Bulb mite description

Bulb mites are a collection of pests from the Rhizoglyphus and Tyrophagus genus and they look like miniature ticks with spiky hairs. These pests may be tiny, but they can cause significant damage. Ranging in size from 1/2 to 1 mm long, you could 15 to 30 or more of them nose-to-tail across a dime. If you were to look at one with a magnifying glass, you would see that they are a shiny, creamy white, with four pairs of brown legs.


Bulb mite host plants

As the name implies, bulb mites infest bulbs, such as tulips, daffodils, and saffron crocus. They can also be found under the root plate of garlic and onion, or in the crown of spinach plants.


Damage caused by bud mites

Bud mite feeding is not particularly destructive by itself. The problem lies in the wounds created by that feeding. These damaged areas allow organisms responsible for decomposition to get inside your plants, causing them to rot. Overall stunting, leaf distortion, and softened stems are common responses to bud mite feeding.


How to manage bulb mites

Protect your bulbs against bulb mites by inspecting them before planting. Infested bulbs should be destroyed. Crop rotation and the removal of post-harvest plant debris can interrupt this pest’s lifecycle.

Like its cousin, the bright orange rust seen on the underside of rose leaves, yellow rust is a fungal disease. Unlike many other fungal diseases, this rust only occurs on the outside of plants. This is not the same yellow rust seen on wheat, rye, and barley, which is called stripe rust. Stripe rust is caused by Puccinia striiformis. 


Symptoms of yellow rust

Plants infected with yellow rust (Phragmidium rubi-idaei) will initially have yellow pustules, called aecia, on the tops of the lower leaves. These symptoms are usually only seen in spring and early summer. In early to mid-summer, yellow to orange pustules, called uredinia, are found on the underside of leaves. As summer progresses, these growths darken and a black spot can be seen in the middle, if you look closely. You may also see orange spots on the fruit. Similar infections that occur later in the season may be late leaf rust (Pucciniastrum americanum), or the more severe orange rust (Arthuriomyces peckianus). In any case, infected leaves wither and die, reducing the plant's ability to perform photosynthesis. This can reduce crop size significantly.


Yellow rust control

Pruning for good air flow helps leaves and stems dry out, making life more difficult for this fungi. Since yellow rust spores (teliospores) overwinter in fruiting canes, or floricanes, pruning those canes out at the end of the growing season can break this disease triangle. The canes of summer-bearing raspberries won’t produce any more fruit anyway, so you might as well. Just be sure to dispose of the trimmed canes in the trash, and not the compost pile.


Left in place, these spores then spread the infection to the next season’s primocanes, or vegetative growth. Also, keep the area around the plants clear of dead leaves and other plant debris. If your raspberries are especially prone to yellow rust, you may want to cut the first spring growth of new canes back to ground level. Don’t worry, the root system will put out new canes pretty quickly. That first growth is the most likely to have become infected.


Fixed copper sprays and lime sulfur are recommended for severe outbreaks. Otherwise, you can simply remove infected leaves by hand and improve the air flow between plants to keep this disease in check and protect your delicious raspberries.


Resistant varieties are available, so check with your local Department of Agriculture or Master Gardeners for recommendations for your area.

Symptoms of pea seed-borne mosaic

Stunting, deformation, and rosette-type growths at the ends of stems are all signs of pea seed-borne mosaic. Chlorosis, downward cupping, vein clearing and swelling, and the classic mosaic or mottling of mosaic diseases may all be present in infected plants. Vein clearing is a common symptom of viral infections and it refers to the way leaf veins appear translucent. Seeds tend to be shriveled and discolored. Infected plants are slow to reach maturity, but don’t leave them in the ground long enough to notice. Pea seed-borne mosaic infection is easily mistaken for chemical overspray, nutrient toxicities, and water-stress. Laboratory tests are needed to be sure of infection. You can often take zip-lock bagged samples to your local Department of Agriculture for analysis.


