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A free flowing spreadable product that is rich in soluble Calcium 19% and Sulphur 22%. A highly consistent product with a highly accredited purity level. Acid soils are naturally low in Calcium therefore where additional Calcium is needed; gypsum is an ideal source for these crops. Carrots are often grown in acidic soils to control cavity spot. In these conditions gypsum will reduce cavity spot and improve the quality.
The product has a unique blend of properties that contribute positively to the Cation Exchange Capacity (CEC) and nutrient storage in the soil. This relationship between the elements of Calcium, Magnesium, Potassium and Sodium as positively charged ions plays a very important role in modern day crop production. In potato and carrot production we have successfully seen a series of benefits to our customers.
See below for a list of further wide ranging benefits when used in crop production:-
Gypsum provides calcium, which is needed to flocculate clays in soil. Flocculation is the process in which many individual small clay particles are bound together in fewer but larger particles. This allows root growth and air and water movement.
Gypsum is the most economical way to reclaim saline soils. The calcium replaces the sodium held on the clay-binding sites. The sodium can then be leached from the soil as sodium sulphate to an appropriate sink. The sulphate is the residue from the gypsum.
Gypsum can prevent crust formation on soil surfaces which result from rain drops or sprinkler irrigation on unstable soil. The gypsum is either surface applied or put in the irrigation system. Prevention of crust formation means more seed emergence, more rapid seed emergence, and easily a few days sooner to harvest and market.
Irrigation water from rivers that no longer have sources of leachable salts either penetrates poorly into soil or causes soil particles to degrade, which results in low water penetration. This can be corrected with the use of gypsum.
Soil compaction can be prevented by not ploughing or driving machinery on soil when it's too wet. The compaction in many soils can be decreased with gypsum, especially when combined with deep tillage. Combination with organic amendments also helps, especially in preventing return of the compaction.
Soils that have been treated with gypsum have a wider range of soil moisture levels where it is safe to cultivate without danger of compaction or deflocculating. This is accompanied with greater ease of tillage and more effective seedbed preparation and weed control. Less energy is needed for the tillage.
Gypsum improves water infiltration rates into soils and the hydraulic conductivity of the soil. It is protection against excess water runoff from especially large storms that accompany erosion.
Gypsum improves the ability of soil to drain and not become waterlogged due to a combination of high sodium, swelling clay and excess water. Improvements of infiltration rate and hydraulic conductivity with use of gypsum add to the ability of soils to have adequate drainage.
Gypsum is a source of calcium which is a major mechanism that binds organic matter to clay in soil. This gives stability to soil aggregates. The value of organic matter is increased when it is applied with gypsum.
Gypsum increases the beneficial effects of water-soluble polymers used as amendments to improve soil structure. Just as with organic matter, the calcium in the gypsum is the mechanism which binds the water-soluble polymers to the clay in soil.
In soils having unfavourable calcium: magnesium ratios, such as serpentine soils, gypsum can create a more favourable ratio.
Gypsum can improve some acid soils even more then lime. Surface crusting can be prevented. The effects of toxic soluble aluminium can be decreased, even in the subsoil where lime will not penetrate. It is then possible to have deeper rooting with resulting benefits to the crops. Gypsum is now being widely used on acid soils.
Gypsum increases water-use efficiency of crops. In times of drought, this is extremely important. Improved water infiltration rates, improved hydraulic conductivity of soil and better water storage in the soil all lead to deeper rooting and better water-use efficiency. From 25 to 100 percent more water is available in gypsum-treated soils due to less runoff.
Calcium, which is supplied in gypsum, is essential to the mechanisms by which most plant nutrients are absorbed by roots.
Calcium acts as a regulator of the balance of particularly the micro nutrients, such as iron, zinc, manganese and copper in plants. It also regulates non-essential trace elements. Calcium prevents excess uptake of many of them, and, once they are in the plant, calcium keeps them from having adverse effects when their levels get high.
Gypsum adds to the value of organic amendments. Blends of gypsum and organics increase the value of each other as a soil amendment.
Good vegetable quality requires an adequate amount of calcium. Calcium moves very slowly, if at all. Calcium must be constantly available to the roots. This is especially true in very high pH soils. Gypsum is preferred over lime for potatoes grown in acid soils so that scab may be controlled.
Gypsum contains sulphate, a natural form of sulphur which is readily available for soil needs and plant up-take. This replenishes the sulphur which is no longer being added to the soil due to the use of high-analysis fertilisers, which contain very little, if any, sulphur.
A liberal application of gypsum is a good procedure when starting a piece of land into no-till soil management or into pasture crops. Improved soil aggregation and permeability will last for years and surface-applied fertilisers will more easily penetrate into the soil.
Gypsum-treated soil has a lower bulk density compared with untreated soil. Organics can decrease it even more when both are used. The softer soil is easier to till and crops respond better.
Gypsum can improve the response to all other inputs, including fertilisers. It more than adds to their beneficial effects - it multiplies them.
Gypsum can help keep clay particles from adhering to the roots of crops like potatoes, carrots, parsnips and sugarbeet. This is cost-saving especially at harvest time.
Calcium from gypsum can help decrease volatilisation loss of ammonium nitrogen from applications of ammonia, ammonium nitrate, UAN, urea, ammonium sulphate, or any of the ammonium phosphates. Calcium can decrease the effective pH by precipitating carbonates and also prevent ammonia loss to the atmosphere by forming a complex calcium salt with ammonium hydroxide.
Gypsum-for various combinations of the above effects-can substantially increase crop yields. From 10 to 40 percent is very common.