W inter rains fill soil with water and, in most soils, this drains away. Clay soils, however, retain water thanks to the fine clay particles that hold onto water. The soil only starts to dry out in spring by evaporation from the surface, which can take until mid-late spring. At this point, if the weather is dry, the soil quite quickly bakes into a hard mass that often cracks, forming deep fissures.
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On the downside, there is a relatively narrow window of opportunity to sow and plant in spring. The limited planting time means that good planning is needed to plant at the right time. Planting is much more suitable for clay soils than sowing. T he self-digging aspect of clay soils makes them well suited to no-dig gardening.
By avoiding digging and by mulching more, worm activity assists the drying cycles to make a very fertile soil.
Clay soils / RHS Gardening
The return of rain in autumn often creates a second opportunity for planting before the soil gets saturated and unworkable over winter. Clay soil is easily and seriously damaged by treading or working when wet. Clay soil has very good fertility and needs less fertiliser than other soils.
Manuring and mulching is often sufficient to keep up fertility. In addition, this will enhance soil structure and is preferable to adding sand or grit. This must be added in heroic quantities to make a difference and, if too little is applied, can damage the soil fertility.
Adding gypsum helps some but not all clays. Add on a small scale at first and watch for any clumping into crumbs — a sign of improving structure.
And it seems like wherever I move, I get stuck with clay. By comparison to the clay in my old garden, the soil at my home now seems almost ideal. But it's clay nonetheless, and I've had to work diligently to upgrade the soil. Not that the soil isn't perfect to be ecologically correct for its intended use. My part of the county isn't called the Big Woods without reason, and the clay soil in my back yard will grow some awesome oak, maple, poplar, and hickory, without special treatment of any kind.
But try to kick a spade into the ground, and you're asking for a sprained knee. If you face a similar problem, don't fret. Whether your soil has more or less clay than mine, so long as you understand what you're working with and keep at it over the years, adding organic matter and treating the soil structure right, you can get the better of clay soils and enjoy a productive kitchen garden. If your ribbon measures less than 1 inch long before breaking, you have loam or silt. If your ribbon measures more than two inches long before breaking, you have clay.
Before you try to manage the clay soil in your home garden, it helps to have a bit of background in soil mineralogy. The mineral fraction of a given soil consists of sand, silt, and clay particles. Clay particles are the smallest of the three, silt are intermediate in size, and sand, the largest. Clay particles, bound end to end and side to side in extensive planes, are stacked in a sandwichlike matrix and held together by electrochemical forces. This platelike stacking of horizontally arranged clay particles results in a large surface area.
Because individual clay particles are negatively charged, they have the capacity to attract and hold onto, or adsorb, positively charged elements called cations such as ammonium, potassium, calcium, magnesium, and other trace elements. Clay soils are relatively fertile because of this capacity to adsorb these important plant nutrients. Conversely, the single, uncharged sand particles in sandy soils lack the capacity to adsorb cations and thus they contribute very little to soil fertility.
Soil texture is an inherent property that you cannot change. Instead, direct your efforts toward improving soil structure. Soil texture —The textural designation of a soil is determined by its relative portions of sand, silt, and clay particles, and indicates which of the three most influence the soil's properties. Sand, silt, and clay soil properties are obviously dominated by those respective fractions. For example, clay soils generally more than 40 percent clay are often poorly drained.
On the other hand, well-drained loam soils are mixtures of sand, silt, and clay in roughly equal proportions, and are well drained. A sandy loam, however, has much more sand and much less clay than does a clay loam. Soil structure —Soil texture is an inherent soil property that you as a gardener cannot change except through extreme interventions. Instead, you should direct your efforts toward improving soil structure.
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Soil structure is defined by the manner in which soil particles are assembled as aggregates. In clay soils, clay particles are typically arranged along a horizontal plane in a platelike structure. When these horizontal aggregations are stacked high and consolidated over time, they can be quite tight and sticky. Your aim in improving soil structure is to achieve a looser, more crumbly or granular structural aggregation. A soil with the latter structure has a friable consistency and good tilth.
Tilth —Tilth is the physical condition of the soil as it relates to ease of tillage, seedbed quality, ease of seedling emergence, and deep root penetration. A soil that drains well yet has water-holding capacity , does not crust, takes in water rapidly, facilitates aeration, and does not make clods is said to have good tilth.
And with the right management strategy, good tilth is achievable in a clay soil. My initial management strategy centered on adding as much organic matter as deeply as I could, because, generally, the application of organic matter to soil improves both structure and tilth, and contributes to improvements in overall soil health. My long-range management strategy attempts to build available organic carbon and humus and to promote nutrient cycling through regular applications of compost, manure, and other organic matter, the incorporation of cover crops as green manures, rotations that include grasses and legumes, and reduced tillage.
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Organic matter builds soil tilth in a couple of ways. First, the organic matter coats soil particles, physically separating clay particles and aggregates from each other. Second, and more important, microorganisms that degrade organic matter produce byproducts called glomalin that bind individual clay particles together into aggregates.