How to control pea seed-borne mosaic
​
The pea seed-borne mosaic virus (PSbMV) is carried to your garden on aphids. I would tell you to control the aphids, but that is an ongoing battle in the garden. Do the best that you can. Plants infected with pea seed-borne mosaic should be removed immediately. Unfortunately, some infected plants will never show symptoms. As aphids feed on these asymptomatic plants, they then carry the disease to nearby plants, spreading infection. For the most part, as the name implies, this viral disease is carried by infected seeds. Plant infected seeds and the aphids do the rest. To prevent pea seed-borne mosaic from occurring in your garden, only buy clean, disease-free seeds. 


This disease can overwinter in nearby weeds, such as shepherd’s purse, vetches, and black medic. It can also be carried on alfalfa and sugar beets without causing the host plants any problems. If you notice outbreaks of pea seed-borne mosaic, and you know your seeds were clean, look at what is growing nearby.


You can prevent pea seed-borne mosaic by planting resistant varieties.

Fig mosaic management

Trees take time to grow, so having to remove an infected tree is best avoided. Begin by only installing disease-free tree and planting them at the proper depth, giving them the irrigation and food they need to stay healthy. Monitor your fig trees for sign of mite feeding. You will need a 20x hand lens to see these tiny sap-suckers. Fig mite feeding is usually seen around bud scales and young leaves and it often causes a faint russetting. Twig stunting and leaf drop may also occur.


Sulfur treatments and horticultural oils have been shown to control fig mites. 


Go take a look at your fig tree to see if mites might be present. If they are, get rid of them so that you can enjoy many years of sweet, delicious figs.

Squash mosaic carriers

​Unlike other mosaic diseases, squash mosaic is not spread by aphids. Instead, striped and spotted cucumber beetles, leaf beetles, and 28-spotted ladybird beetles are the most common vectors of squash mosaic. Many other beetles are also capable of hosting the virus. As these insects feed, their saliva transfers the virus to the plant. This is why it is so important to remove infected plants right away.


Squash mosaic controls

In addition to removing infected plants, beetle control is important in the prevention of squash mosaic. And beetles can be tough to control. The virus can stay viable inside a beetle for up to 20 days, so it is worth the effort. A single beetle can infect dozens of plants in that time frame. To control beetles, handpicking is always an option, if you are quick enough. You can also use neem oil to kill beetle eggs. Encouraging beneficial predators, such as ladybugs, mantids, and solider bugs, in the garden with fresh water, insectary plants, and little or no chemical use is probably the easiest method of keeping beetle populations within reasonable limits.


Squash mosaic can also be carried on melon seeds, so be sure to get clean, disease-resistant seeds from a reputable supplier (and not that melon from the grocery store).


Certain chenopod weeds, including lambsquarters, goosefoot, Russian thistle, and kochia, provide overwintering sites, so keep these weeds away from your cucurbits.


As with many other viruses, tools, clothing, and other surfaces can also become carriers. To prevent the spread of this disease, sanitize tools regularly and avoid working around plants while they are wet.

Zucchini yellow mosaic host plants

In addition to infecting zucchini, zucchini yellow mosaic also infects other members of the cucurbit family, including melons, squash, pumpkins, some gourds, cucumbers, cantaloupe, and watermelon. The disease is transmitted by aphids.


Zucchini yellow mosaic management

As anyone who gardens knows, controlling aphids is difficult. These pests seem to appear overnight, in huge numbers. And all it takes is one aphid to get the whole process started. Unfortunately, insecticides are rarely useful in managing zucchini yellow mosaic, because the disease has often been transmitted before you even know the aphids are there. Reflective mulches can be used to discourage aphids, just be sure to remove the reflective material before it gets too hot. Row covers can also be used to reduce access to susceptible plants.


This disease can also be spread on infected garden tools and seeds, so be sure to sanitize your tools regularly and get your seeds from a reputable source (and not that zucchini from the grocery store).


Infected plants should be destroyed and replaced with resistant cultivars.


Since this virus is only viable for a few hours within their aphid carriers, creating a physical barrier of tall, non-host plants around your cucurbits can be enough to prevent the aphids from getting to the plants while the virus is still active.

Mosaic diseases are caused by a variety of viruses that can infect the majority of your garden plants. Since these diseases are difficult or impossible to treat, recognizing and removing infected plants right away can help prevent the disease from spreading.


