Field bindweed, also called perennial morning glory, has the scientific name of Convolvulus arvensis and is widely considered to be one of the most invasive and destructive weeds in cropland and gardens. It was first found in Virginia as early as 1739 and is thought to have originally brought to Kansas and the Midwest from the lower Volga region in Russia, hitching a ride in the oats and wheat brought by immigrants starting new lives. It and its close cousin hedge bindweed (Convolvulus sepium) are both perennials, reproducing from both seeds and shallow creeping roots which make control and eradication much more difficult than if it was an annual.
Bindweed has been so pervasive that in 1937 Kansas wrote official legislation outlawing field bindweed – among a number of other persistent weeds – requiring farmers to use every effort to remove them from their fields and state agencies to do the same with public lands. Several Midwestern states followed suit and adopted this legal approach, approving and vigorously promoting an “eradication through poisoning” approach. As you might assume, all of these laws and efforts were unsuccessful. Perhaps the legislators forgot, if they ever knew, that Mother Nature rarely obeys mankind’s laws.
Bindweed competes very aggressively with adjacent crop plants for water, nutrients, and light, reducing crop yield and quality as well as interfering with harvesting by intertwining with crop plants and clogging up farm equipment – thus giving its name of “bind-weed”. In farming, bindweed infestations can reduce grain crop yields by 20 – 50% and row or vegetable crops by 50 – 80%, with similar reductions in the home garden. This is not a weed to be taken lightly!
Identification and Growth
Bindweed Wrapped Around Morning Glory
It is pretty easy to identify field bindweed and its several cousins. If you’ve ever grown morning glory, then you are already familiar with what bindweed looks like because they are in the same family – Morning Glory. Bindweed has narrower leaves and smaller flowers than Morning Glory, as can be seen in the photo of bindweed vine wrapped around morning glory, and the photo at the top of the article. It is a low growing, drought tolerant with medium green narrow arrowhead-shaped leaves on vigorous vining slender stems. The flowers are funnel-shaped with colors from white to pink. The flowers produce small round capsules with 1 – 4 seeds in each, which can survive in the soil for up to 50 years due to their exceptionally hard and durable seed coats. There is a long central taproot on each plant that can drill down as far as 20 feet or more for moisture that develops numerous lateral roots, mostly in the top 2 feet of soil. Field bindweed reproduces from seed and from buds that form along the lateral roots, sending shoots up to the surface which then become entirely new independent plants. Lateral roots can spread about 10 feet per season, sending up new shoots along the way.
Invading Bindweed
The most common identification is when a gardener realizes there is a mat of green vines that are taking over a section of the garden or yard, or is climbing up the trellis or wall in the case of hedge bindweed. Early in the morning there will be hundreds of small, pretty flowers opened up that will attract a person’s attention.
Early warm weather wakes bindweed up and it grows until the frost or cold stops it in the fall. Extreme heat, drought, and cold will slow down or kill off the top growth, but the underground roots and shoots will go dormant, waiting for enough moisture or better weather to re-emerge. The root systems can spread up to 10 feet per growing season, or by the lateral roots and buds being broken up and re-distributed by tilling. Seed is often spread from irrigation water runoff, birds eating the seeds and depositing them elsewhere, on the feet of gardeners, dogs, and other animals and on the wheels of wheelbarrows, tillers or other machinery and vehicles.
Control Methods
When researching how to control bindweed, the most commonly recommended method is to spray it with a persistent herbicide like glyphosate (Roundup) or worse, but then turn around and caution that care must be used around vegetable or other food crops.
Please understand, we very strongly do not recommendthis approach, as is often creates more problems than it solves.
The second most common prevention recommendation is to make sure to avoid bringing in soil, seed, hay or animal feed that has the seeds, buds or pieces of the lateral roots in them. This is somewhat obvious, but too many times the first sign of having a problem is when the little flowers have bloomed and it is way too late for prevention.
The folly of using persistent, petrochemical herbicides to control most weeds – but especially bindweed – is apparent when looking at the multiple mechanisms it uses for reproduction – seeds, buds, lateral roots and the shoots they send up, as well as the vast amount of seeds that can stay dormant for several decades, just waiting for the right soil conditions. Sure, spraying will knock the above ground growth back, but the next season it will be back from all of the different angles it uses to survive, so more spraying is needed. Meanwhile, the spray is also knocking back the exact plants you want to grow and it isn’t beginning to touch the seed or root reservoirs in the soil!
Another common but misguided approach is to use a mixture of vinegar, Epsom salts, and dish detergent. This doesn’t work any better and may wind up killing more plants that just the weeds. Vinegar – whether household strength or the much stronger agricultural vinegar – is an acid and affects the above ground green growth. It will kill that off, but not touch the underground roots, seeds or shoots. It also changes the pH of the soil, potentially creating conditions for worse weeds to come in. Epsom salts are magnesium sulfate, supplying elemental magnesium for the soil microbes to work with and sulfur, which again lowers pH and is a nutrient building block. Dish detergent is a “spreader/sticker” which coats and covers the surface of the leaves, suffocating them. Unfortunately, it can also suffocate beneficial insects, earthworms and the leaves of nearby plants you want to keep.
It is initially easier and much simpler to just spray the weeds, but that quickly becomes a slippery slope as the weeds you are trying to control grow more abundant and you start to notice other invasive weeds appearing that weren’t there to begin with. If you want to get ahead of the weeds, you must understand how they grow, spread, reproduce and the soil conditions that allow them to flourish.
Compare spraying increasing amounts of herbicides multiple times each season to an initial learning curve, some soil improvements and watching as the unwanted weeds start to retreat year after year, while your garden or farm grows stronger, healthier and produces more food that tastes better. Which road do you want to go down?
In looking at methods of controlling bindweed, we need to step back just a bit to understand more of why this, or any other, weed establishes itself in the first place. Contrary to much of the commonly spread information today, weeds don’t just “happen”; they are in a certain place for a very specific reason – the conditions are “just right” for them to grow there.
Weeds are an indication of what is going on with the soil and its fertility, both right and wrong. They show the progression of the soil, whether thefertility and biological diversity and health are improving; or if it is in decline. Very much as a pond will go through several generations of different species of plants until it is filled in and becomes a meadow; or a grass pasture will gradually fill in with a progression of woody shrubs and eventually trees, weeds will have a progression of species that tell the story of improving or failing health of the soil where they grow.
This information is by no means new, untested or untried. It has simply been swept aside in the race toward industrial agriculture shortly after World War II using leftover nitrogen and phosphorus stockpiles from explosives manufacture. This chemical race also happened to home gardening, unfortunately. Dr. Carey Reams and Dr. William Albrecht were some of the last and greatest researchers into the relationship between healthy soils, healthy plants, and healthy people, which naturally extends to the study of weeds in relation to soil conditions. Much of their work is more than 50 years old at this point and is only becoming more proven as more research and testing is done in soil health. One of the best books that we always recommend to anyone wanting to start gaining a better understanding of how and why weeds work is Weeds – Control Without Poisons by Charles Walters, the founder of Acres USA magazine.
The appearance of weeds doesn’t always mean bad things are going on in the soil. For instance, moderate lambsquarter and pigweed are an indication of good soil structure and fertility is good, crops will thrive and insects will generally stay away. They can be managed with light tilling of the top two inches of the soil within one to two days after the weeds have sprouted.
Two Adjacent Raised Garden Beds
What bindweed says about the soil conditions when it appears is that the soil is out of balance, with pH issues and stuck or incomplete decomposition of organic material accompanied by excess heavy soil metals such as magnesium and potassium. There is usually an accumulation of dry and dead plant matter that can’t finish decomposing, creating the right conditions for bindweed to flourish. Most often, the soil is low in humus materials with low available calcium and phosphorus. pH can be either excessively low or high and the soil structure can be clay or sandy.
This is easily seen in the photo above. The near bed was treated with compost and a top dressing of wood chips last fall, while the bed in the background had flowers in it, was not cleaned out for the past couple of years and had little to no compost amended to it. The near bed has a few shoots appearing, but the background bed is over-run and won’t be able to be planted this year.
Bindweed Sneaking In
There are two different, proven methods of stopping and controlling bindweed without using herbicides.
The first method is using weed cloth to block any sunlight from reaching the bindweed plants, much like my article Stopping Bermuda Grass in the Garden.
This method can work if you take care to overlap the shade cloth, avoiding any gaps where the roots will come through. It normally takes about 4 – 5 years to make the roots go dormant, lose their stored energy and then finally rot.
The challenge in trying to shade bindweed out can be seen above, where the bindweed is sneaking in where there is a gap between the weed barrier cloth and the metal raised bed – possibly less than a 1/4 of an inch!
