RU2180103C2 - Method for extracting root samples of deep-rooted, preferably medicine, plants, apparatus for removing soil and ground during root sampling and apparatus for determining orientation and coordinates of arrangement of plant roots in space - Google Patents

Abstract

FIELD: investigation of roots. SUBSTANCE: method involves creating water flow and cutting it in working fluid; sampling root parts layer-by-layer; orienting water flow at an angle to surface of stripped layer and imparting rotating motion in its plane; extracting root mass after mechanical disintegration thereof. Apparatus for removing soil and ground has cylindrical housing equipped with devices designed for retaining housing in predetermined position and mounted tangentially to cylinder side wall and at an angle to cylinder axis, pressure pipe and siphon positioned so as to be dismantled. Intake hose of siphon is arranged centrally of housing. Drain hose of siphon is connected with intake hose through lock. Apparatus for determining orientation and coordinates of arrangement in soil body has cylindrical housing with supporting ring. Pulley with rope is arranged in upper part of housing. Bracket is mounted on internal surface of cylinder for receiving double-armed lever. One arm of lever is equipped with sight for counting equally spaced angle marks applied to external surface of cylindrical housing. Pulley with rope and rotational drive are mounted on other arm of lever. Rotational drive provides radial displacement relative to measurement scale. EFFECT: increased efficiency, reduced labor consumption and decreased investigation time. 8 cl, 6 dwg

Description

 The invention relates to methods and devices for sampling the roots and rhizomes of deep rhizome medicinal plants, for example, licorice roots (Glycyrrhiza glabra L.), medicinal moth (Althala jfficinalis L.), elecampane high (Jnula helenium L.), etc., and can be used in assessing the productivity of the root mass of wild plants as a medicinal raw material and in biological surveys to describe the structure of the root systems of newly discovered plants with a complex structure of underground organs.

A known method of measuring the dynamic effect of rain on the soil, including creating a drip water stream, braking the droplets in the working medium of the droplets in the plane of the flow section, located at a given angle to their flight path, measuring the magnitude of the dynamic action of rain on the soil, in which to improve measurement accuracy the movement of the droplets slows down in the medium of the pore fluid, measures the pressure in it, the average value of which judges the value of the dynamic action of rain on the soil (SU, copyright certificate 1362418. MP ⁴ A 01 G 25/00. A method for measuring the dynamic effect of rain on the soil and a device for its implementation // A.E.Kasyanov. Stated 21.11.1993).

 Licorice plants have a complex structure of the root system. The roots spread vertically and the rhizome horizontally. Roots and rhizomes are intertwined. In addition, cord and sucking roots take place in this system. The diameter of the roots reaches 75-150 mm, and the rhizomes up to 50 mm. The described method of exposure to a drop stream of water to expose the roots and rhizomes is not very effective.

A device for sampling is also known, including a housing, a cylinder placed in it with holes in the upper part, a core receiver pipe connected to a backwash chamber and a vacuum chamber with a piston, in which the device is equipped with a rod installed to increase reliability by using hydrostatic pressure inside the cylinder and rigidly connected with the body and the core receiver pipe, the piston of the vacuum chamber is made with an area larger than the cross section of the backwash chamber, and is installed with the possibility of axial about the movement and interaction with the cylinder and rod openings, and the cylinder openings inform the supra-piston cavity with external space (SU, copyright certificate 1500898, A1, IPC ⁴ G 01 N 1/04, E 21 V 49/02. Sampling device // I.V. Ravilov, V.I. Blinov, A.N. Labintsev and A.N. Rudkovsky. Declared November 17, 1987, published August 15, 1989).

 We accepted this device as the closest analogue in the part of the claimed invention - a device for removing soil and soil during sampling of roots and rhizomes of perennial herbaceous plants.

 The described sampling device is suitable for sampling bottom sediments. But in our case, the soil and soil are represented in the solid phase. For layer-by-layer removal of soil and soil, preparatory work must be done to transfer them to the liquid fraction.

