RU2265994C2 - Method for renewal and reforming of birch forest crop - Google Patents

Abstract

FIELD: forestry, in particular, special cleaning cuttings.

SUBSTANCE: method involves renewal and reforming of near-mature, mature and over-mature birch and birch-and-aspen forest crops by sighting-shelterwood cutting method over the entire cutting area through continuous tree cutting in technological roads and technological sightings until limit of relative density of its remained part reaches 0.6 to 0.8, which is optimal for natural forest renewal of basic kinds of trees, with technological roads being cut in western direction relative to sides of the world, and technological sightings being cut at an angle of 30-40 deg to technological roads in wood logging direction.

EFFECT: provision for creating optimal environmental conditions for natural birch seedling coppice or artificial regeneration of coniferous kinds of trees following cutting operations.

2 cl, 6 tbl

Description

The invention relates to forestry, in particular to specialized types of cutting of forest care - to cutting and reforming cuttings of the forests of the first group performed in those categories of protection, where logging for the main use of forest legislation is prohibited, and the main edificator of the ecosystem is a tree stand by age structure and sanitary condition quickly loses its target function, as well as the commercial value of wood and needs to be updated or restructured. The inventive method is applicable in pure birch or mixed birch-aspen stands growing in the forest-steppe zone on drained and periodically moist soils in those types of forests where natural regeneration of target species can be ensured, including with the implementation of assistance measures or the creation of coniferous forest crops .

There is a method of uniformly-gradual two-reception cutting of main use in deciduous-coniferous forest with a second tier of coniferous trees, in which approximately 50% of the upper tier of the forest stand is cut down at each reception. The second intake is carried out no earlier than 5 years after the first. The second tier is not subject to felling, with the exception of heavily damaged and fauna trees. In deciduous forest stands with a fullness of 0.6 and higher, if they have the required number of trees of the second tier or undergrowth of coniferous trees, along with a uniformly gradual two-reception cutting, inter-strip gradual cutting can be carried out, in which a ripe deciduous tree stand is cut in two steps. Before logging, the cutting area is divided into strips - apiaries 30-35 m wide (depending on the height of the stand). In the first dose, deciduous stands are cut down in stripes in even strips - apiaries; in the second dose, after 4-6 years, deciduous stands are cut in the remaining odd strips - apiaries. The cutting area is established taking into account the state and sustainability of forest stands by forest groups (General felling rules in the forests of the Urals. Rosleskhoz. M. 1994, 7, 8).

There is a method of specialized thinning in ripening and ripe stands with stands of soft-leaved unwanted or secondary trees that quickly lose their objective function due to diseases, in which in areas with drained soils (acidic and similar types of forests) in high-density stands (full 0.8 and above) with the undergrowth or the second tier of the target conifers under the canopy, the latter are cared for by removing about one third of the trees of the first tier for each felling at intervals 0.4-0.6 m between meals age class. In forest stands with a fullness of 0.7-0.5, deciduous trees of the first tier are removed when caring for coniferous undergrowth or second tier in two cuttings, including strips equal in width to the height of the stand and an area of up to 0.3-0.4 hectares (Manual on thinning in the forests of the Urals. Rosleskhoz. M., 1994, p. 54, 55) - prototype.

However, high-intensity felling of primary or intermediate use in deciduous stands in the aforementioned regime is possible only in the forest zone, where birch and aspen are well renewed under the canopy of stands and at felling, are pioneer, but secondary or undesirable tree species. In the forest-steppe zone of the Urals and western Siberia, birch is the main and predominant species. For individual leshozes, it occupies from 40 to 90% of the forested area. Birch forests here perform important ecological environment-forming and field-soil protection functions, contribute to increasing crop yields.

