also serve a waste elimination function, but that theory is not nearly as popular, or as appetizing. Many beneficial insects (and some not so beneficial insects) are attracted to EFNs, regardless of the reason.

How shallots grow

Shallots are a type of bulb. Rather than growing a single bulb, the way onions do, or as a single head with several cloves, the way garlic grows, shallots create clusters of identical daughter bulbs, called offsets. Covering each bulb is a protective layer of papery tissue that can range in color from golden brown of a crimson red. The flesh can be off-white, tinged with magenta or green. Shallots are very tolerant plants. They can handle bright, hot sunlight or partial shade, and they will grow in soil pH from 5.0 to 6.8. Shallots love phosphorus, so they tend to grow very well in the Bay Area. The one thing they cannot tolerate is poor drainage. Shallots that sit in soggy soil will rot.


How to grow shallots

October and November are the best times of year to plant shallots in the Bay Area. You can start with seeds, but I urge you to try using those offshoots, commonly called “starts” for faster results. Prepare the bed by top dressing with aged compost. The looser the soil is, the better. Then, simply press the root end of each bulb down, into the soil, leaving the shoulders of the bulb above ground. Space plants 6” apart. Rows should be 10” apart. Do not mulch heavily on top of the bulbs as this can interfere with initial growth. Straw works well.


In spring, as your shallot bulbs begin to develop bulbs, give them a nutritional boost with aged compost or a well-balanced organic fertilizer. Shallots use 1” of water a week, so be sure to irrigate regularly during dry spells.


If flower stalks emerge, remove them. Continue watering and weeding your shallots until the tops of the leaves begin to turn yellow and fall over.


Shallots grow very well in containers and look lovely on windowsills, especially when so many other plants are dormant. In the Bay Area, I have been able to keep growing the same shallot plants for 3 years. When I need one, I simply wiggle it out of the soil and cut it off 1/4 inch above the roots and cover the roots back up with soil. Nearly always, a new shallot bulb develops (but not always).


If you harvest the entire plant, cut the leaves an inch or two above the bulb and allow the bulb to dry in a cool, dark area. If cured properly, they can be stored for up to 6 months. If you leave some of your shallot plants to continue their life cycle, you can collect your own offshoots for the next season’s crop.


Shallot pests and diseases

Leek moth larvae will burrow into the bulbs and leaves of shallots, but I have not had any problems with my container grown shallots. Gophers are a big problem, so you may need to bury hardware cloth under your shallot bed. I have dogs.


Shallots are pricey in the store, but easy to grow at home. Give shallots a try today!

Fire ant colonies

Fire ants live in colonies. Since they need water to live, these colonies are generally found near water. Colonies may be found under a sidewalk, near the base of a tree trunk, in electrical equipment, and in and around your home. Colonies in the ground will often mound the soil up 12 to 18 inches. Each colony hosts 100,000 to 500,000 workers and several breeding queens. These queens may live for a few years, while the sterile workers only live a few weeks. If nearby water levels rise, fire ants will build floating islands to protect the colony.


Red imported fire ants have developed symbiotic relationships with insects, such as mealybugs, that produce honeydew. As omnivores, fire ants often eat dead animals and insects, fruit, and seeds. Their favorite food, however, is honey, so protect your hives!


Harm caused by fire ants

Fire ants can ruin more than a child’s game or a picnic. A red imported fire ant colony can make working in the garden nearly impossible. If a fire ant colony feels threatened, it can swarm an area with thousands of angry, stinging insects. These swarms are responsible for killing young livestock, such as rabbits, pigs, and even cattle. [Never restrain an animal or place a playpen near a fire ant colony.] The Stock Island tree snail is believed to have become extinct because of fire ants. Even if nothing in your garden becomes extinct because of fire ants, these pests, along with other ants, can carry diseases that may harm your plants.


Fire ant stings

A single burning, itching sting can capture your attention for about an hour. After that, the sting turns into a blister that will bother you for 3 or 4 hours. This blister transforms into a pustule that resolves in a couple of days. That’s if you’re lucky enough to only get stung once. If you develop an allergic reaction after a fire ant sting, get to the emergency room right away.


