Blog

18 Mar

cover crop 2As OrganiCalc gets older and more experienced, she is getting more conservative 🙂 We’ve lowered the phosphorus target from 500 lbs per acre to 250 lbs per acre.

Many organic gardeners and market gardeners get their nitrogen from compost and compost contains a lot of phosphorus. We’ve lowered the phosphorus target so that growers may continue to add compost without getting into a situation where they have too much phosphorus.

Phosphorus is a different animal than the other minerals. It’s an anion, so it doesn’t compete with cations for space on the cation exchange sites. All the other anions, Sulfur, Boron, Nitrogen readily leach. Phosphorus sticks around. And importantly, phosphorus most readily enters the plant via the biological pathway. It takes a highly biologically active soil to make phosphorus readily available. That’s why we recommend adding rock phosphate to the compost pile.

We are all concerned about keeping phosphorus out of waterways where it can cause eutrophication via algae blooms that use up all available oxygen. Phosphorus and phosphates bind tightly to soil, so the main way that phosphorus gets into the waterways is through erosion. Mulches, cover crops and proper grading are good ways to control erosion.

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15 Mar

DeathValley artists drive

We’re in for another very dry year in California and much of the American West. Snowpack levels are extremely low in the Sierras. Rainfall has been a fraction of normal. A state of emergency has been declared in California and parts of Oregon and Washington. Water will be expensive, not very good and we’re almost sure to see water rationing. It’s not as bad as the photo of Death Valley above, but we’re in for a very dry summer. What can a gardener do?

  • Keep the mulch on. Mulch is your number one line of defense against soil moisture loss (more about that later).
  • Drip irrigate. We give our veggies extra water by hand when they are getting established or flowering, but our plants really appreciate the slow, deep watering that drip can provide.
  • Give your plants the most fertile soil you can. Get the minerals balanced and get the soil biology going. If you haven’t set up your bokashi vermicompost system, now might be just the time.
  • Mycorrhizae are your plants friends. If you don’t already have a relationship with arbuscular mycorrhizal fungus, you’ll want one now. (more about that later too).
  • Consider shorter season varieties, and drought tolerant Mediterranian veggies. This may not be the year for a big patch of late season sweet corn.
  • Consider sunken, not raised beds. While raised beds are intensive, they lose moisture from the sides and constrict plant roots. Sunken or flat beds hold water and allow your plants roots to spread out.
  • Greywater systems are legal in California. A washing machine system can be installed legally without a permit and can result in a very happy tree or landscape.

What to mulch with?

Organic mulches that decompose into the soil are the best for the soil biology and the long term health of the garden. Unfortunately we need to be very cautious with the materials we buy or bring into our gardens. There is a real danger that contaminated compost, manure, straw, hay or grass clippings will destroy your garden and keep you from growing veggies for years. We know this from experience! Read on!

Test Unknown Materials!

Sadly, some very toxic and persistent broadleaf herbicides are being used on grass family crops, golf courses, in ditches and under power lines. The first reported garden contamination occurred in England. Gardeners were using manure from herbivores pastured on land treated with these herbicides, and the compost made from the manure was killing their tomato and other vegetables. Another instance was in Seattle. The herbicide contaminated materials passed through a commercial composting operation, and ruined people’s gardens for years. These material also have contaminated straw from eastern Washington, where these herbicides are used to control Canadian thistle. These very persistent herbicides have the capacity to contaminate straw, hay, compost and grass clippings. They can pass through an animal intact and contaminate their manure. If these contaminants get into your garden they will stunt and kill your plants for years! If you are bringing in mulch materials that you don’t know the full history of, it pays to test the materials before risking your garden.

The herbicides are Picloram, Clopyralid and Aminopyralid but they are sold under the trade names of:

  • Picloram – sold as Tordon, Access, Surmount, Grazon, and Pathway.
  • Clopyralid – sold as Curtail, Confront, Clopyr AG, Lontrel, Stinger, Millennium Ultra, Millenium Ultra Plus, Reclaim, Redeem, Transline.
  • Aminopyralid – sold as Milestone, Forefront, Pharaoh, Banish.

We use this procedure to test any imported material:

  • Make a five gallon bucket of tea by soaking the material in water.
  • Water a labeled tomato plant with this tea for a couple weeks.
  • If the plant is still healthy, you are good to go.

Better yet, also maintain a control.

  • Make a bucket of tea using a similar material from last year that worked well in the garden.
  • Water a labeled control tomato plant for a couple weeks.
  • Compare the control plant to the plant watered with the new material.

The following alternative procedures are widely reported on the internet.

