RU2201073C1 - Method for selective cutting in natural plantations - Google Patents

Abstract

FIELD: forestry. SUBSTANCE: method involves preparing a layout of biogroups of trees in the form of polygons defining site of growing valuable trees and trees with microsystems in natural plantation; measuring distances between trees and determining taxation coefficients inside each biogroup; marking sites of growing of adjacent trees and protective zone around them; calculating areas of places where valuable trees and trees with microsystems grow; providing outlines of arrangement of biogroups of trees in plantation and preparing a layout of plantation into portions and technological corridors passing around marked biogroups. Method is used in the process of performing selective or care cuttings, in particular, in natural middle-aged or coming plantations. EFFECT: increased efficiency and provision for keeping valuable trees and trees with microsystems during cuttings and for subsequent monitoring of their development. 4 cl, 2 dwg

Description

 The invention relates to forestry, in particular to forestry and the forest industry, and can be used for selective cutting, as well as thinning, in particular thinning, in middle-aged and ripening stands of natural origin.

 There is a method of selective cutting by determining the stock of stands, based on the fact that before marking the test areas, they select in the growing accounting tree from the main element of the forest close to its average value at the systematic designated points of the stand, and around it the nearest boundary trees in the amount of 4-8 from trees of the first tier. Then measure the distance between the reference and boundary trees and between adjacent boundary trees. After this, the test site is marked out in the form of a polygon, the vertices of which are located in the centers of the trunks of the boundary trees. According to the measurement data, the polygon area, the cross-sectional area of the tree trunks and the area of the parts of the trunks of the boundary trees included in the polygon are calculated, and the stand stock on the area as the ratio of the sum of the cross-sectional areas of the tree trunks included in the test site to the area of the site (see A.S. 1436938, class A 01 G 23/08).

 The undoubted advantage of the method is that it is possible to quickly and accurately assess the correctness of selective felling by determining the stock of forest stand before and after felling.

 The disadvantage is the lack of a protective strip on the sides of a group of trees.

 The known method of selective cutting by the example of the method of thinning in middle-aged stands, including the breakdown of stands into sections, the formation of technological corridors and selective felling of trees on strips on both sides of the technological corridors. Technological corridors are formed at a distance equal to six forest stand heights, and after thinning is completed at a distance of the forest stand height from the main technological corridors, additional technological corridors are formed and thinning is carried out along all corridors (see AS 812232, class A 01 G 23 / 00).

 A significant drawback is that the main emphasis in felling is made not only on fauna trees, but also on healthy ones, which by their properties stand out from the surrounding trees and are capable of further, if not increasing the productivity of the entire stand, then at least maintaining it on the same (before cutting) level. In addition, when cutting, in most cases they do not leave trees standing near which anthills, coniferous undergrowth, symbioses, rare plants in living ground cover, and animal burrows (hereinafter they will be called microsystems).

 The technical result is the preservation of valuable trees and trees with microsystems in the process of felling and subsequent monitoring of their development.

 This technical result is achieved by the fact that inside the plantations, before they are divided into sections, the bio-groups of trees are marked out in the form of polygons of the growing places of valuable trees and trees with microsystems. Then, the distances between the trees and the taxation indices of all the trees are measured inside the bio-groups. After this, the places of growth of neighboring trees and the protective strip around them are marked. Next, they outline the layout of the biogroups of trees in the plantation and outline the breakdown of the plantation into sections and technological corridors, bypassing the labeled biogroups. Then they calculate the area of growth of valuable trees and trees with microsystems. After this, the cutting area is developed according to the prototype.

 The essence of the technical solution is to monitor changes in the area of growth of valuable trees and trees with microsystems before and after felling.

 Human intervention in the natural life of forests entails consequences (both positive and negative). After selective felling, there is a tendency to the formation of a more productive and healthy forest stand due to the selection of overripe, diseased, broken and other trees. On the other hand, the logging process damages the forest stands. Often from logging and forestry machines, the living ground cover is destroyed, most of the undergrowth perishes, branches break off. In addition, healthy trees, as well as trees around which various microsystems are located, are often cut down instead of fauna trees. It must be taken into account that the stand is a single organism and the improper removal of any of the "healthy organs" violates the spatial relationship within the entire set of trees.

