Purple scale identification

Purple scale insects aren’t actually purple. That sure would make them easier to find! Instead, they are dark brown and may have tan edges with a slight purplish tinge.


Male purple scales are smaller and narrower than females. In both cases, you may see a slight bend at the narrow end of the scale. Male purple scales are 1/10” long and females are slightly larger. Male purple scale insects are tiny and they fly around in search of immobile females.


Purple scale lifecycle

Females lay 40 to 80 eggs under their protective covers. After the eggs hatch, crawlers emerge and scuttle to nearby fruit, leaves, and twigs, where they begin forming their own covers. At first, purple scale crawlers are covered with a mass of waxy threads. When they are about half-grown, their purplish-brown covers begins to develop. Once a female attaches herself, she stays put.


Purple scale management

Temperatures above 80°F are hard on purple scale, so their numbers are greatly reduced by the time summer is in full swing. But a second generation may appear in autumn and, in some years, a third generation may occur before winter cold brings them to a halt.


Natural predators, such as parasitic wasps, twicestabbed lady beetles, and Australian lady beetles, take a big bite out of these pests. We can help them do their job by avoiding broad-spectrum pesticides and applying sticky barriers to the trunks of trees. Argentine ants are known to protect scale insects, so sticky barriers remove that protection.


Purple scale prefer dusty conditions, so giving your citrus trees a quick shower with the hose can help.

These symptoms can be mistaken for aster yellows at first, but roots are not affected. This condition, regardless of its cause, starts out as tiny pinheads of chlorosis. New leaves are narrower than normal with wavy edges. As these leaves grow, only the midrib gets longer, pulling the leaves into strap-like shapes that end up looking more like stiff strings than leaves.


Scientists have found that autoclaving soil eliminates the frenching effect, but I’ll bet none of us have that option. There isn’t much we can do about the weather, either, but there are things we can do that will reduce the chance of frenching in our home gardens. Those actions include improving drainage, monitoring and maintaining a good soil pH, and feeding and irrigating plants regularly should do the trick.


Have you seen frenching in your garden? Which plants were affected?

Today, we are learning about the Krebs cycle. Wait! Come back!
 
The Krebs cycle is how plants get energy from their food. Also known as the citric acid cycle, it won’t tell you how to grow bigger tomatoes or sweeter melons, but understanding the Krebs cycle gives you a better understanding of how plants grow and what they go through to make all those delicious things we eat.

We’ve already discussed the nitrogen cycle, the carbon cycle, and the water cycle. Those cycles describe how things needed by plants become available (and unavailable) as they change forms, moving through the environment.

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We’ve also discussed the Calvin cycle, which is part of photosynthesis. In the Calvin cycle, several anaerobic chemical reactions occur that allow plants to transform the carbon from CO2 into sugars. After those sugars are formed, the Krebs cycle begins.


Messrs. Krebs and Johnson
 
In 1937, a man by the name of Albert Szent-Györgyi was studying pigeon muscles. Stay with me, now! He received a Nobel Prize for his efforts, part of which was discovering several aspects of what later became known as the citric acid cycle. His discoveries were taken further that same year by Hans Adolf Krebs and William Arthur Johnson. [I guess they decided the Johnson cycle didn’t sound as impressive.] Krebs received the Nobel Prize for Physiology in 1953 for that work. [I don’t know why Johnson didn’t. Maybe he was too difficult to work with. I don’t know.] The Krebs cycle is part of the aerobic respiration process plants use to produce usable energy.


Respiration, not what I expected

When I hear “aerobic respiration” I start thinking about increased heart rates and time spent on a treadmill, but that’s not it. Aerobic respiration refers to one way that usable energy is formed. That usable energy is adenosine triphosphate or ADT. ATP is a molecule that carries usable energy around within a cell, taking it wherever it is needed. ADT is created when food (sugar) is burned with oxygen. I don’t know how plants burn anything but I keep getting images of little campfires in plant cells, so that’s kinda fun.


Sugar as plant food

I always thought plants simply drank sugar solution as food, but that’s not exactly how it works. Let’s put our steampunk magnifiers on and see what’s really going.

To start, you need to know that sugar molecules are relatively large. To use them, plant enzymes go to work, breaking down those acidic glucose molecules into energy and pyruvic acid. That process is called glycolysis. More reactions occur, breaking the remaining bits down into carbon dioxide. As energy is released through these processes, it is moved to other molecules, called electron carriers. Electron carriers are like tiny cargo trucks. They form a chain called the electron transport chain. This transport chain creates ATP. As a side benefit, the processes also create the building blocks of several other molecules, such as amino acids.