To test compost or manure…

  • Thoroughly mix 1-2 parts manure, compost or soil with 1 part commercial potting soil in a clean bucket. Prepare enough to fill three 4-inch pots.
  • Fill another three clean pots solely with commercial potting soil. These will be the untreated comparisons.

  • Place each of the pots in a separate saucer to prevent water from on pot reaching another.
  • Water the pots and leave to stand for 24 hours.
  • Plant each pot with three pea or bean seeds.
  • Observe subsequent growth for four-week period and note any ill effects in the pots containing the possibly contaminated mix, such as cupped leaves, fern like growth on new shoots or twisted stems. These symptoms may indicate picloram, clopyralid or aminopyralid residue in the manure, compost or soil.

To test straw, hay or grass clippings…

  • Fill 6 clean pots with commercial potting mix. Three will be for your tests and three will be controls.
  • Place each of the pots in a separate saucer to prevent water from on pot reaching another.
  • Water the pots and leave to stand for 24 hours.
  • Plant each pot with three pea or bean seeds.
  • Soak the clippings, hay or straw in a clean bucket making a tea colored brew. Use this brew to water your three test pots and regular water for your control pots.
  • Observe subsequent growth for four-week period and note any ill effects in the pots containing the possibly contaminated mix, such as cupped leaves, fern like growth on new shoots or twisted stems. These symptoms may indicate picloram, clopyralid or aminopyralid residue in the hay, grass or straw.

In both tests there is a possibility that your pea or bean plants will not do well for reasons other than herbicide residue. Photos of herbicide contamination are on this Washington State University website.

mulched parsley

Mulch materials

In the vegetable garden we use a layer of compost or “proto-compost” (for example, garden waste or mushroom compost that hasn’t fully broken down yet – see picture at right) as a local mulch around the plants. The density of compost and proto-compost is good for holding moisture around seedlings or transplants and the part in contact with the soil gives the soil biology something to munch on.

Note: We don’t use vermicompost as a mulch — it belongs in moist soil below or near plant roots where the microbes in it can spread out and multiply.

Over this we spread a hefty layer of straw. Straw is the stem of grain plants (oats, barley, rice) after the seeds have been removed. Straw is not the same as hay. Hay is the stem and the seeds of plants and is usually grown as a feed for animals. The seeds in hay, even rotted hay, happily sprout and grow in the moist conditions under the mulch.

We also use a thin layer of broken down straw to cover the dirt over newly planted seeds (last years straw works well for this). The bits of straw keep the sun off the soil and help keep it from drying out and crusting over.

Leaves make a great mulch, as does pine “straw” (fallen pine needles).

Grass clippings are dangerous! They have enough nitrogen to heat up and literally burn your plants if fresh clippings are used. Dry your clippings before use or keep them a few inches away from the plants.

Wood chips do not work well in the vegetable garden near the plants. They are great for mulching paths, and around raised beds if you got ’em. The problem is that when they decompose, they tie up nitrogen, and nitrogen is one of the most difficult nutrients to make available in an organic garden. The same is true for sawdust.

We saw one very inspiring YouTube of a man in Washington state who mulched his entire garden with wood chips. It looked great and the plants looked great. Then he let it slip — he’d put a 6″ layer of composted chicken manure under the wood chips. Chicken manure is one of the highest nitrogen manures around. Apparently it had enough nitrogen to supply the decomposing wood chips and grow a good garden.

Ideally every part of the garden will be mulched, including the paths and surroundings. There is something to be said for the communication that happens between plants when all of the soil is covered.


Arbuscular Mycorrhizae to the Rescue!

Under the right conditions many plant species will form a symbiotic relationship with a type of soil fungi (arbuscular mycorrhizae or AM). The fungi penetrate the roots of the plants and grow out into the soil, bringing back minerals and water for the plants. The plants in turn feed the fungi carbon. The fungi acts like a second set of roots, providing some degree of drought tolerance.

AM tends to be comparatively sparse in soils with adequate minerals and moisture, probably because under abundant conditions the plants are not feeding them carbon to stimulate their growth. For those of us who keep our soil well mineralized and moist, AM are our insurance policy. If anything comes up short, our plants can send out the AM to get it.

Tilling (plowing, rototilling, spading, etc.) breaks up the fungal strands, but they grow back in about a month.

About 80% of plant species form an association with AM. Garden plants that do not are:
Cabbage, broccoli, cauliflower, radishes, turnips, kale, bok choi, and other plants in the brassica family.