Over the last 50-year period of farming in the birch forests of this zone, a number of acute problems have accumulated due to the extremely low level of development of the estimated annual cutting area for main felling, unregulated cattle grazing, as well as continuous and gradual felling in analogue and prototype modes, which led to the spread of pests and diseases in birch forests. Currently, overripe and ripe birch plantations occupy more than half of the forested land. They are low- and medium-sized, of different ages, mainly of vegetative origin and unsatisfactory sanitary state, therefore they begin to lose their environment-forming and agroforestry functions, as well as the market value of wood and need to be replaced. The output of business assortments is 27-42%. In addition, the exploitation fund of pre-generation birch plantations by undergrowth in selected forest-growing areas is provided for only 0.8–13% of the area. The continuous method of cutting birch and aspen stands, which is mainly used in all forest-growing zones of Russia, is not acceptable in the forest-steppe zone. Felling in the predominant groups of forest types of birch forests of different grasses in the first year is overgrown with reed grass and aspen, and grass-bog forest willow, meadowswort and sedge. The process of seed renewal of birch is terminated. Due to the low resistance to soil salinization in subsequent years, after 5-15 years, aspen dies and the rise in groundwater level begins. This leads to an undesirable change in the typological structure of birch forests (Table 1), waterlogging or salinization of soils in large areas of the forest fund, as well as adjacent agricultural land.

Table 1 Changes in the typological structure of birch forests over a 50 year period in forest growing areas of the forest-steppe zone of the Tyumen region,% Forest Type Group Forest area Tobolo Isetstky Omutinsky and typical forest-steppe Zone average 1952 2001 1952 2001 1952 2001 Green-berry 4.8 0.6 - - 2.4 0.3 Dolomoshny 0.5 - - - 0.3 - Sphagnum - 1.7 - - - 0.9 Herbal 65.9 63.9 86.8 67.7 86.3 65.8 Grass marsh 28.8 33.4 11.2 25.8 twenty 29.6 Floodplain - 0.4 2 6.5 one 3.4

The materials of Table 1 show that after felling by known methods, the highly productive birch forests of the green-berry group of forest types were transformed into less productive grassy plants with periodically excessive moisture, and fresh grassy ones, in turn, turned into a grassy-bog group of the forest type. In the forest-steppe zone of the Tyumen region, this process is especially intensive in the Omutinsky forest-growing region of large-birch birch forests and loans and in a small-bell typical (middle) forest-steppe. Here, the area of waterlogged forest types (grass-swamp and floodplain) over a 50-year period has more than doubled. And according to the latest data in the forest-steppe zone of the Kurgan region, the area of dead birch plantations (extrusions) is already about one third of the area of forest covered lands of the forest fund of the region.

We need to focus on the development of gradual methods for updating and reforming birch forests.

In the process of scientific research carried out by the authors of the application, in recent years it has also been found that in the forest-steppe zone for natural seed and shoot regeneration of birch, 0.6-0.8 should be considered the optimum fullness. At higher fullness, the birch undergrowth quickly dies from a lack of light and the root competition of the mother stand for mineral nutrition elements, and at full weights of 0.5 and below, the development of grassy vegetation and the intensity of soil sodding under the canopy of the stands occur almost the same as in clear-cutting after clear-cutting tree stands.

In the birch forests of the forest-steppe zone, the width and direction of clear-cutting clear-cutting stands relative to the cardinal points are important. On felling areas, as well as on drafts and loading pads located long side from north to south, the process of renewal of birch, aspen and the development of grass stand occur almost equally high intensity for any width. To reduce the intensive development of the grass stand and the detrimental effect of solar radiation on seedlings (burns of the root neck or death of seedlings from desiccation of the soil), the cutting areas must be located from east to west, and the width of the clear cutting of the stand in the apiary should not exceed half the height of the stand so that in the afternoon, the shadow from its left part and grass stand created favorable microecological conditions for the germination of seeds of woody plants, rooting of seedlings and the safety of undergrowth.

In addition, in birch and aspen plantations, in comparison with coniferous plants, it is much more difficult to carry out uniform (sub-tree) thinning of the tree stand due to the fact that birch and aspen have a sympodial branching type, in which a wide crown with thick branches is formed. When felling, such trees often hang on neighboring trees, while skidding destroys almost the entire undergrowth of preliminary generation.