For perspective, let’s say that a plant cell is the size of Arizona and the mitochondria are Phoenix. Arizona has a railway system that transports food. All the food comes from Texas and is too big to be packaged. This giant-sized food is taken to Phoenix where it goes through a 9-step process that converts the giant food into snack-sized portions that are small enough to fit on the trains. The trains take the food wherever it is needed. Put simply, that’s the Krebs cycle.


But what does all this have to do with your garden?

The bottom line, healthy plants produce bigger, tastier crops with less effort on our part. They are better able to defend themselves against pests, diseases, and weather extremes. All you have to do is make sure they get the right amount of water regularly and that the soil they are growing in contains the correct range of nutrients.


Have you had your soil tested yet? What did you learn?

Runoff

Water moving across the land is called runoff. Surface runoff, or urban drool, is wasteful and potentially dangerous. As suburban sprinklers miss their mark and water streets and sidewalks instead of lawns, they also carry oil, excess fertilizer, trash, and pollutants into waterways. Please make sure your sprinklers water where you think they do and adjust them as needed.


As you can see, the water cycle is a series of steps that pass through various filters along the way. I once had a student create a variety of natural filtering systems for a science project. She used rocks, leaves, sand, and soil in separate containers to filter muddy water. Which material do you think did the best job of cleaning the water?


I thought it would be the rocks, but I was wrong.


It was the soil.

These tiny hunters may not look like much to us, but predatory thrips are other thrips’ worst enemy. In fact, predatory thrips control other thrips more effectively than other natural enemies. Mites, spider mites, and whiteflies are in the same boat. Predatory thrips are worth their weight in gold.


These tiny hunters share many traits with their prey. Males are rare and females can produce offspring without mating. Predatory thrips also eat plant material, but they cannot survive without eating meat. ​

Like other thrips, these insects are vulnerable to broad-spectrum insecticides and pesticides, horticultural oils and insecticidal soaps, so leave them as a last resort. Instead, create a habitat that attracts these and other beneficial insects. Your predatory thrips need food, water, and shelter, like every other living thing. You can buy predatory thrips. Or, you can simply provide a water source and a variety of places to hide, and these garden helpers will find your garden on their own.

Western flower thrips feed on much more than flowers. In fact, this group sucks the sap out of over 250 different plants. They can also bring tomato spotted wilt and other tospoviruses to your garden. And they bite!

Western flower thrips (Frankliniella occidentalis) are native to the Southwestern United States but have spread to several other continents on contaminated plant material. [Yes, Virginia, invasiveness goes in all directions.] In fact, western flower thrips have earned the dubious distinction of being one of the world’s most important agricultural pests. And they have developed a resistance to many insecticides, so don’t bother spraying. Some scientists believe that western flower thrips have become such a problem and experienced such a significant population explosion as a result of genetic mutations caused by the insecticides we used to try to kill them. Oops.


Western flower thrips description

Male thrips of any type are rare. The same is true for this species. If you do see one, you might notice that they are yellowish-white. They are also larger than many other thrips, measuring up to a whopping 0.06 inches (1.4 mm).  When male western flower thrips come together, they fight by flicking the tip of their abdomens at each other. Wouldn’t that be a sight?

Western flower thrips lifecycle

Like other thrips, females do not need to be mated to produce offspring. Eggs are laid in unopened buds and under the epidermis layer of leaves, flowers, and fruit, causing discoloration and distortions. When those eggs hatch, hungry, mobile larvae start feeding. They use raspy mouthparts to shred and pierce to get at the sugary sap they crave. When not eating, they hide in tight little spaces where they are difficult to find. After they have eaten their fill, they enter a two-step, non-feeding pupal stage. In some cases, they drop to the ground to pupate. There can be up to 15 generations each year.


Western flower thrips host plants

It would probably be easier to list the garden plants not affected by western flower thrips, but you need to see just how damaging these micro pests can be. Members of the carrot, broccoli, citrus, legume, melon, mint, onion, sage, stone fruit, and tomato families are all susceptible to western flower thrips. So are apples, artichokes, beets, blueberries, figs, grapes, lettuce, pistachios, rye, strawberries, and wheat. See what I mean?


These pests also feed on several native plants and many popular ornamentals, including carnations, chrysanthemum, gladiolas, impatiens, orchids, petunias, roses, and sweet peas. As thrips feed, their saliva damages the surrounding plant tissue. And nymphs feed heavily on newly forming fruit and leaves, causing damage and spreading disease.