If you are not allergic to fire ant stings, wash the area with soap and water and apply a cold compress to reduce the pain and swelling. Antihistamines and topical steroid ointments may also provide some comfort, but nothing will get rid of it completely.


It is estimated that 14 million people are stung by red imported fire ants each year in the U.S., and that many of those people will develop an allergic reaction over time.


How to control fire ants

Luckily, fire ants are susceptible to the same control measures as other ants. Over-the-counter ant bait systems can be placed near the colony. If a severe infestation is present, contact local county pest control agencies by calling the statewide red imported fire ant hotline at 1-888-434-7326.


Apparently, high level conflicts attract one another. As much as 75% of a black widow spider’s diet is, you guessed it, red imported fire ants. 

Fixed copper comes in many different forms: copper sulfate, copper oxide, copper hydroxide, and copper oxychloride sulfate. There are also products that link copper ions to fatty acids or other organic molecules.


Copper and pests

We’ve all heard that copper strips repel slugs and snails. This is only partly true. If the strip is wide enough, it will repel snails, but not slugs - and I have no idea why. Of course, if you install a double strip of copper and electrify it, you’ll probably have better luck. Bordeaux mixture or copper sulfate alone can be brushed onto tree trunks to discourage snails. Fixed copper sprays, combined with horticultural oil, applied when pests are in the crawler stage, winter through early summer, can help control scale insects.


​Copper as a disease fighting hero

Copper fights diseases by breaking down protein molecules and enzymes within pathogens. There is an astounding number of bacterial and fungal diseases that can be prevented and treated using copper. This is just a partial list:

Generally speaking, copper sprays are applied right after leaf drop and again, just before buds open. If heavy rains occur, additional applications may be needed. Keep in mind, the protection provided by copper only works while the pathogen is on the plant surface. Once infection occurs, copper is ineffective.
​

Penny for your thoughts on gardening…

To get started, sprinkle some of the bran on the floor of the bucket, add food scraps, sprinkle more bran, squish out as much air as possible, and put on the lid. Some people use a plastic bag on top of the mixture, to press the air out, while others use a plate. Advertisements claim that there are no smells, but that isn’t exactly true. Each time you open the bucket to add more material and sprinkle on more bran, you will smell it - a vinegary molasses bran smell. You continue this layering of waste and bran and pressing out air until the bucket is full. Then, you set the bucket aside for two or three weeks and let nature take its course.


Because this is a fermentation process, liquids are produced. You need to remove those liquids every few days, using the spigot., to reduce the chances of it going sour and smelling bad.. I’m not sure what I would do with this liquid. The material I found on the subject suggested using it to combat slime in drains and septic systems. Other sources claimed it was perfectly usable as a fertilizer, but some sites said to use it full strength, while others said to dilute it to 1/100th strength. Sorry, but I love my plants. I’m not going to risk them, trying to figure out which claim is accurate.


How to use bokashi mixture

After the fermentation process is complete, much of what is in the bucket will look like a pickled version of what it was when it first went in. Proponents of bokashi call this resulting mixture “pre-compost”, which must then be added to your compost pile or dug into the soil. Just be sure there are no plants nearby for another couple of weeks. This initial mixture is very acidic, with an average soil pH of 4.0, which can burn plant roots. Before you think this will be a way to acidify your soil, you need to understand that soil pH is very difficult to alter and that it would take A LOT of bokashi mixture to make a lasting change. The fermented mixture can also be added to your worm bin, if you are practicing vermiculture. I don’t know if it is safe for worms (or if it gets them drunk) but, aside from the meat and dairy, you could have added the raw materials to the worm bin in the first place and skipped the whole fermentation process.


If you haven’t guessed by now, I am not sold on the bokashi method. While it would be wonderful to simply drop all our trash in a bin that kicks out healthy soil, that mechanism does not yet exist. Making soil takes millions of years. You can certainly use bokashi to feed your soil, if you enjoy the process, but you can also raise worms, or just compost the old fashioned way.

The guava fruit fly is yet another invasive pest that home gardeners need to be aware of.


You may have driven through an agricultural inspection station on your way into California, at one time or another. These inspection points, along with those at international ports, and at shipping and postal centers, all work together to prevent infestations of foreign pests. This is a lot easier and cheaper than getting rid of them after they start feeding and breeding in a new area, which may not have native predators.

