MD519Z - Method and device for measuring the growth in thickness of skeletal roots of the perennial plant - Google Patents

Abstract

The invention relates to agriculture, namely fruit growing, particularly to a method for measuring the growth in thickness of skeletal roots of the perennial plant and an apparatus for its implementation.The method, according to the invention, includes grubbing out of roots of the triennial plant to a radius of 60 cm from the root collar, measurement of root primary thickness, placement on roots of a thickness measuring device, which provides the root wrapping with a measuring twine, passed through a plastic tube located vertically, in which are made 2 holes on the upper end and lower at 15 cm, after which the ends of the twine are withdrawn out through the upper holes and tied with an elastic twine bred out through the lower hole. At the same time, on each horizontal skeletal root are installed 2 devices: one - at a distance of 10 cm from the root collar, the other - over 50 cm along the axial line of the root, and on each vertical skeletal root - one device at a distance of 10 cm from the root collar. The roots are buried in soil, placing the upper end of the device outside. It is carried out the measurement and registration of length of the measuring twines located outside, then in spring and in autumn is measured the length of the measuring twines located outside, and on the basis of changes in the length of twines is determined the thickness of the roots.

Description

The invention relates to agriculture, namely to fruit growing, in particular to a method for measuring the growth in thickness of skeletal roots in multiannual plants and to a device for carrying it out.

The procedure for studying the root system of plants grown in special vegetation pots is known. After removing the plant from the pot, the root system is studied in full and in detail according to the following indicators - mass, thickness and length of the roots [1].

The disadvantage of the procedure is that it is not suitable for use in studying the root system of large fruit trees in orchards.

The monolith method of studying the root system of fruit trees is also known. Layers of certain sizes are extracted from the soil around the tree from different depths, along with roots. In this way, the characteristics of the roots in different soil layers are determined, namely the mass and length of the roots of different thickness fractions [2].

The disadvantage of the procedure is that the roots are studied fragmentarily and the indicators that characterize the architectonics of the entire root system of the tree cannot be determined.

The procedure of studying the root system of fruit trees through trenches is also known. At certain distances from the tree trunk, trenches are made. In this case, the depth of placement of roots of different thicknesses is determined [3].

The disadvantage of the procedure is that the parameters that characterize the architectonics of the root system as a whole cannot be determined.

The closest solution is the skeletal root study procedure. Each skeletal and semi-skeletal root is dug up manually, gradually uncovering all the ramifications, starting from the bundle along the entire linear path of the main axis [4].

The disadvantage of the procedure is that in the process of studying, the dynamic increase in the thickness of skeletal and semi-skeletal roots cannot be determined.

The technical problem solved by the proposed invention consists in dynamically determining the thickness growth of skeletal and semi-skeletal roots, as well as their branching character in fruit trees.

The method, according to the invention, includes exposing the roots of the three-year-old plant within a radius of 60 cm from the bundle, measuring the initial thickness of the roots, placing a measuring device on the roots, which provides for wrapping the root with a measuring string, which is passed through a vertically placed plastic tube, in which 2 holes are made at the top end and 15 cm below, after which the ends of the string are brought out through the top holes and tied with an elastic string brought out through the bottom holes. At the same time, two devices are installed on each horizontal skeletal root: one - at a distance of 10 cm from the bundle and another - over 50 cm on the axial line of the root, and on each vertical skeletal root - one device at a distance of 10 cm from the bundle. Then follows the covering of the roots with soil, the upper end of the device being placed outside, the measurement and recording of the length of the measuring strings placed outside, after which in spring and autumn the length of the measuring strings placed outside is measured and based on the variation in the length of the strings the thickness of the roots is determined.

The device, according to the invention, consists of a plastic tube with a diameter of 15 mm and a height of 40…60 cm, in the wall of which two holes with a diameter of 6 mm are made at a distance of 2 cm from the upper end, and two holes with a diameter of 4 mm 15 cm lower; a plastic measuring string, with the possibility of being passed through the inside of the tube with its ends brought out through the upper holes, and an elastic string passed through the lower holes of the tube and brought out to the outside for tying with the ends of the measuring string. The length of the extratubular part of the measuring string, as a result of the increase in thickness of the skeletal root, gradually decreases, which, being periodically measured, generates a series of biometric data in dynamics.