Bindweed Lateral Roots
When the weed barrier is pulled back, it is easy to see the lateral roots running along the bed to where the gap allowed them to put a shoot up and survive.
Bindweed Long Lateral Roots
Moving around to the long side of the raised bed – about in the middle of a 15-foot long bed – we found another shoot poking its head up and pulled the weed barrier fabric back.
This is what we found – a series of lateral roots that had followed the joint of weed barrier fabric and raised bed, poking shoots up wherever it could. These lateral roots went to the shoot in the above two photos.
Handfull of Lateral Roots
Here is what over 10 feet of lateral bindweed roots look like. What we’ve discovered is that when we installed a heavy and fairly non-porous weed barrier fabric several years ago and then put several inches of wood chips on top is that we were creating the perfect environment for bindweed to encroach underneath the weed fabric and pop up in our raised beds.
For most of our beds, this isn’t a serious issue as they are rich and well composted with a fertile and biologically active soil which seriously deters the growth mechanisms of bindweed, so we just see them popping up just inside the raised beds and nowhere else.
The second method involves improving the soil by adding missing or low nutrients, adjusting pH and adding well aged, rich compost to jump-start the decomposition process again.
This short-circuits the growth pattern of bindweed and will soon start to rot the roots and shoots. A complete soil analysis from a professional soil lab is the correct way to determine what nutrients are needed and how to adjust the pH of your soil. There are a number of very good ones, but the two that we know and are familiar with are Crop Services International and Texas Plant and Soil Lab. Either one is excellent and will help you determine what nutrients are needed and in what amounts.
Successfully controlling bindweed depends on several factors that are unique to each garden or farm. Your soil’s pH, mineral levels, clay or sandy based soil and whether you have wet or dry organic matter that is stuck in its decomposition will all determine what nutrients and approach to use. The complete soil analysis from a professional soil lab will provide you the information needed to make the plan to begin reversing the encroachment.
Bear in mind that no single weed species grows independently of all others, they will grow in groups and communities; much like companion plantings of flowers, veggies and herbs do. As you begin to learn more about what different weed species prefer and the conditions that they need for growth, you’ll start to see that groupings of particular weeds mean very specific things related to soil health and fertility. They will indicate exactly what is right or wrong with the soil and what is in excess or lacking. Then you can make the corrections and watch them leave, followed by others that are much less difficult to deal with and indicate a much more fertile soil.
This may seem a bit overwhelming at first, but when you take a step back and realize how much you’ve learned about gardening or farming since you first began, even if it’s only a short time – then you can see how much this knowledge will benefit both your soil and you with fewer weeds, pests and more abundant, healthier plants and veggies, herbs and flowers.
https://underwoodgardens.com/wp-content/uploads/2015/09/DSC_0161.jpg635750Stephen Scotthttps://underwoodgardens.com/wp-content/uploads/2019/06/Survey-Header.jpgStephen Scott2015-06-04 15:11:232024-04-30 17:34:00Controlling Bindweed in the Garden
Bermuda grass: love it or hate it – most people fall into one of the two camps; there doesn’t seem to be much in-between. Personally, I think it’s a well-adapted grass for our harsh, dry Western climates. It loves heat, is remarkably wear resistant to foot traffic and is one of the most drought tolerant turf grasses around. It’s great for areas that need turf, for erosion control and for feeding to horses, but it’s an invasive alien weed in the garden. That’s where we have a problem.
We’ve dealt with a slow Bermuda grass invasion over the past few years as it spread from the walkway between our greenhouse and garden into the garden itself. At first it wasn’t such a pain because it colonized the wood chipped walkways and area where the picnic table is. Then it headed toward our smaller raised beds, completely taking over one and entangling the drip system where it entered the raised beds in 3 others.
Bermuda Grass Stolons
We’ve tried a number of approaches to curbing it’s enthusiasm – burning the above ground grass and runners (properly known as stolons) both during and after the growing season, spraying a strong vinegar solution to the green grass phase and digging up the clumps and removing them. Nothing has really worked very well or for very long. Burning is highly satisfying, but did nothing about the rhizomes underground or the seed bank in the soil. After a season of targeted burning, the grass came back just as thick and lush the next spring. The vinegar sprays punched the Bermuda grass in the nose for a while, killing off or wilting the above ground growth but the rhizomes just sprouted up within a few weeks several inches away from where it was sprayed.
Bermuda Grass Seed Head
Persistent petrochemical herbicides such as Roundup are out of the question for a few reasons. One, we are working in our food producing garden and fully realize that whatever is put into the ground will wind up in the vegetables that are eaten. Two, we are a company that works hard to educate about the overuse and over-dependence on what has been called “rescue chemistry”, so it’s just a non-starter.
So what can be done? As is usual with us, we realized that understanding more about this grass than just how to kill it would probably lead us to answers of how to work with it better. After all, as gardeners we are forever working to get the plants we want to grow in a certain area, all the while trying to discourage other plants that we don’t want in the same areas!
It turns out that Bermuda grass isn’t originally from Bermuda; it’s from Africa and was introduced around the mid-1750s. It is thought to have hitched a ride in hay and introduced into the southern states initially. It spread from there and today it is most commonly found in the southern and southwestern United States. Bermuda grass was used almost exclusively as forage for animals for over a hundred years, sometimes becoming a lawn grass by default in places where other grasses could not survive the hot summers well. It wasn’t until the early 1900s that it became recognized as a valuable golf turf grass, starting a second life. Several resources list it growing below 3,000 feet in elevation; our garden in central Arizona is right around 5,000 feet so that doesn’t seem quite correct.
Bermuda Grass Rhizomes
Bermuda grass is sometimes confused with crab grass. Bermuda grass has a deeper root system and crab grass has no stolons or rhizomes to deal with.
In undisturbed soil, Bermuda grass will only drive its roots about 6 inches deep. However, they can go significantly deeper in sandy soil, deeply tilled fields or garden beds, or where the roots meet a solid barrier such as a sidewalk, concrete foundation or walls. This is why driving a solid edging into the soil deeper than about 8 inches has been shown to be effective in stopping the spread of a patch into a garden or surrounding area.
Unfortunately, controlling Bermuda grass with nutrient management or pH management just doesn’t work very well; unlike morning glory or bindweed or a number of other weed species.
The two approaches that have proven to work are drying/desiccating the top 6 inches of the soil to get both the above ground stolons and the underground rhizomes and roots, and excluding light. The one real weakness of Bermuda grass is that it simply won’t grow in the absence of light. Then again, most plants don’t!
There are some folks that have had success with digging or scraping the top layer of soil away, then replacing it with rich topsoil and compost that you are sure has no Bermuda grass seed, stolons or rhizomes. For every success story using this approach, we’ve heard of a dozen others that have seen a re-infestation after some period of time.
The problem with our garden situation is that we don’t have ready access to high quality topsoil that has no Bermuda grass in it. This is part of how we wound up with our current experiment – we brought in topsoil from a neighbor’s property to help fill in and got an unexpected bonus.
Using a thick clear sheet of plastic on top of the ground and excluding any moisture during the growing season has shown to work well, if the area can be isolated with no roots or stolons escaping the area being treated. This approach works especially well if you live in a sunny and warm to hot area during the summer, as a cool and damp summer will do little to stop the grass from growing. If there is escapement, the roots or stolons simply bring in moisture and nutrients and the grass suffers but does not die. Because of the grass intrusion into the garden and under the fence, we can’t use this option.
That leaves us with the shade option, so we are going to do it right. The first step is to take the wood chips out and scrape what we can down to the soil, removing what clumps of grass are possible. We burned the remaining grass, in order to reduce its energy reserves.
Double Layer of Cardboard
Then we installed a double layer of cardboard for two reasons – it helps to shade the ground and will decompose over time, increasing the chances of rotting the remaining Bermuda grass.
Weed Barrier Cloth
Over that we installed a thick and very dense weed barrier cloth from A.M. Leonard, a horticultural tool and supply company. You don’t need to be a business to order from them and their products are commercial quality. It is 20 mils thick, has a 98.7% opaqueness to light, won’t rot or mildew, will allow water to pass through and has a 5 year warranty, so should last for plenty of time for the Bermuda grass to rot. This photo is with the full, bright afternoon sun behind the cloth, to show just how much light is stopped. I actually had to lighten the photo up a bit!
Aurora Helping
Installation was easy – we simply rolled it out with our resident Dalmatian expert – Aurora – supervising…
Cindy Trimming Weed Cloth
…then trimmed it to length with scissors.
Spreading Wood Chips
To finish things off we put 4 – 5 inches of wood chips on top of the weed barrier to further shade everything and discourage any other weeds from making their homes in the wood chips. With this approach, there should be no way that light will get to the grass or soil and as the cardboard rots it will start a layer of decomposition that will include the remaining grass seeds, stolons, rhizomes and roots. This very well might take a year or more with our moisture levels, but that is why we went to the lengths we did to ensure that light can’t get down to the grass and short circuit our project.