The technical task of the proposed method for updating and reforming birch plantations is to create optimal environmental conditions for concomitant felling of natural seed regeneration of birch or artificial regeneration of conifers, the safety of undergrowth and other age groups of trees of the target species of the left part of the forest stand. Such conditions in the forest can be created by regulating the completeness or closeness of the main edificator of the forest ecosystem by cutting, followed by mineralization of the soil substrate, its preparation for seed germination and preservation of seedlings of birch, as well as seedlings of coniferous seeds sown in mineralized strips.

The task is achieved by the fact that in the forest-steppe zone, the renewal and reformation of the ripening, ripe and overripe birch and birch-aspen stands is carried out in a gradual and gradual way over the entire area of the cutting area by clear-cutting trees on technological corridors and technological vizors to the limit optimal for natural reforestation of target species relative completeness of the left part from 0.6 to 0.8, while technological corridors relative to the cardinal points are cut in the western direction lignation, and technological sights are cut at an angle of 30-40 ° to the technological corridors and mainly in the areas of the cutting area with a relative density of forest stand of 0.8 or more, to update the age structure of the birch forest after each logging on the technological sights, as well as in the apiary in places without undergrowth of target species, the soil is mineralized, and to transform the composition of the birch forest stand into coniferous-birch coniferous plants simultaneously sown in mineralized stripes at the same time as the mineralization of the soil, at m the number of receptions of logging and thinning intensity in each technique are assigned depending on the original to the felling of fullness and categories of protection of forests of the first group. In specially protected natural areas and forest areas, the intensity of felling at each reception should not exceed 15%, in all the rest - 25% of the total area of the cutting area.

When comparing with the prototype of the proposed method, the following new technical solutions are found:

- the forest stand is cut out over the entire area of the cutting area by clear cutting of trees on technological corridors and technological viziers to the limit of relative fullness of the left part from 0.6 to 0.8 for the natural regeneration of the target species;

- technological corridors relative to the cardinal points are cut in the western direction, and technological sights - at an angle of 30-40 ° to the technological corridors in the direction of skidding, and mainly along sections of the cutting area with a full stand of 0.8 and higher;

- after each harvesting on technological viziers, as well as in apiaries, felling areas in places without undergrowth of target species mineralize the soil;

- in order to reform the composition of the birch forest stand into coniferous-birch coniferous plants seeds are sown in mineralized strips simultaneously with soil mineralization.

- in specially protected natural territories and forest areas, the intensity of felling at each reception of the total area of the cutting area should not exceed 15%, in all others - 25%.

Therefore, the claimed method meets the criterion of "novelty."

The claimed combination of features provides a new property, namely

- the typological structure of forests is maintained;

- felling regime and measures to promote the natural regeneration of birch or artificial renewal of coniferous plants by the claimed method contribute to the development of herbaceous vegetation in the range from 11 to 25% of the projective coverage of the cutting area. This contributes to the creation of favorable microecological environmental conditions for seed germination, the safety of seedlings and undergrowth of birch, and conifers.

To perform felling updates and reorganization by the claimed method, as a rule, a wide-hazard technology is used, in which apiary technological corridors 1 are laid rectilinearly through 70-80 m in a westerly direction (see drawing). Between the technological corridors in the inter-stripe band 2 lay technological vizors - passages of equipment 3 aggregate or traditional. In each of the half-sections, the sights are laid at an angle of 30-40 ° to the technological corridors 1 in the direction of logging of whips or assortments. In the center of the interfiber strip 4, the technological sights change their direction at an angle of about 90 ° to each other, while in half-sections, their direction may not be straightforward due to the fact that the sights are laid mainly in sections of the cutting area with a full stand of 0.8 and higher. The main purpose of technological sights is to reduce the completeness of the left part of the stand 5 to the optimal values for the natural seed regeneration of birch to the limit of relative completeness from 0.6 to 0.8. The width of technological corridors and sights should be from 5 to 8 m.