The technical result consists in the fact that the repeated measurement, as many times as necessary, of the thickness of the skeletal roots is carried out, according to the invention, in the multiannual plantation, without the subsequent exposure of the root system.

The invention is explained by the drawings in figures 1-4, which represent:

- fig. 1, appearance of the device for measuring the increase in thickness of the skeletal root immediately after installation (transverse section);

- fig.2, appearance of the device for measuring the growth in thickness of the skeletal root in the third year after installation (transverse section);

- fig. 3, general appearance of the construction consisting of the plant and devices for measuring the growth in thickness of the skeletal roots (vertical projection);

- fig.4, horizontal projection of the construction consisting of the plant's root system and the devices for measuring the growth in thickness of the skeletal roots, where:

1 - skeletal root of the perennial plant (cross-section);

2 - plastic tube with a diameter of 15 mm and a length between 40…60 cm (depending on the depth at which the basal end of the tube is to be placed in the soil);

3 - string for measuring the thickness of the skeletal root;

4 - the part of the measuring string that is located inside the tube;

5 - the ends of the measuring string which are brought out through two holes made in the top part of the tube (the extratubular part of the string);

6 - place of joining by knotting the ends of the measuring string;

7 - elastic string made of rubber (or any elastic material);

8 - soil surface;

9 - trunk of the perennial plant;

10, 11, 12, 13 - horizontal skeletal root;

14, 15, 16 - vertical skeletal root;

17, 18, 19, 20 - measuring device installed on the base of the horizontal skeletal root at a distance of 10 cm from the plant's trunk;

21, 22, 23, 24 - measuring device installed on the skeletal root more than 50 cm along the axial line of the root from the first device installed on its base;

25, 26, 27 - measuring device installed at the base of the vertical skeleton root at a distance of 10 cm from the package;

28 - the boundary line of the strip in the row with a width of 120…150 cm, which is not subject to soil cultivation;

29 - horizontal semi-skeletal root (second order of branching);

30 - parcel.

The invention is carried out in the following way.

An important indicator in assessing the influence of soil conditions on the growth and development of roots and the perennial plant as a whole is the amount of thinning of skeletal roots, which is equal to the value (in millimeters) by which the root is thinned in the first half meter from the plant crown. Thinning indirectly characterizes the level of branching. The stronger the root is thinned, the higher its level of branching. The root system of the perennial plant consists of roots with different thinning characteristics. Skeletal roots, for example, in fruit trees, of large (61…80 mm) and medium (31…60 mm) thickness, well-branched, have a small length - up to 5 m and, as a rule, are significantly thinned. However, there are comparatively thin skeletal roots (11…30 mm thick) with a length of more than 5 m, which thin very slightly as they extend in length. They have almost no branches, except for those at the ends. The presence in the root system of a large number of extremely long and weakly branched roots, the so-called spreading roots, testifies to the unsatisfactory soil conditions in which the perennial plant grows (Доника И.Н., Грицкан С.В., Богдан И.Г. Ростовая и продуктиваная реакция яблони, пливы и вишни на особенность содержания почвы и конструкции насаждений. 2003).

