GB2094774A - Clay-breaking and fertilizing composition - Google Patents

Abstract

A clay-breaking and fertilizing composition comprises a finely ground mixture of chicken manure, muriate of potash and a rock phosphate having a high limestone content and containing the phosphate in the form of the basic tricalcium diphosphate. When spread on heavy, clay soils of compacted ground and watered, the composition breaks up the soil and fertilizes it such that, after two to three months the soil is friable and immediately ready for crop cultivation. The composition is also usable in a stratified cultivation bed, particularly for desert reclamation, comprising an impermeable tank, a bottom layer of wood shavings or the like which can be supplied with water, a perforated plastics sheet covering the shavings and a top layer of growth medium comprising the above fertilizing composition mixed with sand.

Description

SPECIFICATION Clay-breaking and fertilizing composition The present invention relates to a fertilizing composition, to a method for its use in breaking up and fertilizing compacted and heavy soils, such as clay, and to a moisture-retaining, stratified bed for plant cultivation which makes use of the fertilizing composition.

Clay is an extremely fine-grained, hydrated and water-retaining material which is very difficult to work, from an angricultural point of view, because of its close, heavy texture and its infertility, the latter being due to its high acidity and low air-content which prevent the bacterial activity which breaks down less acid soils. Since clay, or heavy soils with a high clay content, cover wide areas of the countryside, farmers have been attempting to find easy methods of improving their structure and fertility for centuries but, until now, improvement has been achieved only by laborious mechanical breaking of the clay surface and repeated application of alkaiine materials, such as lime, to reduce the acidity, and manure to increase the humus content and improve the texture.

Other soils which have become compacted, for example as a result of the use of heavy vehicles thereon, provide similar problems when it is desired to use them for agricultural purposes.

The present invention seeks to provide a new composition particularly for use in improving compacted ground or heavy soils having a high clay content, quickly and easily, together with a method for its application. Accordingly, the invention provides, according to one aspect, a fertilizing composition comprising an intimate mixture of calcium carbonate, basic phosphate, water-soluble potash and dried protein-rich manure, preferably chicken manure.

According to a further aspect of the invention the composition is applied to an area of compacted ground, the surface is watered and the composition is left to act on the ground, when it is found that the composition reacts in a surprising manner: the ground surface cracks, possibly due to an exothermic reaction which occurs within the composition when it is wetted, or between the alkaline composition and the acidic clay, and the composition then seeps through the cracks into the body of the clay. Here it is thought that the reaction continues and gases are evolved, possibly including or comprising carbon dioxide from the calcium carbonate and ammonia from the chicken manure.Certainly the clay structure is broken up and its acidity is reduced so that air can permeate the body of the clay; this, combined with the reduced acidity, allows bacteria to flourish, further improving the structure of the material.

The basic phosphate in the composition is preferably insoluble or sparingly soluble in water such that it releases its phosphate content in the soil only over a prolonged period to provide long-term fertility. The phosphate is conveniently a calcium phosphate which is readily obtainable in the naturally occurring form of rock phosphate; such natural phosphates have the added advantage of containing trace elements which are also essential for plant growth.

Many rock phosphates also contain calcium carbonate which is another major ingredient of the present composition. The calcium carbonate and phosphate are preferably used in a weight ratio of substantially 1:4. Since rock phosphates do not generally contain such a high carbonate content, additional carbonate compounds may be added to the rock phosphate but a preferred embodiment of the invention makes use of rock phosphate from the Gafsa Mines in Tunisia which contains the preferred proportions of carbonate to phosphate, the latter being present in the form of tricalcium diphosphate Ca3(PO4)2.

The potash may be any of the soluble potash compounds commonly used as fertilizers, but is preferably muriate of potash (potassium chloride).

It will be appreciated that, in addition to the contribution which the dried manure makes to the initial breaking up of the clay or compacted ground, it is also a useful fertilizer, providing nitrogen needed for healthy plant growth and fibre to improve the soil structure. Its high protein content is also found to be useful.

