DE1031323B - Process for fertilization with trace elements - Google Patents

Description

Method of fertilization with trace elements The supply of soils with missing trace elements has hitherto essentially been carried out according to the, in agriculture for mineral fertilizers usual method by adding such trace elements Fine-grain substances on the arable soil by hand or with the help of fertilizer spreaders were distributed.

Either water-soluble salts of copper and manganese were used as well as boric acid or water-insoluble minerals, metallurgical products, industrial waste and the like used, which are finely ground in relatively significant quantities distributed on the floors. The quantities applied were in an unfavorable relationship to the amount of trace elements actually required. For example, at a consumption of 50 g copper per hectare, two to ten thousand times that of these substances Amount, with a consumption of 200 g manganese per hectare, five hundred times the amount im Relation to the necessary trace elements brought to the soil and distributed.

This route was also taken when z. B. 10 kg borax per hectare. should be applied. The gritty borax was made with a much larger one Amount of a fine-grained material, such as sand, mixed, and only then was the Distribution with a fertilizer spreader.

This unfavorable efficiency of the previous method of fertilization with trace elements is due to the fact that the fertilization with trace elements is not the task is to add large amounts to the soil. such as potash fertilizers, but distribute small amounts evenly. This Aufgehe has so far been through Application of relatively significant amounts of low-fiber dietary fiber solved in trace elements.

There has been no lack of attempts to achieve a higher level of efficiency To achieve trace element fertilization. So one has z. B. suggested copper-containing Metal powder obtained by blowing, dusting and the like of appropriately composed pure metal melts were produced, mixed with known nutrient fertilizers, to achieve a better spreading of the trace element fertilizers. The ones from the Powders produced by melt flow are, however, a mixture with regard to their grain size. of grains on the order of 1 to 100 #t in diameter. Mix it up this powder with the one used as an extender, as a rule also others Nutrient fertilizers with grain sizes as evenly as possible, as is necessary even distribution of the trace elements on the areas to be enriched with them Land is required so can very quickly one through transport and working methods In agriculture promoted, relatively extensive segregation occur. One even distribution of the small amounts required for adequate fertilization of trace elements Amounts of trace elements is therefore not always possible by using this method guaranteed. To the whole area to be fertilized completely in sufficient measure to provide trace elements, one is therefore also here on the application dependent on amounts of trace elements that are considerably larger than those at uniform distribution required. In addition, this process also still adhere the disadvantages that a special mixing process is required and that the Trace element fertilization is linked to fertilization with nutrient fertilizers.

These disadvantages could not be remedied by one according to another known method in which water-insoluble compounds of the trace elements are to be used, knowing that there is a risk of segregation the mixture of trace element fertilizers and nutrient fertilizers with the addition of Granulated binders. The risk of segregation was eliminated, but instead But you had to do a further, additional work step and make the Accept product.

The disadvantages of the normal spreading method when using trace element fertilizers have already led to the fact that z. B. Manganese and molybdenum in the form of soluble salts were distributed on the areas to be fertilized with the help of crop protection sprayers. However, this procedure requires in comparison to that actually required by the plants Amount of trace elements is still a very large excess, which is why it is in many Cases because of the toxic effects of excess amounts more soluble Connections cannot be applied. In addition, the soluble salts are included wet weather quickly washed into the subsoil and set there.

`It has now been found that the above-described disadvantages of the known Processes for the distribution of trace elements can be avoided by one the water-insoluble, but soluble in weak acids, by wet means in Form of. Powders with a particle size not exceeding 5 #t produced compounds of trace elements without the use of extenders in those for trace element fertilization required quantities, e.g. B. using the dust devices commonly used in crop protection, dusts on the surfaces to be enriched with trace elements.

Connections that are good for performing the procedure after of the invention are, for. B. copper carbonate, copper oxide, copper hydroxide, manganese carbonate, precipitated manganese silicate, zinc borate, calcium borate or magnesium borate.

In cases where a combined manganese-boron fertilization is required is, as is very often found in soils with a pH of 6 and above is the use of manganese borate in the process of the invention particularly advantageous. It is known to use such soils simultaneously with mixtures to treat of borax and manganese sulfate. On the other hand, the use of manganese borate offers according to the method of the invention the advantage that neither the sulfuric acid of the manganese sulfate nor has the alkali to be scattered from the borax and thus a reduction of the weights to be applied. Another advantage is that the In dissolved form boric acid is dangerous for many plants than it is less soluble in water Dust is present, but weak acids such as B. also carbon dioxide, dissolved and is consequently absorbed by the plants even when it is on sticks to the leaves of the same.