At the beginning of the field experiment, according to the invention, usually in the third year after planting, in spring, manual stripping of skeletal roots is applied to the perennial plants of record in the plantation, starting from the bundle to a distance of 60 cm from the trunk. In the process of stripping skeletal roots, all their branches with a thickness greater than 3 mm are kept intact. At the base of all stripped skeletal roots (in fruit trees, for example, their number usually varies between 6…12 and in the third year they have a thickness between 5…10 mm), at a distance of 10 cm from the bundle, then over 50 cm on the axial line of the roots, devices for measuring growth in thickness are installed vertically. The device (Fig. 1, 2) is a plastic tube 2 with a diameter of 15 mm and a height of between 40…60 cm (depending on the depth at which the basal end of the tube is to be placed in the soil), which is made immediately before installation from a hose with the respective characteristics, according to the needs of the specific case. In the wall of the upper part of the tube at a distance of 2 cm from the end, at the same level, two diametrically opposite holes with a diameter of 6 mm are made. Two other holes, with a diameter of 4 mm, are made analogously lower, over 15 cm. At the place of installation of the device, the initial thickness of the skeletal root is measured and recorded, then the root is wrapped with a measuring string 3, made of plastic (Fig. 1). The ends of the measuring string 5 are inserted into the tube 2 and taken out through two holes (each end - through its own hole) made in the top part of the device and are connected by knotting. The ends of the elastic string 7 are inserted and taken out through the bottom holes of the tube, which are fixed by tying to the knot 6 of the measuring string. The elastic string is made of any available elastic material. The devices are installed in two places of each horizontal skeletal root - at the conventional beginning (i.e. at a distance of 10 cm from the bundle) and 50 cm along their axial line (Fig. 3, 4), and on the vertical roots - only at their conventional beginning. After installing the devices, the bare part of the root system of the perennial plant is covered with soil again with the application of watering. The length of the aerial part of the tube is 20 cm, and the part embedded in the soil (underground) - 20…40 cm depending on the depth of the skeletal roots in the soil. Each device for measuring the growth in thickness of skeletal roots is numbered and noted in the field experiment register. Immediately after the roots are plugged, the length of the extratubular part 5 of the measuring string (from node 6 to the wall of the tube 2) for each device is measured and noted in the register. During the vegetation, the skeletal root gradually thickens and pulls the measuring string 3 out of the tube 2, thereby reducing the length of its extratubular part 5. By the end of the data collection period, twice a year - in spring and autumn, the length of the extratubular part 5 (it shortens over the years) of the measuring string is measured for all devices (two for each horizontal skeletal root and one for the vertical skeletal roots). The described procedure allows the measurement of the thickness of the skeletal roots as often as necessary without their subsequent laborious exposure.

The data collected in dynamics on the reduction of the length of the extratubular part of the measuring string characterize the dynamics of the change in the thickness of the roots. At the same time, the degree of thinning of the roots at 50 cm on their axial line is highlighted, which allows to indirectly assess the degree of branching. Based on these data, taking into account the scientific postulates set out above, conclusions are drawn about the quality of soil conditions determined by the variants of the agrotechnical procedure under study in the concrete plantation with perennial plants.

1. Vegetation method. БСЭ, т. 4, Moscow, 1971, p. 353-354

2. Kolesnikov V.A. Root system of fruit and berry plants and methods of its study. Moscow, 1962, p. 99-124.

3. Даду К.А., Богдан И.Г. Рост и продоношение облони depending on predecessors in orchard rotation. Сб. scientific work. Perfection of seed culture production technologies. Chişinău, 1990, p. 12-19

4. Kolesnikov V.A. Root system of fruit and berry plants and methods of its study. Moscow, 1962, p. 72-90.

Claims (2)

1. Method for measuring the growth in thickness of the skeletal roots of the multiannual plant which includes exposing the roots of the three-year-old plant within a radius of 60 cm from the package, measuring the initial thickness of the roots, placing a measuring device on the roots, defined in claim 2, which provides for wrapping the root with a measuring string, which is passed through a vertically placed plastic tube, in which 2 holes are made at the top end and 15 cm below, after which the ends of the string are brought out through the top holes and tied with an elastic string brought out through the bottom holes; at the same time, two devices are installed on each horizontal skeletal root: one - at a distance of 10 cm from the bundle and the other - over 50 cm on the axial line of the root, and on each vertical skeletal root - one device at a distance of 10 cm from the bundle; covering the roots with soil, the upper end of the device being placed outside, measuring and recording the length of the measuring strings placed outside, after which in spring and autumn the length of the measuring strings placed outside is measured and based on the variation in the length of the strings the thickness of the roots is determined. 2. Device for measuring the growth in thickness of the skeletal roots of perennial plants, consisting of a plastic tube with a diameter of 15 mm and a height of 40…60 cm, in the wall of which two holes with a diameter of 6 mm are made at a distance of 2 cm from the upper end, and two holes with a diameter of 4 mm 15 cm lower; a plastic measuring string, with the possibility of being passed through the inside of the tube with its ends brought out through the upper holes, and an elastic string passed through the lower holes of the tube and brought out to the outside for tying with the ends of the measuring string.