One of the wonderful things that we get to do in this business is visit seed growers. Most of the time the visit is to inspect the crops or harvest for that season, looking for potential challenges or quality issues that must be addressed. Open pollinated seed wants to “drift” or change and adapt to current conditions, and it is our job to keep true to the characteristics that made it so worthwhile to be passed down from generation to generation.
Other times we get to visit a grower or breeder to see what they are working on, which becomes a highly educational day in the fields for us. This is just such an occasion.
We were invited to south-eastern Arizona to spend the day with a world-class chile breeder. He currently supplies most of the chile seeds for the Hatch chile growers in New Mexico, and has been breeding and refining chiles for about 30 years. As an example, he obtained seeds for the “Sandia” chile from growers in the Albuquerque area almost 20 years ago and has doubled the production of that chile, while retaining it’s remarkable flavor and compact, bushy plant characteristics that have lots of leaf shade to prevent the young chiles from becoming sun scalded. He combines traditional plant breeding with extensive selection and very close observation, only choosing to keep the very best plants for seed.
We first met him at a Master Gardener conference where he presented a talk about the genetics of the breeding he was doing, explaining how much more complex a chile plant is than a tomato, with the resulting complexities in breeding and selecting to get certain characteristics to come through reliably. He has studied the DNA of the chile plant extensively, and has collaborated with university research projects working to identify and map the chile genome to better understand how and why it grows and reacts the way it does.
When we first pulled up to the growing field, we weren’t exactly sure what to expect. From our conversations with him, we knew he was growing several dozen chile varieties on a few hundred acres, but we didn’t know how. Chiles will readily cross pollinate, creating a mess for growers and especially breeders. As we parked, a tractor was already pulling a flatbed trailer out of the field loaded with freshly harvested chiles.
For all of the photos, click to see them full sized.
Looking out across the fields, you can see fluorescent flags in the middle distance. It is easier to see if you click on the photo for the full size. These are the primary plants that show all of the desirable characteristics or traits that the breeder is looking for, so they are tagged and will be allowed to fully ripen, then the seeds will be collected to be replanted next year. All of the surrounding chiles will be harvested for use as fresh green chiles.
This is where it all starts, with a single flower. One flower, successfully pollinated, will give you one chile with seeds. These particular chiles have a good amount of seeds, but there are some that we have grown for us that only produce a few seeds per chile pod, so they are much more labor intensive and more expensive to grow.
Chile flowers are classified as “perfect”, meaning that each flower has both male and female organs. The anther or male portion produces the pollen and is seen extending out from the flower in the above photo. The stigma is the female organ and it is beneath the flower petals and underneath the anthers.
Flowers begin appearing when the chile plant starts branching and the process of flowering is called “dichotomous”, meaning that the plant produces one flower, then two, then four, eight, sixteen and so on. There will be many, many more flowers than fruit, and a larger percentage of the early flowers produce fruit than those later in the season.
Chiles are surprisingly temperature sensitive, as they produce the most fruit when nighttime temperatures are between 65° and 80°F, almost stopping by 85°F and the pollen aborts when daytime temperatures are above 95°F. This is why home gardeners will shade their chile or pepper plants in the summer in hot locations. To read more about this, see Grow Better Peppers with Shade.
Gardeners with some experience often ask how we isolate the different varieties of tomatoes, peppers or any of the different cultivars we offer so they do not cross-pollinate. There are three main methods of isolation – time, distance and physical isolation. Our growers use all three of these techniques to grow more plants for seed, which increases production.
Swaths of corn are used at this location for isolation. It is planted earlier than the chiles in rows that are about 15 feet deep and seeded fairly thickly. The result is tall barriers that inhibits the travel of pollen from one plot of chiles to another and has proven itself to be highly effective through both field trials and laboratory testing.
When the corn has matured it is harvested and the stalks are removed, making it much easier to access the chile plots. By that time the chiles have flowered and produced the first couple of flushes of fruit which the seed will be saved from. Later pollination of fruit is picked and used as fresh chiles, with the seed not being saved.
We had camped in small secluded campground the night before, with a strong weather warning for the next couple of days due to a tropical storm working its way inland from the Pacific.
This is how we started our day, with clouds getting stronger and the wind picking up until the mountains to the west were getting drenched. The rains then turned toward us and we were forced out of the fields just after noon.