Being attracted to bright colors, especially blue, white, and yellow, these pests will land on people wearing those colors and bite them. Thrips won’t drink your blood or make you sick, but you might be uncomfortable for a while. And you can use that information to help control these pests.


Blue sticky sheets are very effective at attracting and capturing western flower thrips. Sadly, beneficial hoverflies are also attracted to those blue sticky sheets. You can protect those garden helpers by surrounding the blue sticky sheet with a mesh that will allow the thrips through, but not the hoverflies. Reflective mulches actively discourage western flower thrips and insidious flower bugs are particularly fond of western flower thrips. For dinner.

Beneficial insects, such as lacewing larvae, pirate bugs, and predatory thrips will help in the fight against onion thrips, so avoid using broad-spectrum pesticides and insecticides.


Since healthy plants are better able to protect themselves against onion thrips, water and feed your plants with that goal in mind and get your soil tested by a lab. You’ll be glad you did.

Yellow sticky sheets attract and capture all sorts of thrips and other pests and they are inexpensive. While research has shown that green sticky sheets are more effective at capturing bean thrips in particular than other colors, you’ll probably do fine with the yellow.


So, what’s going on (and under) your plants’ leaves?

Even if you aren’t growing avocados, avocado thrips are pretty fascinating.

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[Just a reminder, the word thrips is the same for one thrips or many thrips.]

Avocado thrips (Scirtothrips perseae) are native to Mexico and Guatemala. In 1971, a single female was stopped at the border. By 1996, avocado thrips were found throughout California and Hawaii. By 1999, it was estimated that avocado thrips infested 99% of California’s avocado trees.


Damage caused by avocado thrips

These pests may be tiny, but they can cause significant damage. Thrips populations explode rapidly in spring and autumn, leading to defoliation and premature leaf drop. This, in turn, reduces tree vitality and crop size. The biggest problem with avocado thrips is the scabby, brown scars on the fruit they create. These damaged areas don’t look very nice and they can create points of entry for rot and other diseases and pests.


Avocado thrips identification

These suckers are tiny. At 0.03 inches long (0.7 mm), you could put 23 adult avocado thrips end-to-end across a dime, making them one of the smaller thrips species. If you could see them up close, you would see that adult avocado thrips are straw-colored, with three red spots on the top of their heads, between their eyes. Those dots are called ocelli and they are light-sensitive organs. They also have yellow abdomens with brown stripes, but their bellies may look greenish because of all the chlorophyll they consume. [I was unable to find a free-to-use image of an avocado thrips, but they look enough like chili thrips that that’s what I used above.] Avocado thrips first instar larva are pale whitish-yellow, while second instar larvae are bigger and brighter yellow.  


Avocado thrips lifecycle

Avocado thrips have six distinct life stages and adult females can lay eggs whether they have mated or not. Unfertilized eggs produce males and fertilized eggs produce females. How’s that for efficiency?


Eggs are laid on immature leaves and fruit. When they hatch, they begin feeding in the first larval stage. Then they enter a voracious second larval stage, followed by two non-feeding pupal stages. These pupae hide out in cracks and crevices in the bark and on branches, or in leaf litter (duff) under the tree. Flying adults emerge and begin feeding on leaves and fruit as they search for mates and good sites for egg-laying, and the cycle continues.


Avocado thrips management

Scorching summer heat seems to do a number on thrips, but the eggs they lay beforehand are waiting for conditions to improve. You can use yellow sticky sheets, mulch, and natural enemies to battle avocado thrips. Those natural enemies include various green lacewings and a fascinating predatory thrips called Franklinothrips. I can’t make this stuff up, but we will learn more about that pest later this week. Some predatory mites also like to feed on avocado thrips larvae. To help these predators succeed, avoid using spinosad and other insecticides.


Avocado thrips and several other pests are attracted to yellow sticky sheets. These are inexpensive and very effective, just keep them away from your hair. Also, studies have shown that mulching under (but not touching) trees can result in 50% fewer thrips making it to adulthood. This is because 78% of larvae drop from the tree to pupate on or in the soil. Apparently, a mulch of arborist chips or composted organic yard waste contains enough different predatory nematodes, fungi, bacteria, and other killers of thrips to put a serious dent in their population. Three cheers for biodiversity!


To reduce the chances of the problem in the first place, only buy certified pest- and disease-free rootstock. Of course, while they do it badly, thrips can fly, sort of, so a brisk breeze may be all they need to reach your avocado tree. Be on the lookout. Remember, they like to hide on the underside of avocado leaves.

Life in a greenhouse can be idyllic if you are a seedling, whitefly, or a thrips.