Weed Barrier Installation Finished
Here is the completed view, with the double layer of cardboard, weed barrier cloth and thick layer of wood chips installed.
We will post updates as they happen to this project. In the meantime, we would love to hear of your success or challenges with dealing with Bermuda grass in your own garden!
https://underwoodgardens.com/wp-content/uploads/2015/05/DSC_0177.jpg500750Stephen Scotthttps://underwoodgardens.com/wp-content/uploads/2019/06/Survey-Header.jpgStephen Scott2015-05-28 15:07:152024-04-30 17:34:00Stopping Bermuda Grass in the Garden
Heirloom corn is gaining in popularity as more people taste the vast differences and depths in flavors compared to commercially grown hybrid sweet corn. Comments like “It tastes more like corn than any store-bought corn I’ve ever had” and “The flavor lasts much longer and is much stronger than what I’m used to,” are common when people first taste roasted heirloom corn.
What many don’t realize is there is much more to discover in heirloom corn than just the sweet, fresh eating varieties. After all, corn has been the foundation of nutrition in Mexico and Central America, as well a surprising amount of North America.
William Woys Weaver does a marvelous job of introducing and explaining the different types of heirloom corn in his extensive book Heirloom Vegetable Gardening, the result of over 30 years of growing, tasting and cooking with heirloom vegetables.
The Indians appear to have categorized their corns by intended use: for flour, for hominy and porridge, for popping, and so forth. Each corn had its adjunct ceremonies and festive recipes. We have inherited some of these corns from native peoples, and we have selectively borrowed some of their dialect names (such as flint) for types of corn, but we use them in much different ways. The profundity of the changes that occurred as the cultivation of corn shifted from the Indian to the white man is acutely evident in Porter A. Browne’s Essay on Indian Corn (1837), which cataloged thirty-five of the most commonly raised varieties at the time. Very few were pure Indian sorts, and only a couple are known today; the rest are probably extinct.
Browne organized his corns by color. Among the yellows he listed King Phillip Corn, which is still available. Under white corn, he mentioned Smith’s Early White and Mandan, in this case a sweet corn, not the Mandan corn familiar to seed savers today. His list of red corns was the largest, including Guinea Corn, William Cobbett’s Corn, Dutton Flint, and a curious Mexican corn “found in a mummy.” Perhaps the Mexican corn released in the 1860s by Massachusetts seedsman James J. H. Gregory attempted by virtue of its provocative name to cash in on a similar implied ancient authenticity, like the Anasazi bean of today.
Horticulturists divide corn differently than did either the Indians or the early corn specialists like Browne. All of the cultivated varieties belong to the same species and therefore readily cross with one another. In fact, corn is one of the easiest of all garden vegetables to cross, since it relies on windblown pollen for fertilization, and even the slightest puff of air can carry pollen a great distance. This promiscuity results in many varieties that fall between the five or six recognized types generally accepted by horticulturists. Of the garden varieties, these include popcorn (var. praecox), dent corn (var. indentata), flint corn (var. indurate), soft (flour) corn, and sweet corn (var. rugosa). If this discussion is shifted to Mexico, everything is turned topsy-turvy by the huge number of corns that evolved there. Their complicated pedigrees were analyzed in Paul Mangelsdorf’s Corn (1974), one of the breakthrough studies on the origins of this plant.
Popcorn is one of the oldest and hardiest of all the types and can be grown where many other corns do not thrive. It can be planted earlier in the spring than other varieties, but of course it will cross easily with any type of corn planted near it. Since popcorn pops best when the kernels are over a year old, this is a corn that must be allowed to ripen on the stalk, then properly dried indoors before storing in containers free of insects and moisture. Freezing it immediately before it is popped will increase the rate of popping. I have included two old varieties in my selection that not only pop beautifully but have a flavor not found in modern commercial varieties.
Dent corns are characterized by a dent or crease in the kernel, hence the Indian name “she-corn.” This type of corn is starchy and is generally used for roasting, corn bread, and hominy. It is a type best acclimated to the South and Southwest, where it seems to have developed the greatest number of varieties. Flint corns are the northern counterpart to this type. The kernels contain a high percentage of opaline, a mineral that gives the corn it’s gritty or “flinty” texture when ground. Flint corns are normally used for grits and hominy, as are many field corns.
Flour corns or soft corns are characterized by a kernel that is mostly starch when ripe, and therefore lends itself to grinding for flour. All North American Indians involved in agriculture maintained flour corns of one kind or another. Even though they are believed to have had a tropical origin, corns with this genetic feature were among the first to be dispersed by the Indians to all parts of our continent. The Tuscarora corn on my list is one of the classic Eastern corns of this type.
The Indians of North America distinguished between two types of sweet corn, the “green” or unripe corn of most corn types when they are in the so-called “milky” stage, and a corn with heavily wrinkled kernels that is naturally sweet by genotype. The sweet corn of white culture is this latter type. Historically, true sweet corn was a latecomer, reaching what is now the United States in the 1300s. It originated in Peru, where it is still used to make chicha, a fermented drink made in pre-Columbian times. Sweet corn derives its sweetness from a recessive gene, a mutation that has made it defective in converting sugar to starch. This characteristic was utilized by Native Americans for storing slow-ripening late-season varieties as “fresh” corn during part of the winter or for caramelizing the corn while in the husk over hot coals. This slow drying process resulted in a sweet-tasting dry corn that could be eaten as a snack or used in stews and vegetable mixtures.
According to anthropologist Helen Rountree (1990, 52), the Powhatans of Virginia made a corn-and-bean dish called pausarowmena that served as a staple dish during the winter. In the late summer, “green” corn or a variety of sweet corn was harvested and roasted in the husk over hot coals until dry and slightly caramelized, very much in taste and texture like the present-day dry sweet corn of the Pennsylvania Dutch. This dry sweet corn was stored in middens and reconstituted as needed with water. It was stewed with two types of beans, a large pole variety and a small bush bean. This combination of dried sweet corn and two distinct types of beans constituted the real “succotash” of the Powhatans and related peoples in the Middle Atlantic region.
Planting Corn
All open-pollinated heirloom corn must be planted differently from hybrids. For best results, plant the seed in blocks or squares 5 to 6 rows wide. John Brown, a farmer who lived on Lake Winnepesaukee in New Hampshire and who developed the variety known as King Philip Corn, noted in The Report of the Commissioner of Patents (1856, 175–76) that farmers in his region were still planting corn “the old way” in rows 4 feet apart in hills 3 feet from one another, four to six plants per hill. This method works well for heirloom varieties and will ensure good pollination with room between the hills for squash. Pole beans may be planted among the clumps of corn and allowed to climb up the stalks.
Among the Indians in the East, corn seed was generally treated in an herbal tea before it was planted. F. W. Waugh described some of these decoctions in Iroquois Foods and Food Preparation (1916, 18–20). After soaking in the tea, the corn was left wet in a basket so that it would sprout a little before planting. This treatment was thought to protect the corn, and may in fact have produced an odor to camouflage it from birds and insects. It had the additional benefit of separating viable seed from weak ones and avoiding seed that might otherwise rot in the ground.
From this, we hope you’ve gained a deeper appreciation for the extensive uses and different types of heirloom corn and are inspired to give one or two different types a try this season! Visit our online store to see some storied varieties of corn.
Pickled jalapeños and garlic have been favorites of ours for a couple of decades. Long enough that we don’t remember exactly when we first started liking them, or where we came across them, but we just know we’ve enjoyed making them for a really long time! Our original recipe was on a well-worn scrap of newspaper clipping and made a lightly sweet Polish brine with garlic and we added the jalapeños after trying the plain garlic.
The Joy of Pickling recently made its way into our lives and we discovered this variation on the theme – using honey instead of sugar for the sweetness and adding an unusual spice mixture to kick things up a notch. We think this is fabulous!
If you are not a pickled garlic lover; or a pickled jalapeño aficionado this might take a little getting used to, but trust us it is delicious and well worth trying. The vast majority of people that we’ve sampled this to have loved it, even if they aren’t all that into chunks of garlic and hot peppers. The pickling mellows the heat and punch from the garlic and jalapeños, while the light sweetness brings some nice counter balance to the boldness. The spices bring traditional pickle background flavors into the mix, leaving most with a look of intrigue on their faces after tasting them.
We love these served on a multi-grain cracker, a whole clove and jalapeño ring side by side. Sometimes a thin slice of aged Irish cheddar cheese mixes things up.