Keeping track of all of the individual plots is done both by hand and with modern technology. A hand drawn map is used in the field to verify and make notes, with the information being transferred to a computer file later.
There is a team that works to keep the quality high – the breeder and farm owner, a field foreman and two highly experienced plant identification specialists that spend lots of hours each day in the field with the foreman, looking at and evaluating each individual chile plant for the characteristics that are desired. Those plants are then identified, tagged and tracked throughout the season.
If a plant continues to perform to standards, the chiles will be harvested and the seeds saved for next season. If even one trait or characteristic is found to be below standards, the markers are removed and the fruit is harvested as fresh chile to be eaten and the seeds are not saved.
The field inspections of chiles was a highlight of our day! This chile is just starting to ripen past the green stage. There are sometimes 15 different characteristics that are desired and evaluated in a single chile – many not having to do with heat or taste.
If you click into the larger photo, you will see the thickness of the flesh better. This shows how fertile the soil is, as poor or unsuitable soil will not grow thick flesh and the skin will be slightly to noticeably bitter. The breeder has shown me photos of chiles that have a flesh 3/8 of an inch thick! This is extremely good soil for growing chiles.
This particular chile only grows two ribs down the center of the fruit where the seeds are attached to. They know to cut the chile open from the side to see into the chile for evaluation.
One thing we learned is that the capsaicin or heat is located along the ribs of the chile. Mild to moderate chiles will have the majority of the heat here. This is primarily true for most chiles, though some of the hotter varieties will contain additional capsaicin in the flesh.
Once again, clicking into the larger photo will show the yellow capsaicin better. It is located on the bottom rib and is a very light yellow color. It was very educational to taste the chile flesh, which was very flavorful and mild and then touch the rib with the capsaicin and taste it. The heat was immediate and surprising for such a mild chile and lasted for several minutes on the tongue. This is why many recipes will say to remove the ribs, as it strips out the majority of the heat!
The capsaicin can be easily seen on the top rib as a light yellow line that follows the flesh, with the tip of the knife pointing to a heavy spot. This chile has a good amount of capsaicin on both ribs and would give an unsuspecting person quite the surprise!
His focus with chiles is on the milder varieties, such as those grown in and around Hatch, NM.
We talked about different characteristics being selected for in the plots and here is a representation of some of them. At first glance, these four chiles seem to be all the same – large, green and fairly flat. In fact, these are all different cultivars; bred, selected and grown for different markets.
The top one is grown for fresh chile sales at Mexican markets – this is what traditional Mexican households are looking for in size and flavor for specific dishes with fresh green chile. It is too long for canning, as the chile will fold over in the can – making it undesirable for whole canned chile use.
The second from the top is grown for the canning companies – it has a “crown” where the stem is, making it easier to de-stem by machine. In fact, the term is called “de-stemability” when looking at the characteristics.
They will pick a chile, grab the stem and snap it off of the top. If it comes off whole without taking any of the chile with it, that is good. If part of the stem remains, or some of the chile is removed – that is not acceptable.
The third chile is preferred for fresh stuffing use as it is flat and wide and is perfect for Chile Rellenos.
The bottom one is perfect for fresh roasting, as it is rounder so that it will tumble in the flame roaster and is longer and wider than the canning chile. The stem is a bit smaller and tighter than the canning chile as well, which is desirable for roasting as you don’t want to lose the stems in the roaster.
It is easier to see some of the physical differences in this shot.
For the breeder, flavor is most important followed closely by productivity. We must have tasted a hundred chiles during our time in the field and left with both of our arms full of chiles that had been picked and tested for de-stemability or other physical traits and were then waste. We loved it!
Another look at the production capability of a chile plant. They select for smaller, more compact plants with larger chiles and lots of leaf cover to shade and protect the chiles from sun scald and hotter temperatures. More leaf cover also keeps the soil cooler which keeps the flowers cooler, maintaining a better pollination and fruit production environment.
It quickly became apparent that there were many other traits that had been identified and were selected for beyond just flavor and size or appearance of the chiles that contributed greatly to the overall quality and flavor of the chiles. Lower plants that had thicker stems so that the chiles didn’t break the stems from the high production and large sizes were part of it. More leaf cover with larger leaves was another. Tolerance and resistance to disease, sun-scald and other challenges were more traits actively encouraged.