According to the invention, the trace elements are to be dusted in the form of powders, whose particles do not exceed 5 f in diameter. Such, e.g. B. off Copper oxide powder consists of around 1.5 billion particles per gram. This results in a uniform and everywhere sufficient dose, even with small doses Distribution.

To ensure such a uniform and fine grain size, According to the invention, the compounds to be used must be prepared by the wet route will. The to be used according to the known method, by atomization from the Melt flow or powder produced by fine grinding usually exist in terms of their grain size from a mixture of particles of the order of magnitude 1 to about 100 #t. Even with the finest grind, but for economic reasons is not feasible on an industrial scale, the particle sizes move still between 1 and 20 u. Even the use of wind sifting is not enough removed from. in order to obtain a material with particles approximately more uniform from such a mixture Separate size, as it must be applied according to the method of the invention. This is because, in milling, as in atomization, one obtains from the melt flow a mixture of particles of very fine and very coarse orders of magnitude that is very close is packed. These tightly packed powders touch each other on very many Points, while packs with approximately the same size individual particles as in the production of trace element compounds in the wet way, only ever have seven to eight points of contact with the neighboring particles (irregular sevens and pack of eight). The densely packed powders with unequal sized particles work bulbous when you touch it. If you expose them to a jet of air, they stay to a large extent adhere to one another, so that they still remain after the wind sifting Particles up to 20 or up to 100 w contain, and therefore for the process according to of the invention are not suitable.

The production of trace element compounds by wet means has besides the possibility of obtaining powders of not more than 5 [particle size, nor the advantage that the solutions used for precipitation are still small amounts of Add molybdenum, cobalt or iodine and so also these important trace elements in quantities that do not go beyond what is necessary and yet in a more even manner Can bring distribution into the soil.

The application of the trace element fertilizers to be used according to the invention is best done with the help of the dusting devices commonly used in crop protection. On copper deficient floors you need when using the method according to the invention regardless of the type of crops in autumn only 2 kg of basic copper carbonate per hectare or basic copper nitrate or 1.8 kg copper hydroxide or 1.5 kg copper oxide, appropriate to be dusted with the aid of a dusting device equipped with a dispensing device: On Boron deficient soils are expediently 6 per hectare before beets are grown in autumn kg zinc borate, manganese borate, calcium borate or magnesia borate using a with Distribution device provided dusting device distributed.

Manganese deficiency can be remedied by the method of the invention, by adding 8 kg of manganese carbonate per hectare in autumn, regardless of the type of crops, Precipitated manganese silicate, manganese phosphate or, with simultaneous boron deficiency, 8 kg of manganese borate distributed with the aid of a dusting device provided with a dispensing device.

An unexpected manganese deficiency in an area that has already been cultivated can be eliminated by adding 3 kg of manganese carbonate to the damp stand or manganese silicate can be dusted, it is expedient to use a dispensing device provided dust device is used.

As far as zinc deficiency symptoms or boron deficiency symptoms in orchards become visible, this can be eliminated according to the method of the invention by 5 kg of zinc carbonate or zinc hydroxide or zinc borate are dusted per hectare in autumn.

The inventive method allows even among the uneven Conditions of practice such a perfect and even covering of the plants and the free floor area with easily absorbable particles containing trace elements, that now with the fertilization with these substances the efficiency of the normal, in particular Commercial fertilizers containing nitrogen and potash can be achieved.

Claims (2)

PATENT CLAIMS: 1. Method for the even distribution of from compounds of trace elements which are insoluble in water but soluble in weak acids existing Trace element fertilizers on the one with trace elements Areas to be enriched, characterized in that the wet path in Form of a powder with a particle size of not more than 5 #t produced trace element compounds without the use of extenders in those required for trace element fertilization Quantities, e.g. B. using the dust devices commonly used in crop protection, dusts on the surfaces to be enriched with trace elements. 2. The method according to claim 1, characterized in that manganese borate is used for the combined manganese-boron fertilization. Considered publications: German Patent Nos. 929 553, 866 488, 866 344, 858 256, 761345, 740 516; German patent application 17893 IV a / 16; French Patent Nos. 1 094 337, 767 602, 405 697, 405 696, 405 695, 405 694, 405 140; U.S. Patent Nos. 2,280,451, 2,215,878.