The proportions of the basic ingredients in the present composition may be varied widely but, in order to provide a balanced fertilizer and to ensure that the ingredients react sufficiently to provide a useful breaking-up effect on a compacted soil, the composition preferably contains not less than 20% by weight of dried manure, not less than 6% by weight of potash compound and not less than 20% by weight of the carbonate/phosphate combination in the 1:4 ratio mentioned above. Preferred upper limits for the ingredients are 60% by weight for the manure and for the carbonate/phosphate combination and 35% by weight for the potash compound.

The composition according to the invention may further include an inert diluent, such as silica sand, preferably in quantities of no more than 1 part by weight of sand per 2 parts by weight of the fertilizer mixture.

In addition to the use described above, the fertilizing composition of the invention may be used on any barren or infertile land, such as moorland, slag heaps or sand to improve its fertility.

In particular, according to a further aspect of the invention there is provided a stratified bed for plant cultivation comprising a water-impervious trough, a layer of substantially waterinsoluble, granular material located on the base of the trough, a water-permeable sheet covering the granular layer and a layer of cultivation medium comprising or including a fertilizing composition, as described above.

The stratified bed of the invention is of particular use in areas with irrigation problems, for example due to low annual rainfalls; it is envisaged for example, that it will be of widespread application in desert areas for land reclamation.

In use, water may be supplied to the layer of grannular material where it will form an artificial water table, being prevented from draining away into the subsoil by the impermeable tank base and sides. The water level should not, however, be allowed to rise so that its upper surface is within the culture medium as this could damage the plant roots; the water level should, instead, be slightly below the permeable sheet so that it can permeate through the granular layer and sheet into the base of the culture medium. From there it will rise by capillary action through the medium to supply moisture to seeds or plants planted therein.

The culture medium preferably comprises a fertilizing composition as described above diluted with an inert material, such as sand; for this use, up to nine parts by weight of sand per one part by weight of the manure/phosphate/potash/carbonate mixture may be used.

The granular material may be stone chips, gravel or rubble but is preferably a porous material, such as wood, in the form of shavings, chips or sawdust.

The permeable sheet is preferably perforated and is conveniently a plastics sheet. The trough may also conveniently be of plastics material and may be substantially rigid or of flexible sheet material, in which case the side walls may be supported by an external casing or simply by being located in a trough dug in the ground.

According to a further aspect of the invention there is provided a method of plant cultivation including forming a structured bed and supplying water to the layer of granular material to a level below that of the pemeable sheet but such that the water permeates through the granular layer to the permeable sheet and can rise through the cultivation medium by capillary action to supply moisture to seeds or plants planted in the cultivation medium.

Several embodiments of the invention will now be more particularly described by way of example with reference to the accompanying drawings in which: Figure 1 is a scanning electron micrograph of clay particles; Figure 2 is a scanning electron micrograph of clay particles after treatment with a fertilizing composition according to the invention; and Figure 3 is a vertical section through a stratified plant-cultivation bed according to the invention.

EXAMPLE 1 Clay-breaking and fertilizing composition Approx. % Parts by Sub- Constituent weight in Ingredient constituents by weight composition A Gafsa Rock Phosphate CaO 49 7 P205 29.9 CO2 6.6 SiO2 3.2 SO3 3.6 Other 7.7 Muriate of Potash K20 60 3 Dried, ground Crude Protein Chicken manure 23.4 7 Crude Fibre 14.0 Ether Extract 2.1 Total Ash 29.6 Silica 0.6 Calcium 8.7 Magnesium 0.5 Potassium 1.7 Sodium 0.6 Phosphorus 1.68 Washed silica sand 3 The rock phosphate is ground to British Standard Seive 300 and mixed with the other dried, ground ingredients. The phosphate and potash contents are given in the usual manner for fertilizers, in terms of the quantities of useful ingredients made available to the soil.The lime (CaO), phosphorus pentoxide (P2O5) and carbon dioxide (CO2) are present in the rock phosphate as calcium carbonate and phosphates, in this case mainly tricalcium diphosphate, in a weight ratio of approximately 1:4. As is seen from the analysis, the rock also contains silica and/or silicates (SiO2), sulphates (given as SO3) and small quantities of other minerals, including many trace elements which are essential to plant growth. The potash is in fact, essentially potassium chloride but this may be replaced by potassium sulphate, particularly for use of the composition on land which is destined for afforestation or fruit growing.