Here’s what could come out of your garden for this recipe – Jalapeños, Coriander and Garlic!
This lightly sweet-spicy pickle recipe will have you wanting to grow more jalapeños next year!
Ingredients
Whole black peppercorns
3lbsfresh garlic cloves
5lbsfresh jalapeñoscut into rings and de-seeded - red, green or a mix of colors
3quartscider vinegar
1/2cuphoney
2tbspickling salt - kosher salt works well
1/2cupMixed Pickling Spices
For the Pickling Spices
1four inch cinnamon stickbroken into small pieces
4whole bay leavestorn into small pieces
1tbswhole yellow mustard seeds
1tbswhole allspice berries
2tspwhole cloves
2tspwhole coriander seeds
Instructions
Add 1/4 tsp whole black peppercorns to each pint jar.
Add 1/2 to 3/4 cup garlic cloves to each jar, depending on how much garlic you want.
Add enough water to water bath canning pot to submerse the pint jars and heat to a boil.
Add the vinegar, honey and salt to a non-reactive saucepan or pot (stainless works well) and bring to a boil.
Tie the Mixed Pickling Spices into a spice bag or square of cheesecloth. Add to the pot with the vinegar, honey and salt to steep.
Once the pickling solution and spices are at a boil, add the jalapeño rings and bring to a simmer. Reduce heat to keep at a simmer for 2 minutes.
Remove spice bag and divide jalapeño rings evenly among pint jars.
Add hot pickling solution to each jar, leaving about 1/2 inch headspace. Close jars with two piece canning rings and new lids.
Process the jars in the boiling hot water bath for 10 minutes, making sure there is space between each jar for hot water to circulate.
After 10 minutes, remove and allow to cool down, listening for the "pop" of the canning lids sealing. Double check once cool to make sure all the lids sealed.
Store the jars in a cool, dry and preferably dark place for 3 weeks for the pickling process to finish. After opening jars, store in refrigerator and use within 2 weeks of opening.
Recipe Notes
Once people taste these, they will go fast so don't hesitate to make a large batch!
Honey Pickled Jalapenos with Garlic
We start with fresh jalapeños and garlic cloves. If you don’t know how to peel lots of garlic very quickly and easily – just watch our short video “Peel Garlic in 10 Seconds“ and you’ll be set!
Honey Pickled Jalapenos Spices
Next is to mix up the Mixed Pickling Spices for some great background flavors to round things out.
Pickling Spices in Bag
The whole spices are enclosed in a spice bag…
Spices in pickling solution
…and added to the pickling solution that is heating up to a boil.
Adding jalapeños to hot brine
Once the solution is at a boil, the jalapeños are added…
Simmering jalapeños
…and brought back to a simmer for a couple of minutes.
Adding jalapeños to garlic
The hot peppers are poured over the waiting garlic in the pint jars.
Topping up with hot brine
The jars are waiting to be topped up with hot brine.
Ready for canning
Ready for the hot water bath canning!
Finished canning
After canning, the jars need to pickle for about 3 – 4 weeks for the magic to happen, then it’s time to enjoy!
Growing a surprising amount of food at home with aquaponics can be very simple, but there are a few basic things to know before getting started. We want to introduce you to the techniques of seed starting and how to keep the growth cycle continuing so that you get the most out of your system.
You can grow most vegetables that you enjoy eating in your aquaponics system. Vegetables that grow the best and easiest are those that grow above ground, such as herbs, greens, tomatoes, peppers, eggplant, cucumber and squash as examples. Please realize that this is not an entire listing, as there are over 300 different types of vegetables that have been grown in aquaponics systems over the past 20 years!
The major foods that are not suitable for aquaponics systems are corn, wheat, soy and rice. Root crops can be a challenge, however a lot of people have grown delicious carrots, beets and radishes after gaining some experience, but they are not recommended for a beginning aquaponics grower. It is best to gain some experience on the easier vegetables, then work into the more challenging ones.
Getting Started
So where to start? Once you have the system assembled, you need to get the system to start “cycling” or converting the raw nutrients from the fish into a form that is available to the plants you’ll be growing. Don’t worry, this isn’t difficult! It might be a bit different than what you are used to, but is easy to understand and monitor. The cycling process will happen automatically in almost all cases, and the testing needed to monitor the process is minimal, only taking a couple of minutes of time.
Cycling begins when the fish start adding ammonia to the aquaponics system through their waste. Ammonia is made of nitrogen and hydrogen (the chemical formula is NH3) and is not easily used by plants. Untreated ammonia is toxic to fish unless it is either diluted to a non-toxic level or converted into a different form of nitrogen.
The presence of ammonia attracts two naturally occurring bacteria in the air that will populate the surfaces of your system. The first bacteria, nitrosomonas, convert the ammonia into nitrites (the second curve in the chart below). This is the first step in the aquaponics cycling process. The presence of nitrites attracts the second naturally occurring bacteria, called nitrospira (the third curve in the graph below). These bacteria convert the nitrites into nitrates, which are generally harmless to the fish and excellent food for your plants. You can see the progression of nutrients in the water, from ammonia to nitrites to nitrates in the chart below, as well as the time frame needed. Click on the photo to enlarge it.
Aquaponic Ammonia Cycling Levels
Using a readily available aquaponics water sampling kit, once you detect nitrates in your water and the ammonia and nitrite concentrations have both dropped, your system will be fully cycled and aquaponics will have officially begun! This is the best time to transplant your seedlings, as the nutrients needed by the plants will be fully available to feed them while they filter and clean the water for the fish. This mutually beneficial relationship is what makes aquaponics unique.
Now you are ready to start your seeds! One caution before we begin – don’t plant all of the available space in your system at once. You will need a graduation of plants to absorb the nutrients and filter the water for the fish. If all of your veggies are ready for harvest at once you will nutrient load the water when the veggies are removed, causing stress on the fish as the new plantings begin to establish their roots. You want a mixture of veggies and maturity levels in your planting. Some fast growing, some medium and some slow. You will only plant a few of the slower growing ones such as herbs, tomatoes, peppers and eggplant, with more of the dark leafy greens like kale and Swiss chard, with more of the faster growing lettuces. Using succession planting, or planting a few of a fast-growing green every 2 – 3 weeks, allows for them to mature and be harvested while newer ones are growing and coming in behind.
What Your Seeds Need for Germination
Seeds have everything they need to continue their species built right into them. All of the accumulated adaptations, the wide range of environmental and seasonal conditions that they have encountered and grown through are encoded into their genetic material, their DNA. Everything they need to remain dormant, and then sprout when the time is right is built right inside their shells.
Within that hard seed coat is enough food energy to help them break dormancy and carry them into their first several days as seedlings. All the enzymes they need to convert the stored energy into food is there as well; they have all of the fats, carbohydrates, protein, enzymes and hormones needed to get the seed off to a great start. As home gardeners, our job is to provide those proper conditions to ensure maximum germination into strong and healthy seedlings.
What does a seed need for germination? Moisture and temperature are the two most important aspects for vigorous seed germination, followed by a few other factors. Let’s take a closer look!
Moisture must be at a constant level for the seed and young seedling as they have no moisture reserves in themselves like a mature plant does. A mature plant can go without moisture for a short period of time, sometimes up to several hours, but a seedling will die if it loses its critical moisture level even for a few minutes. The seed needs enough moisture to soften and split the seed coat during germination; but not too much as to prevent oxygen from reaching the seed, as respiration increases dramatically. Water initially starts the process by softening and splitting the seed coat, then activates nutrients, enzymes and hormones to convert stored foods into energy. Finally it serves as a means of transporting nutrients to all parts of the newly emerging plant. When starting seeds in a tray, watering from the bottom is the best method of keeping the moisture levels more consistent. Misting can help correct smaller areas that aren’t quite moist enough. Many seedling trays will have a bottom tray to help water the soil or grow cubes.
The soil or grow cube temperature where the seed is must be correct to initiate the germination process. The key is the temperature at the seed, not the surrounding air. A room that has an air temperature of 70F may have a seed temperature of 60F or less, as the moisture acts as an evaporative cooling medium, reducing the seed temperature below what is needed. At too low a temperature the seed remains dormant, often for an extended amount of time. Not only the ideal temperature is needed, but for the correct amount of time. This prevents the seed in the wild from germinating too early and being killed by the next frost or cold front that moves in. If the temperature swings too much from the daytime high to the nighttime low, the seed will not germinate, or do so very slowly. A constant temperature for a week to 10 days will have almost all vegetable seeds up and going well.
The relationship between temperature and light changes as seeds germinate. Seeds need a high moisture and warm environment to germinate. Both moisture and temperature levels need to be pretty constant to get good germination. If the temperature is high during the day and cooler at night, the germination will be delayed. Ideally, tomatoes and peppers need 85F seed temperature to sprout. Most cool season vegetables we eat today need a seed temperature above 70F for best germination, with varieties like carrots and cauliflower needing 80F. For more specific temperature needs, refer to our Seed Germination guidelines.