Symptoms of mosaic diseases

The classic mottled appearance of infected leaves is only one symptom of mosaic disease. Leaf cupping, blistering, stunting, crinkling, and other distortions are also common symptoms of mosaic disease. Stems may be shortened, creating a bushy appearance to vines. 


Plants infected early in the growing season rarely produce fruit. Interestingly, plants infected later in the season retain their healthy, earlier growth and fruit production, while future growth is distorted. Fruit may also show the same mottling and other distortions seen on leaves. Warty bumps are common.

Common mosaic diseases

While there are dozens (hundreds?) of mosaic diseases, some of the more common varieties include:

• bean common mosaic
• bean mosaic
• bean yellow mosaic
• cucumber mosaic
• fig mosaic
• pea seedborne mosaic
• squash mosaic
• tobacco mosaic
• watermelon mosaic
• zucchini yellow mosaic

Mosaic disease management

Generally speaking, mosaic diseases are not curable. Infected plants should be removed. This means that prevention is a far better course of action. 


Depending on the specific virus, it may be carried in to your garden on seeds or tools, or by aphids, dryberry mites, and any number of other sap-sucking pests. Removing weeds that could provide overwintering sites, creating physical barriers with row covers and walls of non-host plants, and regularly sanitizing your tools goes a long way toward preventing mosaic disease from taking hold in your garden, as does buying clean, disease-resistant seeds and plants from reputable suppliers.


While mosaic diseases make plants look funny, the fruit of infected plants is still safe to eat. The viruses responsible for mosaic diseases are not harmful to people.

Corn stunt does not mean ears of corn will suddenly start doing gymnastics over the fence into your neighbor’s yard. Instead, this bacterial disease will infect the phloem of corn plants, reducing them in size and all but eliminating kernel production.


Corn stunt disease complex

Some people see corn stunt as a single disease, while others see it as one part of a complex of three disease, the other two being maize bushy stunt mycoplasma and maize rayado fino virus (MRFV). Yet others include maize chlorotic dwarf virus in the corn stunt complex. Any combination of these diseases can be devastating to your corn crop.


Corn stunt symptoms

Healthy corn plants produce one or two ears of corn, depending on whether they are early or late maturing varieties, respectively. Plants infected with corn stunt are significantly shorter than normal, often only 5 feet tall, and may produce 6 or 7 ears. That may sound great, but it’s not. These ears are small and they do not fill properly, meaning there ends up being a lot of empty spaces. The kernels that do develop are not well attached, in a condition known as “loose tooth ears”. Infected plants will also exhibit pale yellow new leaves at the top. As these leaves mature, they tend to turn reddish.


How corn stunt spreads

Corn stunt is caused by Spiroplasma kunkeliiI, which is carried by leafhoppers. Corn leafhoppers (Dalbulus maidis), in particular, carry this disease with them, spreading it as they feed.


Corn stunt management

You can prevent corn stunt by using reflective mulches that deter leafhoppers. Planting your corn as early as possible in the growing season has been shown to reduce the impact of corn stunt infections. Apparently, the first generation of emerging bacterium are not as effective at spreading the disease as those that occur later in the season. Insecticides are generally not effective.

​Seed corn maggots mostly feed on decaying organic material, but sometimes they feed on the roots and seeds of over 50 different garden plants. Also known as the bean seed fly, seed corn maggots may be tiny, but they can ruin several of your crops. ​

How to control corn seed maggots

The key to controlling corn seed maggots is in the soil. While I am a proponent of no-dig gardening, repeated appearances of corn seed maggots warrants disturbing the top 2 or 3 inches of soil on a regular basis during the spring and summer months. Research is being conducted on the possibility of beneficial fungi being used to control these pests, but it is not currently an option.


As is nearly always the case, prevention is far easier. You can reduce the odds of seed corn maggots attacking your crops by waiting for the weather to warm up before planting, and spacing plants properly. Anything that slows germination or initial seedling growth makes it easier for seed corn maggots.

Juicy, sweet kernels of corn transform, overnight, into hideous, purple-grey, tumors. And these tumorous galls are delicious! 


Introducing, corn smut.