The silica sand is present as a diluent to facilitate spreading of the material and to ensure that the concentration applied to individual areas is not too high. The fertilizing components may, alternatively, be mixed with sand, soil or other suitable medium, immediately prior to use.

Example 2 Use of the composition of Example 1 on compacted ground or clay; The ground to be treated is first cleared of surface vegetation and skimmed of surface soil, if necessary, to leave the subsoil, such as clay exposed; tht exposed surface is levelled as much as conveniently possible. The composition of Example 1 is then spread on the ground surface at a minimum density of 270 g/m2, the ground is well watered and then left.

An exothermic reaction occurs and it is found that the compacted ground cracks allowing the composition to seep into the body thereof. The pH of the ground rises: in the case of clay the pH rises from perhaps 4 to 5 before the treatment to 6.5 to 7 after treatment.

After three to four months it is found that the ground has become friable to a depth of approximately 20-25 cm, warm to the touch and aerated, the total volume of the treated layer having been increased. In particular, when used on a light-coloured clay, it is found that the clay darkens in colour, becoming reddish-brown.

The inclusion of rock phosphate, including trace elements, potash and chicken manure in the composition ensures that the treated ground is not only of the right texture for crop growing but also contains the ingredients necessary for plant growth. The resulting soil is thus immediately suitable for planting with crops without ploughing or further application of fertilizer.

Referring to the drawings, Fig. 1 shows a scanning electron micrograph of untreated clay while Fig. 2 shows a scanning electron micrograph, at the same magnhication (700) as Fig. 1, of clay which had been treated with a composition similar to that of Example 1, two years previously. It is clear from the photographs that the structure of the treated clay is considerably different from that of the untreated clay. Indeed, the treated clay has a much fakir, with a larger exposed surface area than the compacted untreated clay, explaining the moe friable and aerated nature of treated ground.

Example 3 Referring to Fig. 3 of the drawings, a stratified plant cultivation bed is shown, not to scale, incorporating the fertilizing composition of Fig. 1.

The stratified bed includes a tank or liner 1 made from flexible sheet polythene, the base of which is set into the ground in order to provide support for the walls. The tank may be of any size but conveniently has a rectangular plan, 30 metres long by 1 2 metres wide, and a depth of 28 cm.

The tank 1 is filled with a mixture of sawdust and wood shavings 2 to a depth of approximately 1 5 cm. On top of the mixture 2 is layed a perforated polythene sheet 3 and this, in turn, is covered by a mixture 4 of sand or soil and the fertilizing composition of Example 1, in a 9:1 ratio by weight, to a depth of 8 to 10 cm.

A series of uprights 5, the lower ends of which are sunk into the ground around the tank 1 and, if necessary into the layers 2 and 4, with cross members 6 connected to their upper ends, support a further polythene sheet 7, of substantially the same size as the tank 1, over the top of the stratified bed. Edge portions of the sheet 8 hang down to the ground and are kept in place by soil or sand 9 from the surrounding area heaped against the potions 8. Any other means for tautening the sheet 7 over the framework provided by the uprights 5 and cross-members 6 may alternatively be provided.

In use of the stratified bed described above in a hot area, seeds are planted in the mixture 4 before the sheet 7 is located over the bed. Water, shown as 1 0, is supplied to the lower layer 2 to a depth of approximately 10 cm: the sheet 7 may then be put in place. Further water is supplied intermittently to the bed 2, as required in order to maintain the water level at approximately 10 cm.

Although the sawdust and wood shaving bed 2 is not completely filled with the water 10, the water will tend to soak into the upper part of the bed and, in addition, the hot surroundings will cause water to evaporate so that water or water vapour will permeate to the perforated sheet 3 and from there will be drawn up through the mixture 4, partly by capillary action. Water will thus be supplied to the seeds to enable them to germinate and grnw but will be prevented from being lost to the atmosphere by the top cover 7.