Particle aggregation in the topsoil reduces crusting, increases the rate of water infiltration, and reduces erosion and runoff. Though my ultimate goal continues to be to increase soil organic matter content in the garden, I was less concerned initially with the numbers than I was with achieving the benefits described above. I understood that in southeastern soils, it would be very difficult to increase the percentage of organic matter in the soil very quickly.
For one thing, even large amounts of organic matter initially incorporated in the soil will rapidly break down. The organic matter fraction remaining may resist further degradation for years or even decades, but stable increases in this fraction, called the humic fraction or humus, occur very slowly.
Thus, any increase in stable organic matter is necessarily a long-term goal. Composts are integral to my clay soil management plan. Because of the humified nature of compost and its low concentrations of oxidizable carbon and available nitrogen, compost is relatively resistant to further decomposition, and additions of compost to the soil over time can increase the soil's organic carbon and humic matter content.
I add compost not so much to provide nutrients as to provide stabilized organic matter that will improve the physical properties of the soil. Read articles about composting …. I'm fortunate to have a commercial compost supplier close by my home, so I can take advantage of very reasonable bulk pricing, along with a guaranteed chemical analysis that allows me to apply the compost at appropriate rates.
There is absolutely no way I could have built a garden in my clay soil without the cubic-yard tandem truckloads of compost that rolled onto my property. Moving that compost one wheelbarrow load at a time to my vegetable and flower beds is a weekend ritual.
The incorporation of the compost into the soil has been more problematic. During the initial, pre-garden phase of my soil improvement plan, I managed to break up 10 inches of hard-packed clay with endless swings of my trusty mattock. I spread compost over the surface of the beds an inch at a time and rototilled it in. I was careful not to work the clay when it was too wet, because clay worked wet can result in some tenacious clods, very reluctant in their willingness to ever come apart again. I tried to work the compost deep into the soil, and along with it, I added lime and phosphorus, the clay soil in my garden needing both.
When surface-applied, neither of these materials moves down through the soil, so incorporation to ample depth is very important to permit roots to grow into the subsoil. After 3 to 4 inches of compost, I had the "raised bed" I wanted. I called it quits for the time being and planted my garden. In the years since, I have been back through most of the beds several times with the mattock and more compost, trying to get organic matter and lime incorporated deeply to break up the "seal" that forms between amended and unamended soil, and to get my beds raised back up.
It's readily apparent that organic matter decomposes very quickly in the vegetable beds. In spite of all the amendments, the beds no longer seem "raised," and there's not much visible evidence of all the compost I've added. However, I can tell by the color, now a dark brown instead of red, and by the aggregation of the soil particles into a crumbly structure of a kin with coffee grounds that humus is accumulating.
Reworking a bed is always a fall practice when my rotation calls for fall-planted garlic or when potatoes or root crops will be planted early the following spring. I just can't count on the beds being dry enough in spring to work the clay deeply without messing up the structure I've worked so hard to build. Along with adding compost, a second strategy for adding organic matter to my clay soil is cover cropping. I plant cover crops any time the beds in my garden would otherwise be unplanted or fallow.
Fallow periods provide little additional organic biomass while allowing the decomposition of organic matter in the soil to continue. Cover crops provide me with a variety of services. They contribute to the improvements in soil structure that I described earlier. They reduce erosion and increase infiltration. And they can smother weeds and even suppress weed seed germination. Many cover crops will also suppress pathogenic nematodes, for example root knot nematode.
I take a machete and scalp the cover crop at the surface, killing it but leaving the biomass in place. Leguminous cover crops can fix significant amounts of nitrogen for use by subsequent crops. Through symbiotic associations with legumes, Rhizobia bacteria convert atmospheric nitrogen into an organic form that legumes use for growth. How much fixation depends on the length of the growing season, the local climate, and soil conditions.
Clay soils
Nonleguminous cover crops, principally grasses or small grains, do not fix atmospheric nitrogen, but can be effective in recycling residual soil nitrogen remaining in the root zone at season's end, reducing leaching losses from the soil during the winter months. I often plant mixtures of grasses and legumes in the fall to reap the benefits of both. This past fall I planted hairy vetch and cereal rye, a proven mixture here. Crimson clover and rye or oats also do well in my area. In mid-May, I become a terminator, literally putting these annual plants down to prepare the beds for summer vegetables.
By then, the winter cover crops have provided my annual organic matter addition, as well as enough nitrogen fertilizer to grow my summer crops. Because of the many benefits that accrue to soil quality, it is clearly in your short-term interest to incorporate organic matter regularly and deeply, at least when beginning the process of whipping a clay soil into shape.
Soil particle aggregation and aggregate stability, water holding capacity, drainage, nutrient retention, and plant root growth are all increased when organic matter is incorporated. However, major losses in soil organic matter content can take place when the soil is inverted or mixed annually by tillage. Extensive tillage stimulates microbial activity gives the little guys an appetite, so to speak , and the consumption of mass quantities of organic matter ensues. After your clay soil becomes more friable and you have provided a deep root zone for your garden plants, you should consider reducing tillage.
Switching to a minimum-till system increases soil organic matter, soil organic carbon, total nitrogen, and soil microbial biomass carbon and nitrogen content, especially at the surface and in the top 2 to 4 inches. Because the soil remains undisturbed, fertilizers and other soil amendments do not become homogenized in the tillage layer.