 In this regard, in order to avoid the extinction of the forest and to control its quality, it is necessary to study the state of the place of growth of valuable (for example, seed, with resonant wood, etc.) trees and trees with microsystems before and after external (anthropogenic, technogenic) impact. The spatial connection between the trees makes it possible to distinguish not individual trees, but a whole group (biogroup) of trees of the same or different ages, which forms the place of growth of the leading tree.

 Well-known studies allow us to consider the concept of "place of growth" as a certain biological (and at the same time as calculated) value, which varies depending on the age of the trees, their diameters, the ratio between generations of trees, human impacts (especially the impact of past harvesting processes). As a result of a detailed study of a certain area of the tree’s growth and development site, it is possible to develop measures for caring for growing trees, which, in turn, will improve the composition of the forest plantation and its productivity, as well as allow the management of the cultivation of high-value trees. This is necessary because within the community, in particular the bio-group of trees, competition is observed between the trees. Any two trees, if only they live nearby, at some point may be rivals. Then the growth and development of one will delay the growth and development of another tree. Due to their long growth and development, as well as a noticeable change in the size and shape of their individual parts, it is on trees located in forest stands that the results of competition are most clearly visible. The leading tree has a thick and even trunk, and the crown is magnificent. Particularly intense rivalry begins when trees of the same species are adjacent. Each of the trees in the intraspecific struggle to strive to be a leader.

 From a bioenergetic point of view, any organism is a carrier of a biofield, the dimensions of which depend on the physical state of the individual. Naturally, a stronger biofield absorbs a weak one. With the onset of a moment at some age, when the energy power of one tree exceeds the counteraction of the resulting energy sum of the environment, it breaks away from neighboring trees. Preservation of primacy is possible if the biofield of the leading tree is not violated by technogenic human intervention in the natural structure of the biogroup.

 As a result, an indicator of the response of forest ecosystems to anthropogenic and other impacts is a change in the area of the place where the trees grow.

 The combination of distinctive features has a novelty and a positive effect, as well as ease of implementation in the conditions of leshozes.

 In the scientific, technical and patent literature, materials discrediting the novelty of the technical solution were not found.

 In FIG. 1 shows a cutting area with bio-groups of trees; figure 2 - the area of the place of growth of the tree with places of growth of neighboring trees and a protective strip.

 The method of selective cutting in stands of natural origin contains, for example, the following actions.

 In the plantation, before dividing it into sections 1 and technological corridors 2, valuable trees are visually selected (by the shape and diameter of the trunk, crown) and trees with microsystems 3 (Fig. 1). It should be noted that trees around which there are microsystems can belong to any class of age, ripeness and fauna. Then select several trees 4, close to the first. The obtained polygon, in which the leading (valuable or tree with a microsystem) and neighboring trees are taken as the central and boundary points, shows the area of the growing tree (Fig. 2). Such a site (biogroup of trees) 5 represents a specific place for the development of a leading tree, in contrast to the standard (20 x 60 m) test site, where the trees are a kind of aggregate without clearly traced dependences of physical and morphological properties between the trees. In this regard, it is much more convenient to calculate and analyze the taxation parameters of trees in small bio-groups. In such biogroups, all the relationships according to various indicators (properties, taxation indicators) between the leading and neighboring trees are clearly visible.

In addition, it is necessary to mark the place of its growth around each neighboring tree 6. This is due to the fact that all trees have a place of growth, it is just that the leaders have it more clearly expressed. Accordingly, in order to prevent the destruction of the growing place of the leading tree, it is necessary to protect the growing places of neighboring trees from death (for example, after anthropogenic interference). In this regard, an area prohibited for various man-made human interventions is marked out around each neighboring tree. The radii of the circles depend on the diameters of the trees and are determined by the formula:
r _c = ld _c / (d _c + d _l ),
where r _c is the radius of the circle, m;
d _l - the diameter of the leading tree, cm;
d _with - the diameter of the neighboring tree, cm;
l is the distance between the leader and the neighboring tree, m.