Seed Starting Techniques
Now that we’ve covered some basics of seed germination, let’s look at specific ways to start the seeds for your aquaponics system. There are 3 main ways of starting seeds – broadcasting them, using a support system like paper towels or cotton balls, and seed starting media for those varieties that do best being transplanted after they are a little bigger. Here’s how each of them work:
Broadcasting the seeds is just like it sounds, taking a small quantity of seeds in hand and sprinkling them around the grow bed. This technique is obviously used with a clay or gravel bed, as it has the nooks and crannies that will support seed growth. This technique works well for lettuce and other leafy greens, as well as herbs and would probably work for other small seeds that are typically planted in the early spring and are adapted to being very wet. You can choose to randomly scatter the seeds across the entire grow bed, or just in certain areas like along one side or in a corner. Be aware that the broadcasting approach can have lower overall germination rates than the other approaches, as the seed is likely completely covered in water for a significant part of the time.
Support systems like paper towels or cotton balls work well with slightly larger seeds that germinate quickly such as beans, peas, melons, and cucumbers. This method can also be used to start the smaller seeds mentioned above – experiment and see what works best for you. Some people like to broadcast some seeds, while others prefer to plant individual seeds or seedlings in specific spots in their systems.
Planting these larger seeds directly into the bed sometimes doesn’t work as well, as they don’t reliably germinate there and are longer lived plants with more food production, so it pays to focus a bit more on where they will be located in the growing bed. They will usually germinate and grow very quickly given some support, they don’t need the added work and material of the grow media. One approach is to wad up a small piece of paper towel or part of a cotton ball and place it in the grow media where it will be moistened by the flow of water. Another is to fold a paper towel in half to crease it, unfold it, then place the seeds about 1 – 2 inches apart just above the fold. Refold it, moisten it and place it in a plastic Zip-lock bag. Check the moisture level and germination daily. You should see moisture droplets on the wall of the bag when you pull the towel out to check germination. When you see a 1 inch or longer root, trim the seedling out of the paper towel and place the root into the grow media where it will get a good flow of water.
Seed starting media is best used for seeds that are sometimes harder to germinate in an aquaponics environment (like spinach or chard) or need a little more time and care (tomatoes, peppers and eggplant) before going into the grow bed. There are different types of seed starting media, such as rock-wool or a peat based “sponge” material. Rock-wool is the most common, is inexpensive, sterile and is the easiest to find. It can be broken into smaller chunks for smaller systems or to use less material. The media is pH balanced by wetting in water that has been adjusted to between 5.8 and 7.0, then the seed is inserted into the media and kept moist, much like above. Make sure to use some sort of marker to keep track of what it is you’ve planted! After the seedlings reach about 1 1/2 inches tall, they are transplanted into the grow bed, rock wool and all.
When transplanting the seedlings and planting the seeds for the first time, it is best to add liquid seaweed for some nutrients to get them established. As the growing progresses, adding a small amount at regular intervals will help keep the trace elements and micro-nutrients in balance, producing better vegetables.
After the initial excitement of getting the system cycling and converting nutrients, then planting the initial selection of vegetables and herbs that you want to grow, don’t stop! Now is when you can harvest the first of your home-grown veggies and start the succession planting process to make up for their removal. As you harvest the lettuce or Swiss chard, watch for openings that will be good for another variety. This way you can have a continual harvest year-round of the tastiest, freshest and most nutritious food possible.
Like anything truly worth having in life, a garden requires some work. It is a continual project, an experiment. Always evolving, growing and expanding. The results will amaze and humble you, as the vibrant, rich colors show themselves. Then the aromas and flavors arrive, stunning with the depth and intensity of the garden show. The deep-seated sense of accomplishment resulting from a job well done lasts, urging you back to the work of succession planting new varieties. Each new year is familiar, yet entirely new.
Controlling Bindweed in the Garden
Bindweed HistoryField bindweed, also called perennial morning glory, has the scientific name of Convolvulus arvensis and is widely considered to be one of the most invasive and destructive weeds in cropland and gardens. It was first found in Virginia as early as 1739 and is thought to have originally brought to Kansas and the Midwest from the lower Volga region in Russia, hitching a ride in the oats and wheat brought by immigrants starting new lives. It and its close cousin hedge bindweed (Convolvulus sepium) are both perennials, reproducing from both seeds and shallow creeping roots which make control and eradication much more difficult than if it was an annual.
Bindweed has been so pervasive that in 1937 Kansas wrote official legislation outlawing field bindweed – among a number of other persistent weeds – requiring farmers to use every effort to remove them from their fields and state agencies to do the same with public lands. Several Midwestern states followed suit and adopted this legal approach, approving and vigorously promoting an “eradication through poisoning” approach. As you might assume, all of these laws and efforts were unsuccessful. Perhaps the legislators forgot, if they ever knew, that Mother Nature rarely obeys mankind’s laws.
Bindweed competes very aggressively with adjacent crop plants for water, nutrients, and light, reducing crop yield and quality as well as interfering with harvesting by intertwining with crop plants and clogging up farm equipment – thus giving its name of “bind-weed”. In farming, bindweed infestations can reduce grain crop yields by 20 – 50% and row or vegetable crops by 50 – 80%, with similar reductions in the home garden. This is not a weed to be taken lightly!
Identification and Growth
Bindweed Wrapped Around Morning Glory
It is pretty easy to identify field bindweed and its several cousins. If you’ve ever grown morning glory, then you are already familiar with what bindweed looks like because they are in the same family – Morning Glory. Bindweed has narrower leaves and smaller flowers than Morning Glory, as can be seen in the photo of bindweed vine wrapped around morning glory, and the photo at the top of the article. It is a low growing, drought tolerant with medium green narrow arrowhead-shaped leaves on vigorous vining slender stems. The flowers are funnel-shaped with colors from white to pink. The flowers produce small round capsules with 1 – 4 seeds in each, which can survive in the soil for up to 50 years due to their exceptionally hard and durable seed coats. There is a long central taproot on each plant that can drill down as far as 20 feet or more for moisture that develops numerous lateral roots, mostly in the top 2 feet of soil. Field bindweed reproduces from seed and from buds that form along the lateral roots, sending shoots up to the surface which then become entirely new independent plants. Lateral roots can spread about 10 feet per season, sending up new shoots along the way.
Invading Bindweed
The most common identification is when a gardener realizes there is a mat of green vines that are taking over a section of the garden or yard, or is climbing up the trellis or wall in the case of hedge bindweed. Early in the morning there will be hundreds of small, pretty flowers opened up that will attract a person’s attention.
Early warm weather wakes bindweed up and it grows until the frost or cold stops it in the fall. Extreme heat, drought, and cold will slow down or kill off the top growth, but the underground roots and shoots will go dormant, waiting for enough moisture or better weather to re-emerge. The root systems can spread up to 10 feet per growing season, or by the lateral roots and buds being broken up and re-distributed by tilling. Seed is often spread from irrigation water runoff, birds eating the seeds and depositing them elsewhere, on the feet of gardeners, dogs, and other animals and on the wheels of wheelbarrows, tillers or other machinery and vehicles.
Control Methods
When researching how to control bindweed, the most commonly recommended method is to spray it with a persistent herbicide like glyphosate (Roundup) or worse, but then turn around and caution that care must be used around vegetable or other food crops.
The second most common prevention recommendation is to make sure to avoid bringing in soil, seed, hay or animal feed that has the seeds, buds or pieces of the lateral roots in them. This is somewhat obvious, but too many times the first sign of having a problem is when the little flowers have bloomed and it is way too late for prevention.
The folly of using persistent, petrochemical herbicides to control most weeds – but especially bindweed – is apparent when looking at the multiple mechanisms it uses for reproduction – seeds, buds, lateral roots and the shoots they send up, as well as the vast amount of seeds that can stay dormant for several decades, just waiting for the right soil conditions. Sure, spraying will knock the above ground growth back, but the next season it will be back from all of the different angles it uses to survive, so more spraying is needed. Meanwhile, the spray is also knocking back the exact plants you want to grow and it isn’t beginning to touch the seed or root reservoirs in the soil!
Another common but misguided approach is to use a mixture of vinegar, Epsom salts, and dish detergent. This doesn’t work any better and may wind up killing more plants that just the weeds. Vinegar – whether household strength or the much stronger agricultural vinegar – is an acid and affects the above ground green growth. It will kill that off, but not touch the underground roots, seeds or shoots. It also changes the pH of the soil, potentially creating conditions for worse weeds to come in. Epsom salts are magnesium sulfate, supplying elemental magnesium for the soil microbes to work with and sulfur, which again lowers pH and is a nutrient building block. Dish detergent is a “spreader/sticker” which coats and covers the surface of the leaves, suffocating them. Unfortunately, it can also suffocate beneficial insects, earthworms and the leaves of nearby plants you want to keep.