The same conditions that provide for optimal plant growth also create a perfectly protected habitat for pests, such as greenhouse thrips. Of course, those pests then escape their Eden and end up in our gardens.

Greenhouse thrips management

These pests, like many others, have developed resistance to insecticides and spinosad, so don’t bother. Instead, put nature to work for you. Natural predators, such as robber flies, will put a dent in thrips populations. If thrips are a serious problem in your landscape, you can buy predaceous thrips and you may be able to find egg parasites, such as Thripobius semiluteus or Megaphragma mymaripenne, that you can release in your landscape. Cultural thrips controls include thinning fruit to reduce hiding spaces (and improve fruit quality) and harvesting fruits as soon as they are ripe.

While wheel bugs also prey on honey bees and ladybugs, they are considered highly beneficial. Their presence indicates a healthy environment with abundant biodiversity. To encourage wheel bugs in your landscape, avoid using broad-spectrum pesticides and insecticides, and add some goldenrod and sunflowers.

Secondary macronutrients are the side dishes. They include calcium, magnesium, and sulfur. Continuing with our menu motif, I guess we could say the remaining micronutrients are the herbs and spices of a plant’s meal. We used to call these flavorings trace elements and they include boron, chlorine, cobalt, copper, iron, manganese, molybdenum, nickel, selenium, silicon, sodium, zinc, and vanadium.


What is vanadium?

Vanadium is a biochemically active metal and it is the 20th most abundant element in the Earth’s crust. It is estimated that 100,000 metric tons of vanadium are released into the atmosphere each year by burning fossil fuels, so there’s no shortage. We used to think that vanadium (V) was toxic to plants. Now we know it’s not that simple.


Vanadium is a tough nut to crack. Even though there’s plenty of it in most soils, only 1% of what’s there ends up being soluble in water, so it isn’t always easy for plants to absorb it. Also, vanadium can accumulate in plant tissues to the point that it becomes toxic. To makes things even more confusing, vanadium is believed to mimic phosphorus, tricking plants into absorbing vanadium when what they need is phosphorus. But plants do need vanadium.


How do plants use vanadium?

Vanadium is used by some plants as a substitute for molybdenum. Molybdenum helps plants use nitrogen by working with certain enzymes. But recent research has shown that there’s a lot more to vanadium than that.


Vanadium plays a role in the movement and absorption of other nutrients, activating certain enzymes, and allowing for (and blocking) the absorption of several different elements. Vanadium has been found to stimulate corn, pepper, rice, tomato, and other plants’ growth and flowering. Lab studies have shown that vanadium is responsible for increased levels of amino acids, chlorophyll, and sugar, as well as N, P, K, Ca, Mg, Cu, Mn, and B. Adding vanadium made the plants being studied grow more, produce more flower buds, and sped up the flowering process. It also helped counteract the negative effects of too much copper and other metals.


Other studies have shown that vanadium helps convert atmospheric nitrogen (which most plants cannot use) into ammonia (which plants can use as a nitrogen source). It does this by waking up a specific enzyme, called nitrogenase.


Before you start adding vanadium to your soil or fertilizer mix, you need to know that this is one of those too-much-of-a-good-thing-is-a-bad-thing situations. Vanadium toxicity can harm your plants by causing a build-up of potassium, magnesium, and manganese in plant leaves, causing a domino effect of malnutrition.


Since most soils already have plenty of vanadium, regular irrigation and periodic soil tests are your best bet. Soil tests don’t (yet) include vanadium in their results, but they will help you see if any other imbalances are present.

One of those characteristics, the “fakeness” of follies, opens up several possibilities to the home gardener. You may not be able to recreate a full-scale stone castle next to your tomato plants, but nothing says you can’t use that curb-scored iron headboard or plastic kiddie climbing toy to create a folly of your own.


If you could build any sort of folly in your yard, what would it be? Personally, I’d love one of those Baba Yaga houses with the chicken legs, but that’s just me.

Growing rose family plants

Rose family members grow best in locations with loose soil, good drainage, and full sun. These plants have chilling requirements that must be fulfilled before fruit can be produced, so be sure to pick varieties and cultivars that match the chill hours expected in your yard.


Rose family pests and diseases

It would probably be easier to list the pests and diseases that do not affect members of the rose family. The same characteristics that make these plants appealing to us attract insect pests. Of course, it depends largely on which plants you’re growing. In most cases, aphids, borers, caterpillars, leaf miners, Fuller rose beetles, leafhoppers, mealybugs, root nematodes, sawflies, scale insects, spider mites, thrips, and whiteflies are common pests.


