Cultivation Substrates of Peat
The present invention relates to cultivation substrates of peat.
It is known to use compressed peat in the shape of various types of briquettes and the like as a growing sub¬ strate for seed plants and. cuttings. To enable these bri¬ quettes to maintain their shape they may be stabilized in different ways, e.g. by means of a surrounding net or by means of a binding agent, often bitumen.
To enhance the growing it is desirable that the growing substrate also contains some kind of a fertilizer. The incorporation of a fertilizer in growing substrates of this kind may be performed in various ways but is normally ef¬ fected by mixing the peat with a suitable fertilizer.
Irrespective whether or not the growing substrate has got an admixture of fertilizer it has been usual, as set forth above, to compress the peat into briquettes or the like to form the growing substrate into units that may be easily handled and also the reduce the volume. However, briquettes or shaped bodies of the just mentioned kind normally suffer from the drawback that they absorb water rather slowly, viz. of the magnitude from a few hours up to nearly a full day unto they have been completely saturated.
To remedy the just mentioned problem it has been propo¬ sed in our patent application nr 1061-70 that the soil improving or growing substrate as disclosed therein, which essentially consists of peat or peat mould, should comprise a granule like mass, manufactured by a high compression of peat or peat mould, which after the compression has been by mechanical treatment, minced up into granulate shape without noticable change of the structure of the individual granu¬ les. The expression "granule shape" was used by that time to define peat particles of a size just about that of half a rice grain, i.e. with a greatest dimension of the order of about 2,0 mm. This was the granule size of the product which for a rather restricted period of time, as a trial, was brought out on a rather restricted market.
In our above mentioned patent application it was men-
tioned, without any direct definition, that the granule shaped mass could contain one or more fertilizers, where long time active nitrogen is mentioned, and also humus decomposing bacteria as well as mycel which are preventive and antagonistic to harmful fungi.
The just described granule shaped growing substrate was rather satisfying for many applications, among other things in that the growing substrate in question remedied the earlier water absorption problem, viz. the problem of ensur¬ ing a complete water absorption within the period of time the planting job was normally performed and during which the result of the job could be observed.
However, continued jobs with the known granule shaped growing substrate have shown that it suffers from some drawbacks.
One such drawback is that it is necessary, to permit the necessary granulation into granules of the order of about 2 mm whithout noticable change of the structure of the individual grains, to compress the original peat mass very highly, viz. of the order of above about 10 : 1, sometimes up to about 15 : 1. Of course, such a strong compression puts up severe requirements on the machine equipment, and is in practice not inexpensive.
Another disadvantage is that the manufacture and hand¬ ling of the granule shaped growing substrate becomes un¬ necessary "littering". The fine granulation of the high compressed shaped bodies of peat down to a granule size of about 2 mm entails that in this connection unnecessarily many peat fibres are cut off or torn off so that the final growing substrate mass contains an unacceptable proportion of what may be termed as "peat dust", which becomes a disad¬ vantage both during the manufacture and by the use of the growing substrate.
The above discussed granulation, which leads to that peat dust is formed, brings about a change of particularly the physical properties of the substrate in such a manner, that an unacceptable proportion of fine particles with too a strong water binding ability will be obtained. The so
called pF-curve is affected in a negative direction. Ex¬ pressed popularly, the ability of the plants to absorb water is impaired, simultaneously as the oxygen supply is reduced.
Of course, there will also be a considerable waste, and storing losses. Also the costs for such an unnecessary far reaching granulation must be considered in this context.
Further, the fine granulation of the high compressed peat bodies into granules also brings along the drawback that the pots etc. that are used by the planting may be filled up somewhat excessively, while forgetting the strong swelling ability of the growing substrate. The result is that the growing substrate, after watering up, will be unnecessary compact at the bottom of the pot, as compared to a looser growing substrate in the uppermost portions of the pot.
The present invention aims at providing a growing subtrate which does not exhibit the above mentioned draw¬ backs.
To the just mentioned end there is proposed according to the present invention a growing substrate, which is entirely or essentially composed of peat and is manufactured by a high compression of peat or peat mould into a shaped body, which shaped body is then granuled, where the charac¬ terizing feature of the growing substrate in question is that the compression is limited to 10 : 1 or slightly lower, preferably about 9 : 1, and that the compressed peat bodies, after the compression, are minced up into essentially cubic bodies of the order of 5 x 5 x 5 to 15 x 15 x 15mm, prefer¬ ably about 8 x 8 x 10 mm.
In the manufacture shaped peat bodies having the above mentioned degree of compression are comparatively easily made, and they are comparatively easily handled, with no risk for damages. Further, they may comparatively easily and without unnecessary dust forming be minced up into cubic pieces with a size of the above mentioned order, and these pieces may be handled easily and readily, similarly without unnecessary dust forming. What is important in this context is, however, that compressed peat cubes or "dices" of the
kind defined may be watered up very quickly and thoroughly to form a homogenous mass with a satisfying porosity to satisfy the oxygen absorption ability of the plants.
The ability to a fresh growth of the plants is depen¬ dent on a plurality of factors, among which, in the present context, the most important ones appear to be an even and rich supply of fertilizer, water for transport thereof, and oxygen. These factors must be in balance with each other, which is achieved if the growing substrate according to the invention, prior to the compression into shaped peat bodies, is admixed with a fertilizer as follows, calculated in kgs per ιxr> of the ultimate growing substrate, i.g. when the growing substrate has swelled after watering, viz.:
2 - 6 kg lime 1 - 3 kg Dolo it 1 - 2 kg Blakorn (NPK 12-5-14) 0,1 - 0,3 kg FTE (micro fertilizing agents) Due to the above mentioned moderate mincing of the basic material and due to the moderate compressing forces the predetermined fractional compositions of the basic material may be retained comparatively intact. Thereby a possibility is achieved to effectively control the balance between the water retaining and air retaining pores of the ultimate growing substrate. Thereby, a possibility to repro¬ duction of the manufacturing process is achieved which has not been possible to achieve previously, and the system becomes considerably more well defined with respect to physical properties.