It is initially easier and much simpler to just spray the weeds, but that quickly becomes a slippery slope as the weeds you are trying to control grow more abundant and you start to notice other invasive weeds appearing that weren’t there to begin with. If you want to get ahead of the weeds, you must understand how they grow, spread, reproduce and the soil conditions that allow them to flourish.
Compare spraying increasing amounts of herbicides multiple times each season to an initial learning curve, some soil improvements and watching as the unwanted weeds start to retreat year after year, while your garden or farm grows stronger, healthier and produces more food that tastes better. Which road do you want to go down?
In looking at methods of controlling bindweed, we need to step back just a bit to understand more of why this, or any other, weed establishes itself in the first place. Contrary to much of the commonly spread information today, weeds don’t just “happen”; they are in a certain place for a very specific reason – the conditions are “just right” for them to grow there.
Weeds are an indication of what is going on with the soil and its fertility, both right and wrong. They show the progression of the soil, whether thefertility and biological diversity and health are improving; or if it is in decline. Very much as a pond will go through several generations of different species of plants until it is filled in and becomes a meadow; or a grass pasture will gradually fill in with a progression of woody shrubs and eventually trees, weeds will have a progression of species that tell the story of improving or failing health of the soil where they grow.
This information is by no means new, untested or untried. It has simply been swept aside in the race toward industrial agriculture shortly after World War II using leftover nitrogen and phosphorus stockpiles from explosives manufacture. This chemical race also happened to home gardening, unfortunately. Dr. Carey Reams and Dr. William Albrecht were some of the last and greatest researchers into the relationship between healthy soils, healthy plants, and healthy people, which naturally extends to the study of weeds in relation to soil conditions. Much of their work is more than 50 years old at this point and is only becoming more proven as more research and testing is done in soil health. One of the best books that we always recommend to anyone wanting to start gaining a better understanding of how and why weeds work is Weeds – Control Without Poisons by Charles Walters, the founder of Acres USA magazine.
The appearance of weeds doesn’t always mean bad things are going on in the soil. For instance, moderate lambsquarter and pigweed are an indication of good soil structure and fertility is good, crops will thrive and insects will generally stay away. They can be managed with light tilling of the top two inches of the soil within one to two days after the weeds have sprouted.
Two Adjacent Raised Garden Beds
What bindweed says about the soil conditions when it appears is that the soil is out of balance, with pH issues and stuck or incomplete decomposition of organic material accompanied by excess heavy soil metals such as magnesium and potassium. There is usually an accumulation of dry and dead plant matter that can’t finish decomposing, creating the right conditions for bindweed to flourish. Most often, the soil is low in humus materials with low available calcium and phosphorus. pH can be either excessively low or high and the soil structure can be clay or sandy.
This is easily seen in the photo above. The near bed was treated with compost and a top dressing of wood chips last fall, while the bed in the background had flowers in it, was not cleaned out for the past couple of years and had little to no compost amended to it. The near bed has a few shoots appearing, but the background bed is over-run and won’t be able to be planted this year.
Bindweed Sneaking In
There are two different, proven methods of stopping and controlling bindweed without using herbicides.
The first method is using weed cloth to block any sunlight from reaching the bindweed plants, much like my article Stopping Bermuda Grass in the Garden.
This method can work if you take care to overlap the shade cloth, avoiding any gaps where the roots will come through. It normally takes about 4 – 5 years to make the roots go dormant, lose their stored energy and then finally rot.
The challenge in trying to shade bindweed out can be seen above, where the bindweed is sneaking in where there is a gap between the weed barrier cloth and the metal raised bed – possibly less than a 1/4 of an inch!
Bindweed Lateral Roots
When the weed barrier is pulled back, it is easy to see the lateral roots running along the bed to where the gap allowed them to put a shoot up and survive.
Bindweed Long Lateral Roots
Moving around to the long side of the raised bed – about in the middle of a 15-foot long bed – we found another shoot poking its head up and pulled the weed barrier fabric back.
This is what we found – a series of lateral roots that had followed the joint of weed barrier fabric and raised bed, poking shoots up wherever it could. These lateral roots went to the shoot in the above two photos.
Handfull of Lateral Roots
Here is what over 10 feet of lateral bindweed roots look like. What we’ve discovered is that when we installed a heavy and fairly non-porous weed barrier fabric several years ago and then put several inches of wood chips on top is that we were creating the perfect environment for bindweed to encroach underneath the weed fabric and pop up in our raised beds.
For most of our beds, this isn’t a serious issue as they are rich and well composted with a fertile and biologically active soil which seriously deters the growth mechanisms of bindweed, so we just see them popping up just inside the raised beds and nowhere else.
The second method involves improving the soil by adding missing or low nutrients, adjusting pH and adding well aged, rich compost to jump-start the decomposition process again.
This short-circuits the growth pattern of bindweed and will soon start to rot the roots and shoots. A complete soil analysis from a professional soil lab is the correct way to determine what nutrients are needed and how to adjust the pH of your soil. There are a number of very good ones, but the two that we know and are familiar with are Crop Services International and Texas Plant and Soil Lab. Either one is excellent and will help you determine what nutrients are needed and in what amounts.
Successfully controlling bindweed depends on several factors that are unique to each garden or farm. Your soil’s pH, mineral levels, clay or sandy based soil and whether you have wet or dry organic matter that is stuck in its decomposition will all determine what nutrients and approach to use. The complete soil analysis from a professional soil lab will provide you the information needed to make the plan to begin reversing the encroachment.
Bear in mind that no single weed species grows independently of all others, they will grow in groups and communities; much like companion plantings of flowers, veggies and herbs do. As you begin to learn more about what different weed species prefer and the conditions that they need for growth, you’ll start to see that groupings of particular weeds mean very specific things related to soil health and fertility. They will indicate exactly what is right or wrong with the soil and what is in excess or lacking. Then you can make the corrections and watch them leave, followed by others that are much less difficult to deal with and indicate a much more fertile soil.
This may seem a bit overwhelming at first, but when you take a step back and realize how much you’ve learned about gardening or farming since you first began, even if it’s only a short time – then you can see how much this knowledge will benefit both your soil and you with fewer weeds, pests and more abundant, healthier plants and veggies, herbs and flowers.
Stopping Bermuda Grass in the Garden
Bermuda grass: love it or hate it – most people fall into one of the two camps; there doesn’t seem to be much in-between. Personally, I think it’s a well-adapted grass for our harsh, dry Western climates. It loves heat, is remarkably wear resistant to foot traffic and is one of the most drought tolerant turf grasses around. It’s great for areas that need turf, for erosion control and for feeding to horses, but it’s an invasive alien weed in the garden. That’s where we have a problem.
We’ve dealt with a slow Bermuda grass invasion over the past few years as it spread from the walkway between our greenhouse and garden into the garden itself. At first it wasn’t such a pain because it colonized the wood chipped walkways and area where the picnic table is. Then it headed toward our smaller raised beds, completely taking over one and entangling the drip system where it entered the raised beds in 3 others.
Bermuda Grass Stolons
We’ve tried a number of approaches to curbing it’s enthusiasm – burning the above ground grass and runners (properly known as stolons) both during and after the growing season, spraying a strong vinegar solution to the green grass phase and digging up the clumps and removing them. Nothing has really worked very well or for very long. Burning is highly satisfying, but did nothing about the rhizomes underground or the seed bank in the soil. After a season of targeted burning, the grass came back just as thick and lush the next spring. The vinegar sprays punched the Bermuda grass in the nose for a while, killing off or wilting the above ground growth but the rhizomes just sprouted up within a few weeks several inches away from where it was sprayed.
Bermuda Grass Seed Head
Persistent petrochemical herbicides such as Roundup are out of the question for a few reasons. One, we are working in our food producing garden and fully realize that whatever is put into the ground will wind up in the vegetables that are eaten. Two, we are a company that works hard to educate about the overuse and over-dependence on what has been called “rescue chemistry”, so it’s just a non-starter.
So what can be done? As is usual with us, we realized that understanding more about this grass than just how to kill it would probably lead us to answers of how to work with it better. After all, as gardeners we are forever working to get the plants we want to grow in a certain area, all the while trying to discourage other plants that we don’t want in the same areas!