Remember how we talked about isolation in a previous photo? Here’s another example of isolation that is being used to actively improve the chiles in the field. These are isolation cages or tunnels, put over the chile plants after they are sown to exclude any insects or pollen drift from other chile plants. This prevents cross-pollination and only allows the chiles inside the cage to do the pollination. These cages were just slightly taller than the chile plants and some were hundreds of feet long – as long as the row of chile plants.
Here’s another look, showing two different types of isolation in one photo. The remains of the corn row isolation between plots is next to one of the isolation tunnels, with the field manager and breeder as we saw them most of the day – heads down looking at chiles with their hands full of chiles. The yellow flags are tags of specific plants that have been identified as having the traits or characteristics they wanted.
The isolation tunnels don’t prevent sun or water from entering, only insects and stray pollen.
After we were chased out of the fields by the rains, we got a tour of the processing facility where the truckloads of ripe red chiles were cleaned, de-seeded and dried. The dried chile pods are sold to a company that makes chile paste and sauces, while the seeds are sold to the New Mexico chile canning companies and grown around Hatch, NM and surrounding areas.
We were treated to seeing how much seed is involved in an operation like this – lots and lots! The warehouse is climate controlled for temperature and humidity and is stacked full of chile seeds. Most will be sold to the commercial growers of fresh green chiles, but there is a deep store of multiple years worth of breeding stock seed. There are backups upon backups going several years back, all labelled and coded with details so that they can be easily reached if needed, or if there is a crop failure due to weather or insects.
This level of backup and redundancy is absolutely necessary as a breeder, as there is nowhere else to turn if a crop fails or things don’t turn out well. We felt very privileged to see and spend some time in the seed warehouse!
We did a video in partnership with our local hospital about growing and cooking with herbs. Yavapai Regional Medical Center has created “Your Healthy Kitchen” recognizing and promoting the idea of eating and staying healthy makes a lot of sense.
We talk about some of the easier to grow fresh herbs that do well almost anywhere and in any size container, then use some of those same herbs in making a delicious tapenade or appetizer of olives, capers and herbs to finish the show.
Here’s what herbs and vegetables you could grow in your garden for this recipe – Dill, Parsley, Rosemary, Thyme & Onions
Transform your garden with succession planting. Learn how to create a continuous harvest of fresh vegetables, herbs, and flowers throughout the growing season.
https://underwoodgardens.com/wp-content/uploads/2024/05/Succession-Planting.jpg5621000Stephen Scotthttps://underwoodgardens.com/wp-content/uploads/2019/06/Survey-Header.jpgStephen Scott2015-07-17 11:31:362024-06-07 14:59:34Succession Planting Made Easy – A Step-by-Step Guide for Every Garden
Whether you have a bounty of young green beans from your garden, or have gotten a great deal at the Farmer’s Market – here’s a quick and simply delicious way to make them into a very memorable side dish that will be talked about! The French name for the classic, tender green bean or filet bean is “haricots vert”. If you are looking for them at the market, look for young, slender and tender green beans that have just the faintest hint of the bean when you feel the shell.
https://underwoodgardens.com/wp-content/uploads/2015/09/Green-Beans-with-Dijon-Vinaigrette.jpg490736Stephen Scotthttps://underwoodgardens.com/wp-content/uploads/2019/06/Survey-Header.jpgStephen Scott2015-07-14 14:23:052024-04-30 17:34:00Young Green Beans with Dijon Vinaigrette
Green beans can be a blessing in disguise – they are a welcome addition to the dinner table in the spring when they first arrive, but can soon wear out their welcome as their prolific nature is truly shown. Just how many ways can they be prepared without being the dreaded green vegetable on the plate?
We love them this way; a very simple, easy and fast way to make them unique and delicious. They can easily balance a rich roasted chicken or grilled meats, but also add to a fish or seafood plate.
Consider this a base for exploring several different directions with the green beans – using toasted almonds, sauteed garlic and even taking the grated Parmesan approach and adding pasta for a light summer evening meal.
A quick and easy, but deliciously different side dish that will impress your dinner guests. The flavors are bright, fresh and enticing.
Ingredients
1lbfresh green beans
2tbsbutter
2tbsolive oil
1 - 2shallotsor small bunch green onions, minced
Freshly squeezed lemon juice
Salt to taste
Optional
Freshly ground Parmesan cheese
Fresh lemon zest
Instructions
Bring a pot of well-salted water to boil. Add green beans and cook for 5 minutes, then drain and plunge into waiting pot of ice water to stop cooking. Drain when cold.