A device for tripping and underground operations on vertical and inclined workings is also known, including a tripod consisting of support posts pivotally connected in the upper part and a guide pulley, in which, in order to increase the efficiency and reliability of the installation of the device, the upper ends of the two support posts are equipped with two articulated links with mutually perpendicular axes and clamps, for example screw stoppers, and the lower ends of the support posts are equipped with a tie; support racks are made telescopic (SU, copyright certificate 601432, IPC ² E 21 F 11/00. Device for underground and underground operations on vertical and inclined workings // L.T. Shapovalov. Declared 04/26/1976, published 04/05/1978).

 The presented device as applied to determining the coordinates of exposed roots and rhizomes of medicinal plants can give only one mark - vertical. This is clearly not enough to describe the structure of the root mass of the plant under study.

 The invention consists in the following.

 The problem to which the invention is directed is to increase the scientific reliability of the object of study and the reliability of the experimental data of a qualitative assessment.

 The technical result that can be obtained by carrying out the invention is the reduction of labor costs and time periods when conducting research, as well as when assessing the production stocks of the root mass of medicinal plants on plantations and in wild form.

 The specified technical result in the implementation of the invention is achieved by the fact that in the known method of sampling roots, deep rhizomes, mainly medicinal plants, according to the invention, comprising creating a water flow and inhibiting it in the working medium, the sampling is carried out in layers, while the water flow is oriented at an angle to the surface of the removable layer and give a rotational movement in its plane, and the extraction of the root mass produces after mechanical dissection of the roots.

 The specified method is implemented by a device for removing soil and soil during the selection of roots, according to the invention, including a cylindrical body, which is equipped with position fixers mounted tangentially to the side surface of the cylinder and at an angle to its axis with a discharge pipe and made with the possibility of dismantling a siphon, the intake hose of which is placed in the center of the case, and the drain sleeve of the siphon is connected to the intake sleeve by means of a valve; the lower cut of the body is provided with an annular cutting edge; a restriction ring is mounted on the outer surface of the housing; the restrictive ring is equipped with mounting holes for placement of position fixers; each position lock is made in the form of a rod, one of the ends of which has a point, and the other a handle.

 A spatial description of the complex root systems of medicinal plants is carried out by a device for determining the orientation of the location coordinates in space of the roots of medicinal plants, according to the invention, containing a cylindrical body with a support ring, with a pulley with a rope placed on the upper part of the body, and a bracket mounted on the inner surface of the cylinder, in which the axis of the two shoulders of the lever is installed, one end of which is equipped with a sighting device for reporting angular marks plotted with equal pitch on the outer turn NOSTA cylindrical body and at the other lever arm mounted with the rope pulley and a drive means for rotation and displacement in radial direction relative measurement scale, the free end of the rope has a plumb; the support ring is provided with mounting holes with a retainer located in them and the position of the cylindrical body.

 Due to the fact that first soil and soil are removed in layers from the root mass in wild nature, and then the roots and rhizomes are mechanically separated from other neighboring plants, the above technical result is achieved.

 The analysis of the prior art by the applicants, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, made it possible to establish that no analogue was found, characterized by features identical to all the essential features of the claimed invention. The proposed closest analogues made it possible to identify a set of essential distinguishing features in relation to the technical result perceived by the applicants in the claimed device set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 To verify the conformity of the claimed invention to the requirements of the inventive step, the applicants conducted an additional search for known technical solutions in order to identify features that match the distinctive features of the claimed invention from the closest analogue. The results of the verification show that the claimed invention does not follow for the specialist explicitly from the prior art, since the claimed invention does not provide for known transformations. Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

 Figure 1 shows a vertical section of a root-containing formation.

 In Fig.2 - the same, after removal by hydraulic washing of the soil and soil.

 Figure 3 - section aa in figure 2, a horizontal section of one of the layers at the place of removal by hydraulic washing of solid inclusions of soil and soil.

 Figure 4 presents a device for removing soil and soil during the selection of roots, a diametrical section.

 Figure 5 is the same plan view.

 In FIG. 6 shows a device for determining the orientation and spatial coordinates of the roots of medicinal plants, including roots, Karabash (for licorice), vegetative shoots, sucking and string roots in an axonometric image.

 Information confirming the possibility of implementing the claimed invention are as follows.