Clearly the atmosphere within the cover 7 cannot be kept permanently closed and means are provided for ventilating it as required.

The stratified bed of the invention thus allows plants to be grown, even in arid regions provided water can be made available, and it is envisaged that it will be very useful in reclamation of desert areas.

For use in a very hot area or high areas with a high ultra-violet light intensity, the upper cover 7 may be made of a material which transmits only a desired proportion of the sun's radiation in order to protect the plants from scorching. For cooler areas, a sheet 7 may be used which transmits visible and ultra-violet radiation but is less transparent to infra-red radiation in order to provide benefit from the "greenhouse" effect.

The sheet 7 and support framework 5, 6 may not be needed in some climates while, in cold climates, it may be necessary to fill the bed 2 with water 10 to a greater depth than that indicated above in order for sufficient water to permeate into the growth medium 4.

Claims (18)

1. A fertilizing composition comprising an intimate mixture of dried protein-rich manure, a water-soluble potash compound, a basic phosphate and calcium carbonate.

2. A fertilizing composition as claimed in Claim 1, including from 20% to 60% by weight of dried protein-rich manure.

3. A fertilizing composition as claimed in Claim 1 or Claim 2, in 'Ihich the manure manssee is chicken manure.

4. A fertilizing composition as claimed in Claim 1, Claim 2 or C5ain7 3, including from substantially 6% to 35% by weight of potassium chloride or potassium sulphate.

5. A fertilizing composition as claimed in any of the preceding claims, in which the phosphate and at least part of the calcium carbonate content are provided by a naturally occurring rock phosphate.

6. A fertilizing composition as claimed in any one of claims 1 to 5, including from 20% to 60% by weight of a posphate/carbonate combination comprising substantially 4 parts by weight of basic calcium phosphate per 1 part by weight of calcium carbonate.

7. A fertilizing composition as claimed in Claim 6, comprising substantially 7 parts by weight of dried manure, substantially 7 parts by weight of rock phosphate and substantially 3 parts by weight of potassium chloride or potassium sulphate.

8. A fertilizing composition as claimed in any preceding claim, further including up to 1 part by weight of silica sand per 2 parts by weight of the mixture of manure, potash, phosphate and calcium carbonate.

9. A fertilizing composition substantially as herein described with reference to the Examples.

10. A method of breaking up and fertilizing a compacted ground or heavy soil comprising spreading a fertilizing composition according to any one of Claims 1 to 9 on the ground or soil and watering the ground or soil.

11. A method as claimed in Claim 10, in which the composition is spread with density of at least 270 g of composition per square metre of ground area.

1 2. A method as claimed in Claims 10 and 11, and substantially as herein described with reference to Example 2.

1 3. A stratified bed for plant cultivation comprising a water-impervious trough, a layer of substantially water-insoluble granular material located on the base of the trough, a waterpermeable sheet covering the granular layer and a layer of cultivation medium comprising or including a fertilizing composition according to any one of Claims 1 to 9 covering the permeable sheet.

14. A stratified bed as claimed in Claim 13, in which the granular material comprises wood shavings, chips or sawdust.

1 5. A stratified bed as claimed in Claim 1 3 or Claim 14, in which the permeable sheet comprises a perforated plastics sheet.

1 6. A stratified bed as claimed in Claim 13, Claim 14 or Claim 15, in which the cultivation medium comprises sand containing up to 10% by weight of the fertilizing composition.

1 7. A stratified bed as claimed in any one of Claims 1 3 to 16, in which the trough is formed from sheet plastics material.

18. A stratified bed for plant cultivation substantially as herein described with reference to Example 3 and as shown in Fig. 3 of the accompanying drawings.

1 9. A method of plant cultivation including forming a stratified bed as claimed in any of claims 1 3 to 1 8, and supplying water to the layer of granular material to a level below that of the permeable sheet but such that the water permeates through the granular layer to the permeable sheet and can rise through the cultivation medium by capillary action to supply moisture to seeds or plants planted in the cultivation medium.