Now, corn has many pests and diseases: corn earworms, European corn borers, seed-corn maggots, soft rot, seed rot, fusarium root and ear rot, maize dwarf mosaic, pythium stalk rot, and damping-off disease, just to name a few. If you are an American corn farmer, corn smut is not what you want to see in your field. A lot of money and effort have gone into eradicating corn smut in North America. 


Corn smut in your garden is something else entirely.


While this distant cousin of mushrooms reduces crop size and makes ears of corn unmarketable for July picnics and canning purposes, it is edible and delicious. Unlike other corn problems, corn smut is said to taste like truffles, with a sweet, earthy, inky flavor. If it appears in your garden and you don’t want it, your local chef would love to hear from you!


To my way of thinking, if life gives you lemons, make lemonade. Or, if you are given corn smut, make quesadillas! Corn smut can be eaten raw, or added to many dishes, such as omelets, soups, sauces, meat dishes, or even desserts! As an extra bonus, corn smut is high in lysine. This means eating it with corn, or any other seed, provides a complete dietary protein.


Corn smut description
Also known as devil’s corn, common smut, boil smut, Mexican truffles, or huitlacoche [pronounced weet-la-COH-cheh], corn smut is a parasitic fungus that can occur on any aboveground portion of a corn plant as purplish blobs covered with papery greenish-white tissue. These fungi prefer meristem tissue and the galls are mostly seen on the ears of corn. Ear galls are significantly larger than those which form elsewhere on the corn plant.


Corn smut gets its purple color from pigments called anthocyanins. These are the same pigments found in blueberries, raspberries, and purple cauliflower. When you cook with corn smut, don’t be surprised to see the purple color change to black, because it will. Purple pigments generally don’t hold up well to heat.


Corn smut lifecycle
The corn smut fungus (Ustilago maydis) infects plant ovaries, causing kernels to swell up into large purple galls that are filled with fungal threads, called hyphae, and spores. Corn smut spores are already in the soil and can be carried on the slightest breeze or splashed water from rain or irrigation. Dry conditions and temperatures between 78°F and 93°F are all that corn smut needs to get started. Adding nitrogen or applying manure increases the chance of corn smut developing on your corn plants. Plant injuries also increase infection rates.


Corn plants try to defend themselves against corn smut by blasting the invaders with reactive oxygen (hydrogen peroxide). Sadly, from the corn plant’s perspective, this bubbling action simply spreads the smut spores.


If smut appears on your corn, fear not! Instead, harvest the galls while they are young and have the texture of a foamy popcorn, kind of firm and spongy. These moist galls are ready for harvesting 2 or 3 weeks after infection appears. As the galls mature, they turn dry and are mostly filled with unappetizing dry, black fungal spores.


Love it or hate it, corn smut is here to stay, so you may as well learn to cook with it (or sell it).

How to prevent watermelon mosaic

Spread predominantly by aphids and occasionally leaf miners, watermelon mosaic virus can also be carried on garden tools and clothing, so sanitize your tools regularly. The virus is only able to survive inside aphids for a few hours, so creating physical distance between potential carriers of the virus can also reduce infection. Crop rotation and removing infected plants can break this disease triangle.


Weeds, such as lambsquarters, cheeseweed, goosefoot, and Russian thistle, can act as vectors for this disease, so keep them away from your watermelon and other susceptible plants.


Horticultural oil spray can also interrupt transmission of this virus, but may cause problems of its own.


Insecticides are not effective because the disease is transmitted before the chemicals can kill the carrier. You can use reflective mulches under susceptible plants to repel aphids. If you use reflective mulch, be sure to remove it before the summer sun uses it to cook your plants.

Some plants are prized and propagated simply because of their fasciation. I look at it as a nice little surprise from the garden.


Have you seen fasciation in your garden?

To make matters worse, feeding often begins on the lower, inner reaches of the shrub, so you may not even notice the damage right away. Be sure to inspect plants regularly for signs of feeding and look on the underside of leaves for eggs.


How to control currant sawflies

Before you take any drastic measures, you need to know that the larval stages of currant sawflies look a lot like little green caterpillars. The distinction is important because control measures are different for moth and sawfly larvae. Take a closer look. If you have one, grab a hand lens or magnifying glass. If if you see 6 or more pairs of hookless legs, it’s a sawfly. Caterpillars have tiny hooks on their stubby legs and they usually have only 3 pairs of prolegs. 