Endomycorrihzal fungi is sold in a powdered form for inoculation of soils. We have not been able to tell one way or the other whether the inoculant works.

arbuscular-mycorhizae
Close-up of arbuscular mycorrhizal fungi connecting roots of plant hosts. Photo credit: Yoshihiro Kobae

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06 May

parsleyHello friends,
We are looking for some feedback. How did your garden (or farm) grow last year? Can you send us a short email?

Last year at Grow Abundant Gardens we did about 1000 OrganiCalc recommendations. We’ve heard of good results from some of you. We are very interested in all of your experiences.

We have improved OrganiCalc substantially since we introduced it about 16 months ago. Nitrogen, a key ingredient, was listed with the other recommendations early on. Our latest improvements include an option to reduce the phosphorus target by 50% in order to save cost on large areas.

We have also introduced a new responsive web site and a new General Mineralization Recommendation document.

Thanks for your support.

Good growing!
Erica and Alice

PS You can use the contact form here if you like!

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26 Oct

Grandmothers come in all shapes and forms but genetically speaking, we all have two of them; one is our mother’s mother and the other is our father’s mother.  Each of them has or had two grandmothers, giving you a total of four great great grandmothers.  This number of great grandmothers grows exponentially back in time.  Take it back 300 years and you have (at the conservative rate of four generations per century) 64 grandmothers.  Take it back 2000 years and you have over a million grandmothers.  Chances are that they are not all unique, since quickly we find that we have more grandmothers than people alive on the Earth at a given time.

A healthy population is a genetically diverse population.  We share the genetic material of a great number of ancestors, and we have a large library of genetic material to call upon when times get tough.  We are presently experiencing a great decline in the number of vegetable varieties as the old open pollinated varieties are lost in favor of a few highly producing hybrids. What will our grandchildren do without all the vegetable grandmothers?

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31 Aug

Isn’t the addition of compost and organic matter enough to grow a great garden?

Unfortunately this is a myth.  We were compost gardeners for years, well, decades actually.  While we were able to improve the tilth and organic matter content of our soil, we often had crop failures or “bad years” or bug and disease problems.  Since we eat mainly from our garden year round, we really notice when our gardens lacks something.  It was not until we began a system of soil mineral balancing that our garden really began to flourish. 

Compost and organic matter can only add a few of the elements plants need and only certain proportions.  By balancing the soil minerals, the compost can do what it does best – create a soil life that is able to break down the minerals and make them available to the plants.   

A thriving soil life is essential for a good organic garden, but it must be backed up by the minerals plants need in the proportions that they need them.

Is Soil Mineralization “Organic”?

Yes. The mineral amendments we recommend are all on the OMRI (Organic Materials Review Institute) list of materials approved for certified organic production.

Is Soil Mineralization sustainable?

Industrial agriculture is probably the least sustainable of all life-critical systems, relying on large inputs of oil, industrial chemicals, and government subsidies while mining the world’s topsoil and sending fertility accumulated over eons down the river. On the other end of the scale, permaculture is touted to be sustainable, requiring a minimum of inputs, but in fact has not had the test of time or pressure to produce that full scale farming has. Plants need certain minerals to be available in certain quantities in order to grow to their fullest potential and so mineralization, or re-mineralization (of worn-out soil) is necessary in nearly all places where land is available to be used for small scale growing. With proper recycling of plant materials, and proper treatment of the soil biology, a garden can produce for years with minimal inputs. It does, however, take mined or manufactured minerals to get it to the point where it can be productive and sustainable.

Is Soil Mineralization related to permaculture?

Permaculture or permanent agriculture is a system devised to maintain and improve productivity of an agricultural system, with minimal inputs from outside the system. However, often times a system may not contain the elements needed for optimum plant health, in the right proportions. And, these elements change with time, due to soil leaching from rain or irrigation, even if all crop residue and manures are recycled back into the system. Transmutation (creation of one element from another, such as creation of gold from lead) does not occur in the garden! While a permaculture system may lessen the need for the addition of mineral soil amendments, it does not lessen the need to test for soil mineral balance and adjust as necessary.

Does this mean I have to do math?

Thank goodness, no!  Given your soil test results and the area you need to amend, we recommend the weight of the amendments you will need.  We’ve done the math for you!

 

What time of year should I test my soil?

Ideally you should test at the same time every year. That is, unless you want some data at other times of the year. Generally, nutrient levels will be lowest in the fall (on sandy soils this is especially noticeable as they don’t hold many nutrients), after the garden has converted nutrients into food. Sodium and EC levels will be at their highest if it has been dry. Just as rain will carry salts lower into the soil, transpiration and
evaporation will bring dissolved salts to the surface.

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