If you even remotely suspect that you have a guava fruit fly, please call the Pest Hotline at 1-800-491-1899, or bring it to your local Department of Agriculture office. If guava fruit flies were to take hold in the U.S., crop losses and pesticide use would both skyrocket.

You should always protect your own garden by quarantining new plants, to ensure that they are pest and disease free.

I could go on, there is simply more to see than a person can do in a single day, but I would like to share my experience about a very special discovery that occurred during my visit.


A most amazing discovery

Wandering the gardens and trying to absorb and retain all that is there (an impossible task), I learned that the Peter H. Raven Library, housed in the Monsanto Bldg. and part of the Gardens has, in its collection, a first edition copy of Darwin’s The Origin of Species. Several emails and a fair measure of luck later, I found myself in a very special (and rather chilly) room in the Raven Library. With clean hands, I was allowed to handle some of the oldest botanical books known to mankind, including Darwin’s Origin and Carl Linnaeus’ earliest works. Then things got even more exciting, as I was allowed to turn pages in books written and bound in the 1700s, 1600s, and even the 1500s. It was a truly awe inspiring experience. It also reminded me of just how far we have come in just a handful of centuries.

Cut open the crown or below ground area of the plant, to see if sunken brown lesions or reddish flecks are present. Then, look closely at the roots. Infected plants will have reddish brown, elliptical lesions on the storage roots. Feeder roots will probably rotted off completely, though any remaining tendrils will have the same reddish brown discoloration seen elsewhere.


Disease lifecycle

Unfortunately, these fungi can survive in the soil indefinitely, and they are found pretty much everywhere. The disease is often spread as infected soil is moved from place to place on shoes, tools, and equipment. It can also be carried on seeds, which is why choosing reliable seed sources is so important. This disease can occur anywhere underground. Very often, insect feeding creates points of entry for these fungi. Asparagus miners are a common culprit.


Controlling Fusarium crown and foot rot

Environmental conditions that keep plants healthy also improve their ability to prevent these fungi from entering in the first place, so avoid water stress and feed plants regularly with top dressings of aged compost. [Asparagus plants are very heavy feeders.]


Once a plant becomes infected, it should be removed completely, along with nearby soil, and disposed of in the trash. To reduce the chances of the disease taking hold in the first place, your asparagus plants should be rotated every five years and be sure to provide proper drainage.


Remember, perennial asparagus can provide you with many years of delicious spring and autumn spears, so don’t let these pathogens stop you from trying to grow your own!

You can increase the populations of these tiny, beneficial wasps by avoiding the use of broad spectrum insecticides and pesticides. Dormant oils can be used in winter and early spring to rid your tree of scale insects, but walnut trees are sensitive to horticultural oils and you need to use narrow-range oils to avoid harming the tree.


Scale infestations can sneak up on you. Be sure to take the time every month or so to inspect your trees for signs of infestation.

What pests are lurking in the soil of your lawn or garden? One easy way to find out is to conduct a drench test.


A drench test is simply pouring soapy water over an area and waiting to see what comes up. Most insects don’t handle soapy water very well, so they will come up, out of the relative safety of the underground world, when their home turf is saturated with the stuff.


Underground pests

The most common soil dwelling creatures that you will see are ants, earwigs, sowbugs, worms, and grubs. Most often, these grubs are pests. Common underground pests include armyworms, cutworms, fiery skipper larvae, sod webworms, and southern chinch bugs.

How to conduct a drench test

Soapy water probably isn’t very good for beneficial soil microbes, so this isn’t something you want to do all over, but it is an excellent test for measuring the presence of soil pests. Follow these steps to see what might be nibbling your plants’ roots:

1. Gently mix 2 - 4 tablespoons of liquid dish soap into a gallon of water. [If your soil is especially dry, you may need to double the recipe.]
2. Mark off one square yard (3’ x 3’) of an area containing both healthy and unhealthy growth, with a rope, some string, or a garden hose.
3. Thoroughly saturate the area with the soapy water, using a watering can.
4. Monitor the area for the next 10 to 15 minutes, counting any insects that emerge.