Meanwhile, sauté shallots in butter and olive oil over medium heat until tender, about 5 minutes.
Add beans to shallot mixture and continue to sauté until beans are warm and just tender, about 2 to 3 minutes.
Sprinkle with lemon juice and season to taste with salt. Top with freshly ground Parmesan cheese if desired.
Serve at once.
Recipe Notes
Blanching the green beans in boiling water keeps them from being over-cooked when sauteing them with the shallots.
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
Growing Quality Heirloom Chiles
One of the wonderful things that we get to do in this business is visit seed growers. Most of the time the visit is to inspect the crops or harvest for that season, looking for potential challenges or quality issues that must be addressed. Open pollinated seed wants to “drift” or change and adapt to current conditions, and it is our job to keep true to the characteristics that made it so worthwhile to be passed down from generation to generation.
Other times we get to visit a grower or breeder to see what they are working on, which becomes a highly educational day in the fields for us. This is just such an occasion.
We were invited to south-eastern Arizona to spend the day with a world-class chile breeder. He currently supplies most of the chile seeds for the Hatch chile growers in New Mexico, and has been breeding and refining chiles for about 30 years. As an example, he obtained seeds for the “Sandia” chile from growers in the Albuquerque area almost 20 years ago and has doubled the production of that chile, while retaining it’s remarkable flavor and compact, bushy plant characteristics that have lots of leaf shade to prevent the young chiles from becoming sun scalded. He combines traditional plant breeding with extensive selection and very close observation, only choosing to keep the very best plants for seed.
We first met him at a Master Gardener conference where he presented a talk about the genetics of the breeding he was doing, explaining how much more complex a chile plant is than a tomato, with the resulting complexities in breeding and selecting to get certain characteristics to come through reliably. He has studied the DNA of the chile plant extensively, and has collaborated with university research projects working to identify and map the chile genome to better understand how and why it grows and reacts the way it does.
When we first pulled up to the growing field, we weren’t exactly sure what to expect. From our conversations with him, we knew he was growing several dozen chile varieties on a few hundred acres, but we didn’t know how. Chiles will readily cross pollinate, creating a mess for growers and especially breeders. As we parked, a tractor was already pulling a flatbed trailer out of the field loaded with freshly harvested chiles.
For all of the photos, click to see them full sized.
Looking out across the fields, you can see fluorescent flags in the middle distance. It is easier to see if you click on the photo for the full size. These are the primary plants that show all of the desirable characteristics or traits that the breeder is looking for, so they are tagged and will be allowed to fully ripen, then the seeds will be collected to be replanted next year. All of the surrounding chiles will be harvested for use as fresh green chiles.
This is where it all starts, with a single flower. One flower, successfully pollinated, will give you one chile with seeds. These particular chiles have a good amount of seeds, but there are some that we have grown for us that only produce a few seeds per chile pod, so they are much more labor intensive and more expensive to grow.
Chile flowers are classified as “perfect”, meaning that each flower has both male and female organs. The anther or male portion produces the pollen and is seen extending out from the flower in the above photo. The stigma is the female organ and it is beneath the flower petals and underneath the anthers.
Flowers begin appearing when the chile plant starts branching and the process of flowering is called “dichotomous”, meaning that the plant produces one flower, then two, then four, eight, sixteen and so on. There will be many, many more flowers than fruit, and a larger percentage of the early flowers produce fruit than those later in the season.
Chiles are surprisingly temperature sensitive, as they produce the most fruit when nighttime temperatures are between 65° and 80°F, almost stopping by 85°F and the pollen aborts when daytime temperatures are above 95°F. This is why home gardeners will shade their chile or pepper plants in the summer in hot locations. To read more about this, see Grow Better Peppers with Shade.
Gardeners with some experience often ask how we isolate the different varieties of tomatoes, peppers or any of the different cultivars we offer so they do not cross-pollinate. There are three main methods of isolation – time, distance and physical isolation. Our growers use all three of these techniques to grow more plants for seed, which increases production.
Swaths of corn are used at this location for isolation. It is planted earlier than the chiles in rows that are about 15 feet deep and seeded fairly thickly. The result is tall barriers that inhibits the travel of pollen from one plot of chiles to another and has proven itself to be highly effective through both field trials and laboratory testing.