Rosaceae are susceptible to several fungal diseases, including black spot, gray mold, powdery mildew, rusts, stem canker, and Verticillium wilt. Bacterial blight and fireblight can also occur. Learn more about the specific plants you are growing to know how to protect them against these problems.


Speaking of growing, how many members of the rose family are in your garden? Tell us in the comments!

Ribes pests and diseases

Aphids, brown marmorated stinkbugs, clearwing moth larvae, currant borers, gooseberry fruitworms, gooseberry sawflies (Nematus ribesii), also known as currant sawflies, mites, imported currantworms, and the larva of some moths and butterflies are common Ribes pests. And birds.


Problems are more commonly caused by mineral imbalances in the soil or improper irrigation. These plants are susceptible to several fungal diseases, such as American gooseberry mildew, anthracnose, currant cane blight, gray mold, leaf spot, powdery mildew, rust, and septoria leaf spot. Avoid overhead watering and be sure to provide good drainage.


Ribes grow best in cool, moist surroundings with good drainage, but partial shade and regular irrigation make them possible elsewhere. These plants can be grown in containers and are self-pollinating. Ribes take well to regular pruning, making them excellent patio or balcony plants, and renewal pruning each winter keeps them healthy and productive.


Ribes berries are delicious and their flowers provide nectar and pollen to a wide variety of butterflies.

The mallow family (Malvaceae) is a mixed bunch. It contains several weeds and some favorite crops. It also includes several ornamentals, such as hibiscus, hollyhocks, and linden trees. Scientists are still arguing over the specifics of the mallow family, but let’s see how it applies to gardening.

Mallow pests and diseases

Weedy members of the mallow family can carry several diseases, including rusts, tomato yellow leaf curl, and tomato spotted wilt. Members of the mallow family are also susceptible to bacterial leaf spot, gray mold, and phytophthora blight. Aphids and spider mites are the most common pests.


If you grow hollyhocks and okra, you may want to keep them at a distance from each other, to prevent the spread of disease.


​Finally, the marshmallow plant (Althaea officinalis), a native herb of Europe, is a member of this family and its roots were used to make marshmallows some 4,000 years ago in Ancient Egypt. Today, marshmallows are made out of sugar and gelatin.

Many people consider amaranth, buckwheat, and quinoa to be cereal grains, but they are not. Instead, these are all broadleaf (dicot/eudicot) plants known as pseudocereals. Other seeds that are not grains include lentils, peas, and other legumes. And that “recreational/medicinal” grass? It’s not a member of this family either.


Grass family pests and diseases

Grains and grasses are prone to fungal diseases, such as leaf scald, leaf spot, net blotch, stripe rust, and stem rust. Along with grasshoppers and crickets, and other common pests, this family battles crane flies, stinkbugs, and wireworms. Also, aphids may carry a viral disease called barley yellow dwarf.


Your average lawn grass has a root system that only goes down a few inches. Other grass plants have roots that can go down 5-10’ or more. So, how about making a little room for a patch of grain? As a food crop, I expect that it will be much like endive, nasturtiums, lentils, and tomatoes—it will continue to turn up long after I have stopped planting it.


The grain and grass family provides 51% of all human dietary energy. How much space does it get in your garden?

• black cutworms (Agrotis ipsilon)
• greater wax moths (Galleria mellonela)
• Japanese beetles (Popillia japonica)
• long-tailed skippers/bean leafroller caterpillars (Urbanus proteus)
• Mexican bean beetles (Epilachna varivestis)
• southern green stink bugs (Nezara viridula)
• tobacco budworms (Heliothis virescens)

 
There are four predatory stink bugs found in the U.S., mostly in southern states.


Anchor stink bugs

Anchor stink bugs (Stiretrus anchorago) are from Central and North America. They occur in several different color variations, ranging from black, white, and tan, to orange or red and black, to green and yellow.

As you search your garden for stink bugs, with a bucket of soapy water in hand, keep in mind that not all of them are bad. Sorting between beneficial and pest stink bugs is made a little easier because many predators tend to be more brightly colored and patterned.


Which types of stink bugs have you seen?

Similar to ladybugs, red-shouldered stink bugs are notorious for invading homes in autumn. And don’t try vacuuming them up or your vacuum will stink. Instead, invert a plastic bag over your hand, pick those little suckers up, and drop them into a container of soapy water. The same method works outside in the garden, as well.


Stink bugs can smell pretty bad. Even my hens turn up their beaks when one crawls by, so it’s up to you!