To determine the biological productivity of the root mass and the quality of the extracted roots on the studied area, control areas of 1 m ² are laid for the extraction of soil and soil with a volume of 1 m ³ . The sites are laid at the corners of the rectangle and at the intersection of its diagonals (envelope). Let us consider the implementation of the method of sampling roots and rhizomes using the example of licorice (Glycyrrhiza glabra L.) of floodplain ecotype.

Before starting the laying of the experiment, the aboveground shoots 1 are mowed from the surface of the control site (see Fig. 1). Soil from the upper layer and soil from the underlying horizons to the depth of the main share of the root mass are sequentially removed from a control site of 1 m ² in size. Then, having previously numbered in the selected coordinate system, the exposed horizontal rhizomes 2 and vertical roots 3 are sequentially separated from the total mass and removed vertically from the ditch 4. Soil and soil are removed by hydraulic washing of the genetic horizons. The separation of the roots 3 and rhizomes, for example licorice, is carried out by mechanical action in the form of cross sections. Slices of the roots 3 and rhizomes 2 to 50 mm produce secateurs. When the diameter of the rhizomes 2 is more than 50 mm, the latter are cut off with a saw with a large tooth bite.

 The claimed method for sampling roots, deep rhizomes, mainly medicinal plants, provides for the sequential execution of the following operations: creating a flow of water and its inhibition in the working environment. This stream carries out layer-by-layer removal of solid inclusions of soil and soil. The latter leads to exposure without mechanical damage to the roots 3 and rhizomes 2 of the studied plant. The water flow is oriented at an angle to the surface of the layer to be removed and gives it a rotational movement in the plane of the layer. The extraction of the root mass is carried out after the dismemberment of the pinched roots in the cylindrical wall of the ditch 4.

 A device for removing soil and soil during the selection of roots from the established control sites when determining the actual biological productivity of the root mass as a medicinal raw material (see Figs. 4 and 5) contains a cylindrical body 5 with a diameter of 1154.7 mm The housing 5 is equipped with position locks 6 on the surface of the control platform, mounted tangentially to the lateral surface of the cylinder wall 7 and at an angle to its axis by a discharge pipe 8, which can be dismantled by a siphon 9. The intake sleeve of the siphon 9 is located in the center of the housing 5. The drain sleeve 10 of the siphon 9 is connected to the intake sleeve by means of a valve 11.

The lower slice of the housing 5 is provided with an annular cutting edge 12. The lower annular edge 12 of the cylindrical housing 5 is formed by sharpening the outer surface of the wall 7 at an angle of 12 ... 15 ^o . A restriction ring 13 is mounted on the outer surface of the casing 5. The ring 13 with the cylindrical casing 5 is joined by welds and stiffeners 14. The discharge pipe 8 and the outer surface of the cylindrical casing 5 are tangent to the outer surface of the wall 7. At the same time, the geometric axis of the discharge pipe 8 inclined to the lower base of the cylindrical body 5 at an angle β (see figure 4).

 The siphon intake sleeve 9 is located in the middle of the cylindrical body 5. The siphon drain sleeve 10 is connected to the intake sleeve by means of a valve 11. The drain sleeve 8 has an arm 15 for mounting the siphon 9 on the upper cut of the cylindrical body 5. The restriction ring 13 is provided with equidistant mounting holes 16 for installing the latches 6 of the position of the housing 5. Each retainer 6 of the position of the housing 5 is made in the form of a rod. One end of the rod has a taper 17, and the other end is provided with a handle 18 for extraction.

 A device for removing soil and soil during sampling of roots from the laid control sites works as follows.

 In the lower reaches of the Volga River, in its delta, as a rule, a large number of Eriks, lakes, small rivers and branches. Licorice and its other ecotypes grow in close proximity to water bodies, in lowlands and flooded areas. If there are nearby reservoirs, a portable fire pump with an internal combustion engine or another pump unit is used to supply water to the housing 5 under operating pressure. The water supply sleeve of the pump is connected by a quick coupler to the discharge pipe 8 of the cylindrical body 5. The cylindrical body 5 is mounted on a previously prepared site, i.e. after removing vegetative shoots of licorice. A cylindrical body 5 with the lower edge 12 is pressed into the upper soil layer with plant and root residues, cutting off the turf and the surface roots of the missing plants in the licorice association around the perimeter of the body 5. A stable position of the cylindrical body 5 is given by the restrictive ring 13 and the latches 6 of the position of the housing 5. The rods of the retainers 6, the cylindrical body 5 is held in a strictly predetermined position.