You can treat moth larvae infestations with Bacillus thuringiensis (Bt). That treatment will not work against sawflies. Commercial growers spray plants with Malathion as soon as currant sawflies appear. Your best choice for controlling currant sawflies is to spray infested plants with insecticidal soap and handpick currantworms as they are seen.

Baking soda (NaHCO3) is sodium bicarbonate. Sodium is salt. Salt is bad for your garden. Period.


Potassium bicarbonate is something else entirely. 


What is potassium bicarbonate?

Also known as potassium hydrogen carbonate or potassium acid carbonate, potassium bicarbonate (KHCO3) is a white, alkaline solid used in fire extinguishers, wine making, to make club soda, and to neutralize acids. As a base, potassium bicarbonate is at the high end of the pH scale. If you have alkaline soil, studies have shown that using potassium bicarbonate does not alter sodium levels in your soil, plants, or runoff water. If your garden plants commonly suffer from fungal diseases, potassium bicarbonate may be exactly what they need.


Organic fungicide

Potassium bicarbonate is an organic fungicide used mostly to prevent fungal diseases, such as Alternaria blight, apple scab, black spot, blights, botrytis, downy mildews, molds, phytophthora, powdery mildew, and Septoria leaf spot. Once these diseases are in place, they are very difficult to get rid of, through potassium bicarbonate can certainly improve the situation.

Unlike sodium bicarbonate, which leaves behind a salt residue, ammonium and potassium bicarbonates contain nitrogen, an important plant nutrient.


Can you make your own potassium bicarbonate spray?

You can, but you shouldn't. As a big proponent of DIY just about everything, I must say that this case is an exception to that rule. While you can certainly find recipes for your own potassium bicarbonate spray online, making it properly is not as simple as advertised. The truth is, it took years of research to determine the proper balance of ingredients that allow the antifungal action to occur, while sticking to plants, but not killing them in the process.


The fine folks at The Garden Professors Blog Facebook Page directed me towards some good information along the same lines. Bottom line: potassium bicarbonate is an effective prevention and treatment of many fungal diseases. It is not something you should be making at home. Instead, read labels and buy a product that will protect and not harm your plants.


If you decide to use potassium bicarbonate in your garden, UC Davis recommends no more than 8 treatments a year.

Yellow spots on leaves may indicate Septoria leaf spot.

This fungal disease is very destructive and it affects celery, chicory, cucumber, and other cucurbits, along with asters, carnations, chrysanthemums, verbena, and various trees and shrubs. Septoria leaf spot is one of the most destructive tomato diseases I know.


Like other leaf spot diseases, Septoria reduces photosynthesis and the flow of important nutrients through the vascular bundles, leaving plants to wither and die. 


Warm, wet weather is all this fungi needs to set up housekeeping in your garden. And remember, that wetness can be caused by poorly placed sprinklers, leaky hoses, and overhead watering, just as easily as the weather. Temperatures between 60°F and 80°F are ideal for fungal growth. Knowing what to look for can help you protect your plants.

Insecticides can be used against sawflies, but sawfly larvae are a popular food for many native birds, including partridges, black grouse, corn buntings, and chestnut-backed chickadees. Shrews, lizards and frogs also enjoy snacking on these pests, along with several predatory wasps, including ichneumon and braconid wasps. 


You can attract these garden helpers by providing fresh water, growing a variety of insectary plants and plants that provide pollen and nectar, and avoiding the use of broad spectrum pesticides and herbicides.

Blue-green sharpshooter description

Unlike glassy-winged sharpshooters, which average 1/2” in length, blue-green sharpshooters are much smaller and easy to miss. As far as pests go, the blue-green sharpshooter is quite colorful. From a distance, it simply looks like a wedge-shaped green insect. If you look closely, with a hand lens, you suddenly see striking bright blue to green wings, thorax, and head, with a yellow abdomen and legs. There are sometimes red, yellow, or green markings. You may also be able to see red drops of sap attached to their legs.


