CS276167B6 - Device for monitoring hydrochemical effects of plant roots in isolated area, under conditions - Google Patents

Abstract

The solution concerns a device for monitoring hydrochemical influences on the root system of plants in an isolated space. The essence of the solution is a removable container connected to the device and equipped with a suction tube.

Description

EN 276 167 86

BACKGROUND OF THE INVENTION The present invention relates to a device for monitoring hydrochemical effects of plant roots in an isolated space, and to conditions such as aqueous deficiency, foreign matter penetration and nutrient penetration into root mass and residue penetration into pod layers in any vegetation period. Nowadays, it is known to measure the water deficiency of plants by gravimetric method, which is extremely laborious and disadvantageous. Measurements via the tensiometer, neutron probe, 8-radiation loss from a stable emitter do not provide sufficient information on the biological requirements of plants for water in a given growing season.

The nutritional status of the plants is monitored through analysis of both the stage and plant samples to determine the biogenic macro and micro nutrients. The results are drawn by a significant relative error due to both sampling and analysis. The monitoring of the transfer of foreign matter into corenoviruses is carried out in vegetation vessels or in small fields by stripping the subsoil, or by observing the penetration depth of the tested foreign substance into the soil layer. The root of the plant environment is difficult to obtain and therefore, the uptake of the compound of interest can only be observed in the aerial part of the plant. It is difficult to balance the share that is accumulating in the root mass.

The aforementioned drawbacks are eliminated by the device according to the invention, the principle of which is that the lower flange with at least one aperture arranged below the acceptor column is a waterproof fastening lid with a removable container extending through the upper flange, intermediate space, lower flange and baffle cap at least one suction tube. An advantage of the device according to the invention is its versatility over the monitoring of the water-resistance of plants, the penetration of foreign substances or of the plants. nutrients to the root mass and penetration of the residue into the base layers in any vegetation period, at one site in one plant or group of plants. The result of the monitoring is not influenced by any disturbing factors, as is the case with previous devices and methods. Equipment excellently designed, simple to design and operate. Given that it is permanently located in the base station, ie that during the whole monitored vegetation period no serious interventions into the plant bed and its aerial part are carried out, the results are monitored very accurately and currently.

In the accompanying drawing, an exemplary embodiment of the device according to the invention is shown in FIG. 1 is a cross-sectional view of a device mounted in a pre-drilled pod hole and overgrown with the root system of an adjacent plant.

The device consists of an acceptor column 2 which is made of absorbent and porous pulp closed in an upper flange 2 and a lower flange 9 where it is fixed by four fixing rods 5. The outer space 11 between the acceptor column 2 and the liner netting 10 is filled with particulate filler material 2, for example fine-grained perlite. A baffle cap 14 with removable cover 15 is fixed to the lower flange 2 having two openings in contact with the acceptor rod 2 via a fixing rod 5 and a rubber seal 18. The suction cup 15 is connected to the container 15. a tube 17 extending to the bottom 19. The suction tube 17 passes through sealed openings (not shown) on the baffle lid 14, the lower flange 2a of the upper flange 2, where it results in a collection and evaluation device (not shown). In the center of the upper flange 2, a deflection opening 16 is formed. The device is assembled in this way and is inserted into the borehole 2 of the plants in the rows or rows of vegetative plants 2, according to the assumed depth of the root system 6 of the observed plants. of the time-monitored vegetation period, the bulk filling material 2 from the pneumatic interspace 11

Claims (1)

CS 276 167 B is removed and subsequently the root of the surrounding plants 5, which have grown into the acceptor column 2, in the free space 11 is fixed with a curing mass 2, for example an organic glass solution. Thereby the root assembly 2 in the acceptor column 7 is insulated into the environment. Follow-up is self-monitoring. Either irrigation or solution water with various foreign substances or nutrient solution or residual solutions is selected for a defined period of time to define a portion of the plants that are in the present period and stage isolated into the acceptor column. The loss of the monitored elements in the individual solutions is evaluated by means of balancing methods after suctioning the suction tube 17 from the removable container 15. In monitoring the irrigation water deficit, the following is evaluated: the total loss of the applied dose. PATENT REQUIREMENTS A device for monitoring the hydrochemical effects of plant roots in an insulated space, in conditions that are suspended from the acceptor column of the intermediate and lower flanges, which are fixed to each other by fixing rods, wherein the acceptor column is filled around the periphery of the upper and lower flanges with an embedding mesh, on the outer side and / or in the inner space provided with a layer of filter paper and / or loose filling material which is replaced by a hardening mass after overgrowing the root system, characterized in that the bottom flange (9) with at least one opening (15) is arranged under the acceptor column (2) is a waterproof fastening cap (14) with a removable container (5) into which the upper flange (8) of the intermediate space (11), the lower side (9) and the baffle cap (14) are led at least one suction tube (17). 1 drawing