 The siphon intake sleeve 9 is installed in a convenient position for maintenance. The drain hose 10 of the siphon 9 is oriented to the nearby lower water level. Fill the siphon 9 after filling the capacity of the cylindrical body 5. The valve 11 of the siphon 9 is closed. When the fire pump engine is running, water is supplied through the fire hose to the discharge pipe 8. At the same time, the valve gate 11 of the siphon 9 is opened. The water is discharged from the cylindrical body 5 so that the water level in the intake hose of the siphon 9 is at least 1/2. .. 2/3 of the height of the cylindrical body 5. When water is supplied at an angle to the bottom of this plane of the body 5 under pressure, a rotational movement is imparted along the inner wall 7 of the cylindrical body 5 by the discharge pipe 8 of the working fluid. the fluid flow, together with suspensions, erodes the soil and soil and carries with it a solid sediment. Suspended solids of soil, sludge, soil, plant and root residues fall into the suction pipe of the siphon 9, and then through the valve 11 is discharged into the river or into the hollow. During the rotation of the water flow by suspended particles, the underlying horizons are washed away. The roots 3 and rhizomes of licorice 2 plants are exposed. As the ditch 4 deepens, the water pressure in the discharge pipe 8 is increased. When the depth of the ditch is 4 to 1 m, the water supply is stopped. Siphon 9 from the ditch 4 remove the residue of suspended particles in the solution.

 The position of the roots of 3 and rhizomes 2 of licorice after removal of the soil and soil from the ditch 4 by a hydraulic wash of a predetermined volume is shown in FIGS. 2 and 3. After the removal of soil and soil, the roots 3 and rhizomes 2 in the ditch 4 are in the same state as they grew during 20- The last 40 years without disturbing their structure and orientation both in layers and in depth of horizons.

 Before starting the extraction of 4 root masses from the ditch to describe the biology and structure of the root system, the coordinates of the location in the space of the underground skeletal organs of the extracted plant are determined.

 A device for determining the orientation and coordinates of the location in the underground organs of deep-rhizome medicinal plants (see Fig. 6) contains a cylindrical body 19, a support ring 20 with mounting holes 21, latches 22 of the position of the body 19, handles 23 for transferring the cylindrical body 19, a two-arm lever 24 with a vertical axis 25 of its turn, an arm 26 for installing the axis 25 of the two shoulders of the lever 24, a pulley 27 for winding an inextensible thread - a rope 28, a plumb line 29 of the rope 28, a winder 30 of rotation of the pulley 27 for unwinding and unwinding of an inextensible thread - a rope 28 - with a plumb line 29, a sight 31 of the two shoulders lever 24 for counting the angles, a scale 32 of the two shoulders lever 24 for counting the removal of the plumb 29 from the vertical axis of the cylindrical body 19, the scale of 33 angular values on the outer surface of the cylindrical body 19. Pulley 27 with a cable 28 is located in the upper part of the housing 19. The bracket 26 is mounted on the inner surface of the cylinder, that is, the housing 19. In the bracket 26 is installed the axis 25 of the two shoulders of the arm 24. One end of the arm 24 is equipped with a sighting device 31 for reading angular marks applied with equalin increments on the outer surface of the cylindrical body 19. A pulley 27 is mounted on the other arm of the lever 24 with a rope 28 and means for driving rotation and displacement in the radial direction and displacement in the radial direction relative to the measuring scale 32. The free end of the rope 28 has a plumb line 29.