It turns out that Bermuda grass isn’t originally from Bermuda; it’s from Africa and was introduced around the mid-1750s. It is thought to have hitched a ride in hay and introduced into the southern states initially. It spread from there and today it is most commonly found in the southern and southwestern United States. Bermuda grass was used almost exclusively as forage for animals for over a hundred years, sometimes becoming a lawn grass by default in places where other grasses could not survive the hot summers well. It wasn’t until the early 1900s that it became recognized as a valuable golf turf grass, starting a second life. Several resources list it growing below 3,000 feet in elevation; our garden in central Arizona is right around 5,000 feet so that doesn’t seem quite correct.
Bermuda Grass Rhizomes
Bermuda grass is sometimes confused with crab grass. Bermuda grass has a deeper root system and crab grass has no stolons or rhizomes to deal with.
In undisturbed soil, Bermuda grass will only drive its roots about 6 inches deep. However, they can go significantly deeper in sandy soil, deeply tilled fields or garden beds, or where the roots meet a solid barrier such as a sidewalk, concrete foundation or walls. This is why driving a solid edging into the soil deeper than about 8 inches has been shown to be effective in stopping the spread of a patch into a garden or surrounding area.
Unfortunately, controlling Bermuda grass with nutrient management or pH management just doesn’t work very well; unlike morning glory or bindweed or a number of other weed species.
The two approaches that have proven to work are drying/desiccating the top 6 inches of the soil to get both the above ground stolons and the underground rhizomes and roots, and excluding light. The one real weakness of Bermuda grass is that it simply won’t grow in the absence of light. Then again, most plants don’t!
There are some folks that have had success with digging or scraping the top layer of soil away, then replacing it with rich topsoil and compost that you are sure has no Bermuda grass seed, stolons or rhizomes. For every success story using this approach, we’ve heard of a dozen others that have seen a re-infestation after some period of time.
The problem with our garden situation is that we don’t have ready access to high quality topsoil that has no Bermuda grass in it. This is part of how we wound up with our current experiment – we brought in topsoil from a neighbor’s property to help fill in and got an unexpected bonus.
Using a thick clear sheet of plastic on top of the ground and excluding any moisture during the growing season has shown to work well, if the area can be isolated with no roots or stolons escaping the area being treated. This approach works especially well if you live in a sunny and warm to hot area during the summer, as a cool and damp summer will do little to stop the grass from growing. If there is escapement, the roots or stolons simply bring in moisture and nutrients and the grass suffers but does not die. Because of the grass intrusion into the garden and under the fence, we can’t use this option.
That leaves us with the shade option, so we are going to do it right. The first step is to take the wood chips out and scrape what we can down to the soil, removing what clumps of grass are possible. We burned the remaining grass, in order to reduce its energy reserves.
Double Layer of Cardboard
Then we installed a double layer of cardboard for two reasons – it helps to shade the ground and will decompose over time, increasing the chances of rotting the remaining Bermuda grass.
Weed Barrier Cloth
Over that we installed a thick and very dense weed barrier cloth from A.M. Leonard, a horticultural tool and supply company. You don’t need to be a business to order from them and their products are commercial quality. It is 20 mils thick, has a 98.7% opaqueness to light, won’t rot or mildew, will allow water to pass through and has a 5 year warranty, so should last for plenty of time for the Bermuda grass to rot. This photo is with the full, bright afternoon sun behind the cloth, to show just how much light is stopped. I actually had to lighten the photo up a bit!
Aurora Helping
Installation was easy – we simply rolled it out with our resident Dalmatian expert – Aurora – supervising…
Cindy Trimming Weed Cloth
…then trimmed it to length with scissors.
Spreading Wood Chips
To finish things off we put 4 – 5 inches of wood chips on top of the weed barrier to further shade everything and discourage any other weeds from making their homes in the wood chips. With this approach, there should be no way that light will get to the grass or soil and as the cardboard rots it will start a layer of decomposition that will include the remaining grass seeds, stolons, rhizomes and roots. This very well might take a year or more with our moisture levels, but that is why we went to the lengths we did to ensure that light can’t get down to the grass and short circuit our project.
Weed Barrier Installation Finished
Here is the completed view, with the double layer of cardboard, weed barrier cloth and thick layer of wood chips installed.
We will post updates as they happen to this project. In the meantime, we would love to hear of your success or challenges with dealing with Bermuda grass in your own garden!
Heirloom Corn Types & Planting Tips
Heirloom Corn – More than just Sweet Corn
Heirloom corn is gaining in popularity as more people taste the vast differences and depths in flavors compared to commercially grown hybrid sweet corn. Comments like “It tastes more like corn than any store-bought corn I’ve ever had” and “The flavor lasts much longer and is much stronger than what I’m used to,” are common when people first taste roasted heirloom corn.
What many don’t realize is there is much more to discover in heirloom corn than just the sweet, fresh eating varieties. After all, corn has been the foundation of nutrition in Mexico and Central America, as well a surprising amount of North America.
William Woys Weaver does a marvelous job of introducing and explaining the different types of heirloom corn in his extensive book Heirloom Vegetable Gardening, the result of over 30 years of growing, tasting and cooking with heirloom vegetables.
Explore the different types of heirloom corn in this article.
From this, we hope you’ve gained a deeper appreciation for the extensive uses and different types of heirloom corn and are inspired to give one or two different types a try this season! Visit our online store to see some storied varieties of corn.
Honey Pickled Jalapeños with Garlic
Pickled jalapeños and garlic have been favorites of ours for a couple of decades. Long enough that we don’t remember exactly when we first started liking them, or where we came across them, but we just know we’ve enjoyed making them for a really long time! Our original recipe was on a well-worn scrap of newspaper clipping and made a lightly sweet Polish brine with garlic and we added the jalapeños after trying the plain garlic.
The Joy of Pickling recently made its way into our lives and we discovered this variation on the theme – using honey instead of sugar for the sweetness and adding an unusual spice mixture to kick things up a notch. We think this is fabulous!
If you are not a pickled garlic lover; or a pickled jalapeño aficionado this might take a little getting used to, but trust us it is delicious and well worth trying. The vast majority of people that we’ve sampled this to have loved it, even if they aren’t all that into chunks of garlic and hot peppers. The pickling mellows the heat and punch from the garlic and jalapeños, while the light sweetness brings some nice counter balance to the boldness. The spices bring traditional pickle background flavors into the mix, leaving most with a look of intrigue on their faces after tasting them.
We love these served on a multi-grain cracker, a whole clove and jalapeño ring side by side. Sometimes a thin slice of aged Irish cheddar cheese mixes things up.
Once people taste these, they will go fast so don't hesitate to make a large batch!
Honey Pickled Jalapenos with Garlic
We start with fresh jalapeños and garlic cloves. If you don’t know how to peel lots of garlic very quickly and easily – just watch our short video “Peel Garlic in 10 Seconds“ and you’ll be set!
Honey Pickled Jalapenos Spices
Next is to mix up the Mixed Pickling Spices for some great background flavors to round things out.
Pickling Spices in Bag
The whole spices are enclosed in a spice bag…
Spices in pickling solution
…and added to the pickling solution that is heating up to a boil.
Adding jalapeños to hot brine
Once the solution is at a boil, the jalapeños are added…
Simmering jalapeños
…and brought back to a simmer for a couple of minutes.
Adding jalapeños to garlic
The hot peppers are poured over the waiting garlic in the pint jars.
Topping up with hot brine
The jars are waiting to be topped up with hot brine.
Ready for canning
Ready for the hot water bath canning!
Finished canning
After canning, the jars need to pickle for about 3 – 4 weeks for the magic to happen, then it’s time to enjoy!
Heirloom Watermelons – Size vs Flavor
With watermelons, both size and flavor matter. Heirloom watermelons grown at home will give the absolute best flavor and taste, regardless of size.
Successful Aquaponics Seed Starting
Growing a surprising amount of food at home with aquaponics can be very simple, but there are a few basic things to know before getting started. We want to introduce you to the techniques of seed starting and how to keep the growth cycle continuing so that you get the most out of your system.
You can grow most vegetables that you enjoy eating in your aquaponics system. Vegetables that grow the best and easiest are those that grow above ground, such as herbs, greens, tomatoes, peppers, eggplant, cucumber and squash as examples. Please realize that this is not an entire listing, as there are over 300 different types of vegetables that have been grown in aquaponics systems over the past 20 years!
The major foods that are not suitable for aquaponics systems are corn, wheat, soy and rice. Root crops can be a challenge, however a lot of people have grown delicious carrots, beets and radishes after gaining some experience, but they are not recommended for a beginning aquaponics grower. It is best to gain some experience on the easier vegetables, then work into the more challenging ones.