 It is important for the simultaneous preservation of the entire biogroup structure around biogroups to form protective bands 7 0.5-1.5 m wide. The entire biogroup of trees together with protective band 8 is separated from other trees along the outer border of the protective band with pegs 9 1.3 m high with red ribbons colors to exclude accidental felling of selected trees during the felling process.

Then, with the help of a measuring tape, the distances l _{o, i + 1} between leading and neighboring trees and 1 _{i, i + 1} between neighboring trees inside biogroups are measured, and at the same time, taxation indicators (diameter at a height of 1.3 m, full height, and t .d.) of trees with a measured fork and an eclimeter, respectively. All indicators taken are subsequently analyzed. The growth area of the leading tree is calculated according to the methodology described in the analogue. In addition, they draw up an outline indicating all the bio-groups of trees and then design a technological map for the development of the cutting area, taking into account the marked bio-groups. In particular, technological corridors and the boundaries of areas along which it is planned to lay technological corridors in the future should be marked out (both in kind and on the map) bypassing the bio-groups.

 The method of selective cutting in stands of natural origin is implemented, for example, as follows.

 The marking of bio-groups with valuable trees and trees with microsystems should be carried out prior to preparatory work, that is, before planting is divided into sections and technological corridors are formed. This will save rare specimens of nature during harvesting and forestry activities. In addition, constant monitoring of the development and growth of trees in biogroups will increase the professionalism of forestry workers, which will further facilitate their work by visually identifying a competitive individual within the biogroup that needs to be removed as soon as possible.

 Before planting it into sections 1 and technological corridors 2, the stand is marked out with bio-groups 5 with valuable trees and trees around which microsystems are located, and protective zones 7 around them, separated from other trees with pegs with ribbons 9. In each bio-group, the distances between trees and taxation indicators. After that, the areas of valuable trees and trees with microsystems are calculated, the outline of the location of the biogroups in the plantation is compiled, and a technological map for the development of the cutting area is developed taking into account the biogroups. The technology of selective cutting is carried out according to the prototype. It is recommended that 3-5 years after logging, biogroups make repeated measurements of the distances between the trees and the taxation parameters of the trees, calculate the area of the tree growth according to new data and analyze the results in terms of the quality of logging.

 The proposed method allows, by preserving valuable trees and natural objects in the bud and the integrity of the spatial relationship between leading trees with their environment in bio groups, as well as constant monitoring of the growth and development of selected groups of trees, to save rare instances of nature during logging and forestry activities.

Claims (4)

 1. The method of selective felling in stands of natural origin, including the breakdown of plantations into sections, the formation of technological corridors and selective felling of trees on strips on both sides of the technological corridors, characterized in that before planting them into sections, the bio-groups of trees are marked in the form of polygons of places the growth of valuable trees with microsystems, then inside the bio-groups measure the distances between the trees and taxation indicators for all trees, after that mark the places oizrastaniya neighboring trees and a guard band around them, and then carry out a calculation space habitats of trees and the trees microsystems further comprise outline arrangement biogroups planting trees and plantings breakdown into sections and forming technology corridors scheduled bypassing biogroups marked.  2. The method of selective felling in stands of natural origin according to claim 1, characterized in that the areas of growth of neighboring trees are marked after measuring distances between trees and taxation parameters of trees, in particular diameters, to obtain more accurate calculations of the area sizes.  3. The method of selective cutting in natural stands according to claim 1, characterized in that around the biogroup of trees mark a protective strip 0.5-1.5 m wide to preserve the integrity of the biogroup structure and identify patterns of growth and development of trees within the biogroup.  4. The method of selective cutting in stands of natural origin according to claim 1, characterized in that repeated measurements in biogroups and calculations for changing the values of the areas of growth of valuable trees and trees with microsystems are carried out 3-5 years after the last cutting to obtain accurate quality results conducting felling.

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