When the corn has matured it is harvested and the stalks are removed, making it much easier to access the chile plots. By that time the chiles have flowered and produced the first couple of flushes of fruit which the seed will be saved from. Later pollination of fruit is picked and used as fresh chiles, with the seed not being saved.
We had camped in small secluded campground the night before, with a strong weather warning for the next couple of days due to a tropical storm working its way inland from the Pacific.
This is how we started our day, with clouds getting stronger and the wind picking up until the mountains to the west were getting drenched. The rains then turned toward us and we were forced out of the fields just after noon.
Keeping track of all of the individual plots is done both by hand and with modern technology. A hand drawn map is used in the field to verify and make notes, with the information being transferred to a computer file later.
There is a team that works to keep the quality high – the breeder and farm owner, a field foreman and two highly experienced plant identification specialists that spend lots of hours each day in the field with the foreman, looking at and evaluating each individual chile plant for the characteristics that are desired. Those plants are then identified, tagged and tracked throughout the season.
If a plant continues to perform to standards, the chiles will be harvested and the seeds saved for next season. If even one trait or characteristic is found to be below standards, the markers are removed and the fruit is harvested as fresh chile to be eaten and the seeds are not saved.
The field inspections of chiles was a highlight of our day! This chile is just starting to ripen past the green stage. There are sometimes 15 different characteristics that are desired and evaluated in a single chile – many not having to do with heat or taste.
If you click into the larger photo, you will see the thickness of the flesh better. This shows how fertile the soil is, as poor or unsuitable soil will not grow thick flesh and the skin will be slightly to noticeably bitter. The breeder has shown me photos of chiles that have a flesh 3/8 of an inch thick! This is extremely good soil for growing chiles.
This particular chile only grows two ribs down the center of the fruit where the seeds are attached to. They know to cut the chile open from the side to see into the chile for evaluation.
One thing we learned is that the capsaicin or heat is located along the ribs of the chile. Mild to moderate chiles will have the majority of the heat here. This is primarily true for most chiles, though some of the hotter varieties will contain additional capsaicin in the flesh.
Once again, clicking into the larger photo will show the yellow capsaicin better. It is located on the bottom rib and is a very light yellow color. It was very educational to taste the chile flesh, which was very flavorful and mild and then touch the rib with the capsaicin and taste it. The heat was immediate and surprising for such a mild chile and lasted for several minutes on the tongue. This is why many recipes will say to remove the ribs, as it strips out the majority of the heat!
The capsaicin can be easily seen on the top rib as a light yellow line that follows the flesh, with the tip of the knife pointing to a heavy spot. This chile has a good amount of capsaicin on both ribs and would give an unsuspecting person quite the surprise!
His focus with chiles is on the milder varieties, such as those grown in and around Hatch, NM.
We talked about different characteristics being selected for in the plots and here is a representation of some of them. At first glance, these four chiles seem to be all the same – large, green and fairly flat. In fact, these are all different cultivars; bred, selected and grown for different markets.
The top one is grown for fresh chile sales at Mexican markets – this is what traditional Mexican households are looking for in size and flavor for specific dishes with fresh green chile. It is too long for canning, as the chile will fold over in the can – making it undesirable for whole canned chile use.
The second from the top is grown for the canning companies – it has a “crown” where the stem is, making it easier to de-stem by machine. In fact, the term is called “de-stemability” when looking at the characteristics.
They will pick a chile, grab the stem and snap it off of the top. If it comes off whole without taking any of the chile with it, that is good. If part of the stem remains, or some of the chile is removed – that is not acceptable.
The third chile is preferred for fresh stuffing use as it is flat and wide and is perfect for Chile Rellenos.
The bottom one is perfect for fresh roasting, as it is rounder so that it will tumble in the flame roaster and is longer and wider than the canning chile. The stem is a bit smaller and tighter than the canning chile as well, which is desirable for roasting as you don’t want to lose the stems in the roaster.
It is easier to see some of the physical differences in this shot.
For the breeder, flavor is most important followed closely by productivity. We must have tasted a hundred chiles during our time in the field and left with both of our arms full of chiles that had been picked and tested for de-stemability or other physical traits and were then waste. We loved it!