Getting Started
So where to start? Once you have the system assembled, you need to get the system to start “cycling” or converting the raw nutrients from the fish into a form that is available to the plants you’ll be growing. Don’t worry, this isn’t difficult! It might be a bit different than what you are used to, but is easy to understand and monitor. The cycling process will happen automatically in almost all cases, and the testing needed to monitor the process is minimal, only taking a couple of minutes of time.
Cycling begins when the fish start adding ammonia to the aquaponics system through their waste. Ammonia is made of nitrogen and hydrogen (the chemical formula is NH3) and is not easily used by plants. Untreated ammonia is toxic to fish unless it is either diluted to a non-toxic level or converted into a different form of nitrogen.
The presence of ammonia attracts two naturally occurring bacteria in the air that will populate the surfaces of your system. The first bacteria, nitrosomonas, convert the ammonia into nitrites (the second curve in the chart below). This is the first step in the aquaponics cycling process. The presence of nitrites attracts the second naturally occurring bacteria, called nitrospira (the third curve in the graph below). These bacteria convert the nitrites into nitrates, which are generally harmless to the fish and excellent food for your plants. You can see the progression of nutrients in the water, from ammonia to nitrites to nitrates in the chart below, as well as the time frame needed. Click on the photo to enlarge it.
Aquaponic Ammonia Cycling Levels
Using a readily available aquaponics water sampling kit, once you detect nitrates in your water and the ammonia and nitrite concentrations have both dropped, your system will be fully cycled and aquaponics will have officially begun! This is the best time to transplant your seedlings, as the nutrients needed by the plants will be fully available to feed them while they filter and clean the water for the fish. This mutually beneficial relationship is what makes aquaponics unique.
Now you are ready to start your seeds! One caution before we begin – don’t plant all of the available space in your system at once. You will need a graduation of plants to absorb the nutrients and filter the water for the fish. If all of your veggies are ready for harvest at once you will nutrient load the water when the veggies are removed, causing stress on the fish as the new plantings begin to establish their roots. You want a mixture of veggies and maturity levels in your planting. Some fast growing, some medium and some slow. You will only plant a few of the slower growing ones such as herbs, tomatoes, peppers and eggplant, with more of the dark leafy greens like kale and Swiss chard, with more of the faster growing lettuces. Using succession planting, or planting a few of a fast-growing green every 2 – 3 weeks, allows for them to mature and be harvested while newer ones are growing and coming in behind.
What Your Seeds Need for Germination
Seeds have everything they need to continue their species built right into them. All of the accumulated adaptations, the wide range of environmental and seasonal conditions that they have encountered and grown through are encoded into their genetic material, their DNA. Everything they need to remain dormant, and then sprout when the time is right is built right inside their shells.
Within that hard seed coat is enough food energy to help them break dormancy and carry them into their first several days as seedlings. All the enzymes they need to convert the stored energy into food is there as well; they have all of the fats, carbohydrates, protein, enzymes and hormones needed to get the seed off to a great start. As home gardeners, our job is to provide those proper conditions to ensure maximum germination into strong and healthy seedlings.
What does a seed need for germination? Moisture and temperature are the two most important aspects for vigorous seed germination, followed by a few other factors. Let’s take a closer look!
Moisture must be at a constant level for the seed and young seedling as they have no moisture reserves in themselves like a mature plant does. A mature plant can go without moisture for a short period of time, sometimes up to several hours, but a seedling will die if it loses its critical moisture level even for a few minutes. The seed needs enough moisture to soften and split the seed coat during germination; but not too much as to prevent oxygen from reaching the seed, as respiration increases dramatically. Water initially starts the process by softening and splitting the seed coat, then activates nutrients, enzymes and hormones to convert stored foods into energy. Finally it serves as a means of transporting nutrients to all parts of the newly emerging plant. When starting seeds in a tray, watering from the bottom is the best method of keeping the moisture levels more consistent. Misting can help correct smaller areas that aren’t quite moist enough. Many seedling trays will have a bottom tray to help water the soil or grow cubes.
The soil or grow cube temperature where the seed is must be correct to initiate the germination process. The key is the temperature at the seed, not the surrounding air. A room that has an air temperature of 70F may have a seed temperature of 60F or less, as the moisture acts as an evaporative cooling medium, reducing the seed temperature below what is needed. At too low a temperature the seed remains dormant, often for an extended amount of time. Not only the ideal temperature is needed, but for the correct amount of time. This prevents the seed in the wild from germinating too early and being killed by the next frost or cold front that moves in. If the temperature swings too much from the daytime high to the nighttime low, the seed will not germinate, or do so very slowly. A constant temperature for a week to 10 days will have almost all vegetable seeds up and going well.
The relationship between temperature and light changes as seeds germinate. Seeds need a high moisture and warm environment to germinate. Both moisture and temperature levels need to be pretty constant to get good germination. If the temperature is high during the day and cooler at night, the germination will be delayed. Ideally, tomatoes and peppers need 85F seed temperature to sprout. Most cool season vegetables we eat today need a seed temperature above 70F for best germination, with varieties like carrots and cauliflower needing 80F. For more specific temperature needs, refer to our Seed Germination guidelines.
Seed Starting Techniques
Now that we’ve covered some basics of seed germination, let’s look at specific ways to start the seeds for your aquaponics system. There are 3 main ways of starting seeds – broadcasting them, using a support system like paper towels or cotton balls, and seed starting media for those varieties that do best being transplanted after they are a little bigger. Here’s how each of them work:
Broadcasting the seeds is just like it sounds, taking a small quantity of seeds in hand and sprinkling them around the grow bed. This technique is obviously used with a clay or gravel bed, as it has the nooks and crannies that will support seed growth. This technique works well for lettuce and other leafy greens, as well as herbs and would probably work for other small seeds that are typically planted in the early spring and are adapted to being very wet. You can choose to randomly scatter the seeds across the entire grow bed, or just in certain areas like along one side or in a corner. Be aware that the broadcasting approach can have lower overall germination rates than the other approaches, as the seed is likely completely covered in water for a significant part of the time.
Support systems like paper towels or cotton balls work well with slightly larger seeds that germinate quickly such as beans, peas, melons, and cucumbers. This method can also be used to start the smaller seeds mentioned above – experiment and see what works best for you. Some people like to broadcast some seeds, while others prefer to plant individual seeds or seedlings in specific spots in their systems.
Planting these larger seeds directly into the bed sometimes doesn’t work as well, as they don’t reliably germinate there and are longer lived plants with more food production, so it pays to focus a bit more on where they will be located in the growing bed. They will usually germinate and grow very quickly given some support, they don’t need the added work and material of the grow media. One approach is to wad up a small piece of paper towel or part of a cotton ball and place it in the grow media where it will be moistened by the flow of water. Another is to fold a paper towel in half to crease it, unfold it, then place the seeds about 1 – 2 inches apart just above the fold. Refold it, moisten it and place it in a plastic Zip-lock bag. Check the moisture level and germination daily. You should see moisture droplets on the wall of the bag when you pull the towel out to check germination. When you see a 1 inch or longer root, trim the seedling out of the paper towel and place the root into the grow media where it will get a good flow of water.
Seed starting media is best used for seeds that are sometimes harder to germinate in an aquaponics environment (like spinach or chard) or need a little more time and care (tomatoes, peppers and eggplant) before going into the grow bed. There are different types of seed starting media, such as rock-wool or a peat based “sponge” material. Rock-wool is the most common, is inexpensive, sterile and is the easiest to find. It can be broken into smaller chunks for smaller systems or to use less material. The media is pH balanced by wetting in water that has been adjusted to between 5.8 and 7.0, then the seed is inserted into the media and kept moist, much like above. Make sure to use some sort of marker to keep track of what it is you’ve planted! After the seedlings reach about 1 1/2 inches tall, they are transplanted into the grow bed, rock wool and all.
When transplanting the seedlings and planting the seeds for the first time, it is best to add liquid seaweed for some nutrients to get them established. As the growing progresses, adding a small amount at regular intervals will help keep the trace elements and micro-nutrients in balance, producing better vegetables.
After the initial excitement of getting the system cycling and converting nutrients, then planting the initial selection of vegetables and herbs that you want to grow, don’t stop! Now is when you can harvest the first of your home-grown veggies and start the succession planting process to make up for their removal. As you harvest the lettuce or Swiss chard, watch for openings that will be good for another variety. This way you can have a continual harvest year-round of the tastiest, freshest and most nutritious food possible.
Like anything truly worth having in life, a garden requires some work. It is a continual project, an experiment. Always evolving, growing and expanding. The results will amaze and humble you, as the vibrant, rich colors show themselves. Then the aromas and flavors arrive, stunning with the depth and intensity of the garden show. The deep-seated sense of accomplishment resulting from a job well done lasts, urging you back to the work of succession planting new varieties. Each new year is familiar, yet entirely new.