DE853834C - Process for the biological investigation of soil fertility by testing the soil for the presence of certain soil organisms, e.g. B. Azotobacter, as well as examination unit for carrying out the process - Google Patents

Description

Process for the biological investigation of soil fertility by Examination of the soil for the presence of certain soil organisms, e.g. Azotobacter, as well as Examination unit for carrying out the process The invention relates to a Process for the biological examination of soil fertility by examining the Soil for occurrence of certain soil organisms, e.g. B. Azotobacter, which in it is that a specific fusible for the soil organisms in question The nutrient medium is liquefied and poured in a thin layer onto a dish, whereupon After the nutrient medium has solidified, crumbs of soil on top of it at sufficient intervals of the soil to be examined placed in a certain number and at room temperature are incubated, whereupon the number of soil crumbs that develop into bacterial colonies counted and from the determined number of bacterial colonies developed the Eodcnfuglichkeit is established.

It has long been known and proven by science, that in a fertile soil in which the crop has optimal growth conditions finds that the bacterium Azotobakter is also present. Evolved from this fact consider azotobacter as a test for fertile soil and the content of azotobacter to be determined in the soil. Science served here z. B. the Christian and Nicholas method. After this, earth became N-free Brought nutrient solution and incubated at 28 °. A soil that Azotobacter also in Contains tiny amounts, forms a typical azotobacter skin.

If this method could be used to determine whether Azotobacter at all is present, this method cannot determine the number of azotobacter in the soil. The base plate method and direct counting were therefore used to provide quantitative evidence used, however, only by experienced bacteriologists and according to the rules of microbiological Technique could be carried out.

The method according to the invention has now been developed in order to assist the practitioner even to enable a quantitative investigation of the Content of certain soil organisms, e.g. B. Azotobacterhaltes, in the soil and thus the level of fertility.

Extensive tests with the most varied of soil types and the different Cultural conditions resulted in great differences, so that even after examining the practical Ratios the height z. B. the azotobacter content as a measure of soil fertility is proven.

The implementation of the procedure can be carried out by any practitioner, i. H. so every farmer, effortlessly, so that not only expensive laboratory tests, but also a lot of time is saved. In addition, the process has the advantage that the examinations are carried out much more frequently and more thoroughly, so that remedial action can be taken quickly if floor defects are found. To the procedure still to simplify and the test result more reliable and above all else A certain number of marking points can be used to make them more even Use marking boards provided with and evenly distributed under the the nutrient layer provided dish are placed, whereupon the soil crumbs on the culture medium can be placed at the location of each marker point.

A simple and inexpensive one is needed to carry out the process Examination unit, which consists of a number of bowls provided with a lid, am most advantageous Petri dishes, as well as a number of those with a fusible culture medium filled bowls and an evaluation table. This is advantageous Unit still has a marking board provided with marking points, the size of which is the Corresponds to the size of the bowls.

The use of the unit is as follows: The bowls are thoroughly cleaned and disinfected before use, e.g. B. with in alcohol dipped cotton wool. The culture medium contained in the test tubes is made by boiling liquefied and poured into the bowls.

As soon as the nutrient layer has solidified, soil crumbs will be in the Size from 1 to 2 mm distributed on the nutrient medium when using the marking board by placing a crumb of soil at the point of each marking point, whereby the crumbs are advantageously pressed a little to achieve a secure adhesion will. Then the shells are incubated at room temperature and the ones that form Bacterial colonies are counted after 5 to 10 days depending on the temperature. The bacterial colonies appear in the form of transparent or gray slimy, often cauliflower-like Forms that later turn brown to black in color. These bacteria develop indicates predominantly a growth of Azotobakter chroococcum. Leave yellow colonies close to Azotobakter Beijerinckii. If the growth is abundant, the bacterial colony often grows to the neighboring crumb of soil. It must therefore observe the development daily and the colonies developed must be noted.

On the basis of the developed colonies, the following is to be evaluated: I. No development: pH value and nutrient ratios have to be checked. Are these flawless, faulty soil treatment or lack of humus is to be regarded as the cause.

2. I to 5 colonies: The same applies as under I.

3. 6 to 30 colonies: if sufficient. Lime and phosphoric acid content often leads to humus enrichment in optimal proportions.

4. Over 30 colonies: shows good to best soil culture or soil fertility at.

In summary, it can be seen that the method according to the invention the possibility is created to carry out the necessary soil examinations by hand to be carried out on the spot by the practitioner himself, which was previously not possible was, so that necessary investigations had to be omitted or only insufficiently Dimensions were carried out.

PATENT APPROACH I. Method for the biological investigation of soil fertility by examining the soil for the presence of certain soil organisms, e.g. B. Azotobacter characterized in that a specific fusible for the organisms in question Liquefied nutrient medium and poured a thin layer onto a dish, whereupon After the nutrient medium has solidified, crumbs of soil on top of it at sufficient intervals of the soil to be examined placed in a certain number and at room temperature are incubated, whereupon the number of soil crumbs that develop into bacterial colonies counted and from the determined number of developed bacterial colonies the soil fertility is detected.

Claims (1)

2. The method according to claim I, characterized in that for uniform Distribution of the soil crumbs on the nutrient medium and to secure the necessary Number of crumbs a marking board provided with marking points under the with the culture medium seen shell and in the place of one At each marking point, a crumb of soil is placed on the nutrient medium. 3 - Examination unit for carrying out the method according to claim 1 or 2, consisting of a number of bowls provided with a lid, e.g. 13. Petri dishes, a number of test tubes filled with fusible nutrient medium and one Evaluation table. 4. Examination unit according to claim 3, characterized in that that the unit contains a marking board provided with marking points, whose Size corresponds to the size of the bowls.