Another look at the production capability of a chile plant. They select for smaller, more compact plants with larger chiles and lots of leaf cover to shade and protect the chiles from sun scald and hotter temperatures. More leaf cover also keeps the soil cooler which keeps the flowers cooler, maintaining a better pollination and fruit production environment.
It quickly became apparent that there were many other traits that had been identified and were selected for beyond just flavor and size or appearance of the chiles that contributed greatly to the overall quality and flavor of the chiles. Lower plants that had thicker stems so that the chiles didn’t break the stems from the high production and large sizes were part of it. More leaf cover with larger leaves was another. Tolerance and resistance to disease, sun-scald and other challenges were more traits actively encouraged.
Remember how we talked about isolation in a previous photo? Here’s another example of isolation that is being used to actively improve the chiles in the field. These are isolation cages or tunnels, put over the chile plants after they are sown to exclude any insects or pollen drift from other chile plants. This prevents cross-pollination and only allows the chiles inside the cage to do the pollination. These cages were just slightly taller than the chile plants and some were hundreds of feet long – as long as the row of chile plants.
Here’s another look, showing two different types of isolation in one photo. The remains of the corn row isolation between plots is next to one of the isolation tunnels, with the field manager and breeder as we saw them most of the day – heads down looking at chiles with their hands full of chiles. The yellow flags are tags of specific plants that have been identified as having the traits or characteristics they wanted.
The isolation tunnels don’t prevent sun or water from entering, only insects and stray pollen.
After we were chased out of the fields by the rains, we got a tour of the processing facility where the truckloads of ripe red chiles were cleaned, de-seeded and dried. The dried chile pods are sold to a company that makes chile paste and sauces, while the seeds are sold to the New Mexico chile canning companies and grown around Hatch, NM and surrounding areas.
We were treated to seeing how much seed is involved in an operation like this – lots and lots! The warehouse is climate controlled for temperature and humidity and is stacked full of chile seeds. Most will be sold to the commercial growers of fresh green chiles, but there is a deep store of multiple years worth of breeding stock seed. There are backups upon backups going several years back, all labelled and coded with details so that they can be easily reached if needed, or if there is a crop failure due to weather or insects.
This level of backup and redundancy is absolutely necessary as a breeder, as there is nowhere else to turn if a crop fails or things don’t turn out well. We felt very privileged to see and spend some time in the seed warehouse!
Lemon-Garlic Infused Olive Tapenade
We did a video in partnership with our local hospital about growing and cooking with herbs. Yavapai Regional Medical Center has created “Your Healthy Kitchen” recognizing and promoting the idea of eating and staying healthy makes a lot of sense.
We talk about some of the easier to grow fresh herbs that do well almost anywhere and in any size container, then use some of those same herbs in making a delicious tapenade or appetizer of olives, capers and herbs to finish the show.
Here’s what herbs and vegetables you could grow in your garden for this recipe – Dill, Parsley, Rosemary, Thyme & Onions
Succession Planting Made Easy – A Step-by-Step Guide for Every Garden
Transform your garden with succession planting. Learn how to create a continuous harvest of fresh vegetables, herbs, and flowers throughout the growing season.
Young Green Beans with Dijon Vinaigrette
Whether you have a bounty of young green beans from your garden, or have gotten a great deal at the Farmer’s Market – here’s a quick and simply delicious way to make them into a very memorable side dish that will be talked about! The French name for the classic, tender green bean or filet bean is “haricots vert”. If you are looking for them at the market, look for young, slender and tender green beans that have just the faintest hint of the bean when you feel the shell.
Here’s what could come out of your garden for this recipe – Green Beans and Green Onions!
People often come back for second servings when they discover how delicious this unusual flavor combination is, so consider making extra!
Lemony Green Beans
Green beans can be a blessing in disguise – they are a welcome addition to the dinner table in the spring when they first arrive, but can soon wear out their welcome as their prolific nature is truly shown. Just how many ways can they be prepared without being the dreaded green vegetable on the plate?
We love them this way; a very simple, easy and fast way to make them unique and delicious. They can easily balance a rich roasted chicken or grilled meats, but also add to a fish or seafood plate.
Consider this a base for exploring several different directions with the green beans – using toasted almonds, sauteed garlic and even taking the grated Parmesan approach and adding pasta for a light summer evening meal.
Here’s what could come out of your garden for this recipe – Green Beans and Green Onions!
Blanching the green beans in boiling water keeps them from being over-cooked when sauteing them with the shallots.
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.