 The support ring 20 is connected to the cylindrical body 19 by intermittent welds. Each latch 22 position of the housing 19 is made in the form of a rod. One end of the clamp rod is pointed, and the other end is provided with a handle. Handles 23 for transferring a cylindrical body 19 are mounted on a support ring 20 in a diametrical plane. On the inner surface of the cylindrical body 19 with the help of bolts with countersunk heads, the bracket 26 is fixed. The bracket 26 has a sleeve. The geometric axis of the sleeve of the bracket 26 is aligned with the vertical axis of symmetry of the cylindrical body 19. In the sleeve of the bracket 26, a two-arm lever 24 is installed by means of the axis 25. The length of the lever 24 is 1.5 times the outer diameter of the cylindrical body 19. One end of the two-arm lever, less remote from the axis 24 is provided with a sighting device 31 for reading the angles from the scale 33 on the outer surface of the cylindrical body 19. The other, longer, end of the lever 24 is equipped with a scale 32 for measuring the removal of the plumb 29 from the vertical axis of the cylindrical body 19. On this part of the lever 24, a handle 30 is freely mounted to rotate the pulley with an inextensible thread — a rope 28 — located on its outer surface. A plumb line 29 is installed at the end of the rope 28. A set of devices for determining the orientation and location coordinates of medicinal plants roots and rhizomes There is a compass for the orientation of the zero mark of the scale 33 relative to the magnetic meridian. The “zero” of the scale 33 is oriented strictly north.

Before starting work, zero marks of orientation angles are set around the world so that the "zero" mark is strictly oriented to the north. This further allows us to compare the structure of root systems defined both on a given array and in other places of growth. Next, the plumb line 29 is oriented to the place of mating (retraction) of the rhizomes 2 to the mother root 3. Each rhizome 2 is given a three-digit number. The first digit corresponds to the tier number, the second digit to the root number, and the third digit to the serial number of the shoot. The following coordinates are taken for each root: α _ij , φ _ij , Z _ij .
The data are entered in the laboratory of field research. Next, the root is cut off from the vertical wall of the ditch 4 by secateurs or sawn off with a large diameter of rhizomes 2. At the end of the root 3, a tag with a three-digit number is attached to the side of the root 3.

 Similarly, they act with other roots 3. The separated roots 3 and rhizomes 2, together with the mother root, are removed from the ditch by lifting upward. After weighing, samples are separated from the root mass for transfer to analytical laboratories in order to obtain quality indicators.

 The presented data indicate that the claimed method of selecting the roots and rhizomes of medicinal plants allows you to get enough information for an objective assessment of the productivity of the extracted raw materials and in-depth scientific research. This method and device can reduce 4. ..5 times the labor costs of extracting licorice roots and rhizomes, narrow the confidence interval of the experimental data, increase the reliability level of licorice raw material stock indicators.

 Thus, the above information indicates the fulfillment of the set of conditions when using the claimed complex invention: the claimed device is intended for use in assessing the productivity of the root mass of wild plants as a raw material and in biological research, the proposed technical solution ensures the achievement of the above technical result.

 Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (8)

 1. A method of sampling the roots of deep rhizome, mainly medicinal, plants, characterized in that they create a flow of water and inhibit it in the working medium, and sampling is carried out in layers, while the flow of water is oriented at an angle to the surface of the film to be removed and rotate in the plane, and the extraction of the root mass is carried out after mechanical dissection of the roots.  2. A device for removing soil and soil during the selection of roots, including a cylindrical body, which is equipped with position fixers mounted tangentially to the side surface of the cylinder wall and at an angle to its axis by a discharge pipe and made with the possibility of dismantling a siphon, the intake hose of which is placed in the center of the body and the drain sleeve of the siphon is connected to the intake sleeve by means of a valve.  3. The device according to claim 2, comprising a housing that is provided with an annular cutting edge.  4. The device according to claim 2, comprising a housing, on the outer surface of which a restrictive ring is mounted.  5. The device according to p. 4, containing a restrictive ring, which is equipped with mounting holes for placement of position fixators.  6. The device for each of paragraphs. 1 and 5, containing position locks, each lock made in the form of a rod, one of the ends of which has a point, and the other a handle.  7. A device for determining the orientation and location coordinates in the space of the roots of medicinal plants, containing a cylindrical body with a support ring, and a pulley with a rope is placed in the upper part of the body, and a bracket is mounted on the inner surface of the cylinder, in which the axis of the two shoulders lever is installed, one end of which equipped with a sighting device for reporting angular marks plotted with equal pitch on the outer surface of the cylindrical body, and on the other arm of the lever a pulley with a rope and rotary drive means is mounted radial displacement and relative to the measuring scale, while the free end of the rope has a plumb line.  8. The device according to claim 7, containing a support ring, which is equipped with mounting holes for accommodating the position of the cylindrical housing.

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