Blue-green sharpshooter lifecycle

Until recently, only one generation of blue-green sharpshooter appeared each year. Rising temperatures and stressed predator insects are making multiple generations possible. Most sharpshooters overwinter near creeks, becoming active in spring. Eggs are laid just after budbreak. As surrounding vegetation begins to dry up, concentrations of sharpshooters in gardens, vineyards, and orchards increases. Sharpshooters go through complete metamorphosis, frequently leaving pale discarded exoskeletons behind on the underside of leaves. Nymphs and adults feed on nutrient-rich sap throughout the summer, moving back into nearby weeds and vegetation at the end of summer. ​

Blue-green sharpshooters use vocalization to communicate and to find a mate. Males have 3 distinct calls: a complex mating call, a gulping call, and a chirping call. Females have a call they use to respond to males’ mating calls. The pair sings a type of duet before mating, which is all very nice, but they still spread disease. Because there is no cure for Pierce’s disease, interrupting the disease cycle is the only way to prevent plant loss.


Controlling blue-green sharpshooters

The first step to controlling blue-green sharpshooters is to make sure they are present. This is done with yellow sticky sheets. Sharpshooters are most commonly found in locations with abundant soil moisture and some shade. Unshaded, dry areas and areas of deep shade are less likely habitats for sharpshooters.


You can reduce the chance of infection of Pierce’s disease with these tips:

• plant resistant varieties
• eliminate nearby weeds, especially perennial mugwort, wild grape, and stinging nettle
• remove infected plants and dispose of them in the trash
• only use as much nitrogen as is needed; excessive nitrogen promotes tender new growth which is more vulnerable to sharpshooter feeding
• attract birds, spiders, and beneficial insects, such as praying mantis and soldier beetles, by providing fresh water, installing insectary plants, and avoiding broad-spectrum pesticides. 

Famers have found that installing bluebird boxes goes a long way toward reducing blue-green sharpshooter populations. Insecticides aimed at sharpshooters are only marginally effective, while insecticidal soap and horticultural oil provide some control.

It is believed that people started cultivating figs some 11,000 years ago and that full-fledged farming of cereal grains started some 8,000 years ago. Many historians attribute modern society to the wealth created by agriculture and farming cereal grains in particular.


We get the word cereal from the Ceres, the Roman goddess of agriculture and the harvest. ​

Growing cereal grains is a great way to provide for your chickens and local wildlife, increasing biodiversity, and it looks pretty neat, too. If you grow enough of it, you can even make your own bread or pasta!

The rye plant

Similar to wheat, there are winter ryes and spring ryes. Spring ryes are usually used as wind breaks and nurse crops that are cut down before seed heads develop. Winter rye is grown for everything else.


Rye is a rugged plant. It can tolerate drought, flooding, and freezing temperatures. In fact, rye has a surprisingly high tolerance for frost. Winter varieties of rye even contain their own version of antifreeze! Rye plants quickly reach 3 to 6 feet in height, making it an exciting winter crop along fences. Allowed to go through its entire lifecycle, this annual will produce flowers in April and May, with seed heads maturing in May and June, in California. Stalks, or stover, are very fibrous and they break down slowly.


Rye pests and diseases

Rye has very few pests and those it has cause little or no damage. Pests of rye include cereal bugs, cereal chafers, dart moth larvae, fruit flies, gout flies, Hessian flies, leaf beetles, nematodes, and rustic shoulder knot larvae. Rye plants also harbor bird cherry-oat aphids.


The more intriguing side of rye includes is high susceptibility to ergot, a fungal disease. Apparently, eating rye infected with ergot causes hallucinations, convulsions, and witch trials, due to the LSD-like chemicals produced as waste products by the fungi. The infamous Salem Witch Trials are believed to be the result of hungry communities eating rye infected with ergot. Not exactly a recreational drug, ergotism also causes miscarriages and the loss of fingers and toes, and it can kill you. Luckily, ergot isn’t the problem it used to be.


How to grow rye

Unlike other cereal grains, rye is very particular about seed planting depth. Plant it more than 2” deep and the seed will die. You can drill holes in the ground for rye seeds or you can broadcast the seed over an area and rake it in. Keep the area moist, but not soggy, until germination occurs and then you can pretty much leave rye to its own devices.


When seed heads mature, they turn a golden brown and dry on the stalks. You can leave the plants where they are and allow the seeds to feed local birds and other wildlife and reseed the area, or you can cut the stalks and hang them to dry more completely before threshing and winnowing the grain. 


Threshing means beating the snot out of the seed heads to break them loose. Winnowing means throwing everything up in the air in a windy (or fan-blown) place to get rid of the non-seed parts, or chaff. This is a very labor-intensive process, but seeing a bowl of rye (or wheat) berries harvested by your hand is a very satisfying experience.


If you grow rye for no other reason, lady bugs love it!

What is urea?

Our bodies use urea to excrete nitrogen in our urine. Urea is colorless, odorless, soluble in water, and non-toxic. Urea and urine both contain a lot of nitrogen, and all plants need nitrogen to grow and thrive. Nitrogen is the fundamental building block for chlorophyll and plant enzymes and proteins, including a plant’s DNA. Without nitrogen, photosynthesis cannot occur.


Over 90% of the world’s manufactured urea is used in agriculture as the most concentrated, affordable nitrogen source available to plants. Pure urea has an NPK value of 46-0-0. For comparison, ammonium sulphate has an NPK of 21-0-0, followed by blood meal at 13-1-1. On average, human urine has as NPK value of 18-2-5. This means urine contains 18% nitrogen (N), 2% phosphorus (P), and 5% potassium (K). The potassium and phosphorus found in urine, human or otherwise, are in forms that are quickly absorbed by plants.


Keep in mind that nitrogen, in all its forms, is highly mobile and easily leached into ground water. This causes out of control algae blooms and water pollution. Regardless of where you get your nitrogen, don’t add more than is needed. [Get a soil test before adding anything!]


How urea feeds plants

When urea comes into contact with the soil, specific bacteria convert it into ammonia (NH3), ammonium ions (NH4+), and bicarbonate ions (HCO3−). Other bacteria use the Calvin Cycle to oxidize the ammonia, converting it into nitrites, in a process called nitrification. This makes the ammonium and nitrites readily available to plants. It also acidifies the soil slightly.


Research published in the 2007 American Chemical Society [J. Agric. Food Chem.200755218657-8663] reported that cabbage grown with human urine as a fertilizer grew larger than those fertilized with industrial fertilizer. Those same plants showed less insect damage that their commercially fed counterparts, though unfertilized cabbages showed the least amount of insect damage. The same study demonstrated that urine performed equally well as commercial fertilizers on cucumber and barley crops, without increasing the risk of disease. In each case, there was no noticeable change in the flavor of the food being grown. [So much for those lemons! ] 


In a similar study, published by Cambridge University Press, larger harvests of amaranth were noted on the crops fed with urine. Other studies have found similar results with beets and tomatoes. In fact, beets grown with urine tend to be 10% larger than those grown with commercial fertilizer.


Top dressing your garden with urea or urine just before it rains or irrigating can add a lot of nitrogen to the soil. If you buy a bag of urea, be sure to keep it tightly closed. Nitrogen evaporates rapidly into the atmosphere and urea absorbs water from the air very quickly. Also, you should know that urea can contain biuret, an impurity that can be phytotoxic, or poisonous to plants.


Did you know that the average adult in the Western world pees enough in a year to fill three bathtubs? That’s a lot of plant food!


But there’s a catch.


Too much fo a good thing can be a bad thing

There is so much nitrogen in urea and urine that it can prevent seeds from germinating and burn seedlings, roots, leaves, and your lawn. This is especially true if a plant’s moisture content is low. Urine also contains salt, which can dehydrate or kill plants. You know those dead spots in the lawn where Fido relieved himself? That damage is nitrogen and salt burn.

If you want to use urine to water and feed your garden, it is a good idea to dilute it first. The recommended dilution is one part urine to 2-8 parts water, depending on who you ask. This nutrient rich mix can then be dispersed using a watering can. If you are taking prescription or recreational drugs, you may want to discuss transference with your doctor or local pharmacist first. Chemicals in our water and food supplies is real.


Otherwise, go unzip yourself at the more mature plants in your backyard, such as that lemon tree, or you can contribute some nitrogen and moisture to the compost pile and conserve some tap water.