The advantage of laying technological corridors and sights of the claimed method lies in the fact that the fullness of the stand is reduced to optimal by clear cutting of trees on them. This significantly increases the productivity of felling and logging of whips or assortments, as well as clearing the cutting area from knots, while reducing damage to the left part of the stand and undergrowth in apiary of the cutting areas in comparison with the prototype and analog methods. In addition, in narrow sections of the cutting area - on technological corridors and viziers, as well as in sparse apiaries, favorable microecological conditions are created for the germination of birch seeds and the safety of seedlings (Tables 2, 3, 4) on mineralized soil in grooves 6 laid by the PPL- plow 0,7С - a subsurface forest plow with a seeder.

table 2 The number of annual shoots of birch and pine in plow furrows on mineralized soil and aspen in the rows of mineralized furrows, thousand units / ha Forest growing area, subzone Breed index The number of seedlings under the canopy of the stand at fullness The number of seedlings in the felling width 0.6-0.8 (the inventive method) 0.3-0.5 (prototype method) 5-8 m (the claimed method) 25 m 100 m (prototype method) Tobolo-Isetsky, northern forest-steppe B 560.0 185.4 509.2 161.4 68.0 FROM 10.8 14.8 4.6 2,8 0.2 Os - 10.6 0.8 1,2 12.8 total 570.8 190.8 514.6 165.4 81.0 Omutinsky, northern forest-steppe B 340.2 170.3 255.7 80.8 60,4 FROM - - - - - Os - 8.8 - 6.4 10,2 total 340.2 179.1 255.7 87.2 70.6 Berdyuzhsky, typical forest-steppe B 180.0 90.3 151.6 77,2 43,4 FROM - - - - - Os - - - 3,1 10.0 total 180.0 90.3 151.6 80.3 53,4

Table 3 The dependence of the number and safety of birch seedlings on mineralized soil in the furrows under the canopy of the stand on its completeness, pcs / m ² Forest area Seedling age, years The number of seedlings at full stands 0.3 0.4 0.5 0.6 0.7 0.8 0.9 and higher Tobolo Isetsky 1 - years
2 - years 14.9
1,0 37.1
3,5 40.9
3.8 56.8
7.2 32,4
10,4 24.7
6.5 6.9
2.2 Preservation,% 6.7 9,4 9.3 12.7 32.1 26.3 17.4 Berdyuzhsky 1 - years - 15.0 19,4 22.3 20.5 12.3 11.0 2 - years - 1.4 2.5 6.4 8.9 6.5 - Preservation,% '' 9.3 12.9 28.7 43,4 52.8 -

Table 4 The dependence of the number and safety of seedlings of birch on mineralized soil in the furrows on the closeness of the grass stand, pcs / m ² Forest area Seedling age, years The number and safety of seedlings in groups of grass stand closeness up to 5% 6-10% 11-15% 16-20% 21-25% 26-30% Tobolo Isetsky 1 - years 20.8 42.7 11.2 47.2 31,0 23.5 2 - years 3.8 5,4 13.7 13.5 5.3 3.0 Preservation,% 18.2 12.6 13.5 28.6 17.1 12.8 Berdyuzhsky 1 - years 12.1 11.0 23.7 22.0 19.0 17.0 2 - years 1,2 1,5 3.9 8.1 6.5 1.3 Preservation,% 9.9 13.6 16,4 36.8 34.2 7.6

The results of the experiment, given in Tables 2, 3, 4, show that the most favorable conditions for the germination of birch seeds and rooting of seedlings are created in the northern forest-steppe (Tobolo-Isetsky forest growing area) within the relative densities of the forest stand from 0.5 to 0.6 and grass closeness from 11 to 20%, and the best conservation of seedlings in the second year - within the limits of completeness from 0.7 to 0.8 and grass closeness from 16 to 25%. In a typical forest-steppe (Berdyuzh district), birch seeds germinate better when the stand is full from 0.5 to 0.7 and the grass stand is from 11 to 25%, and the best seedling safety in the second year of observation is established when the stand is full from 0.7 to 0, 8 and grass stand closure from 16 to 25%. Thus, for the seed offspring of birch in a typical forest-steppe, which differs from the northern one by a higher temperature and lower humidity of air and soils in the renewable period, a higher closeness of the stand and a projective covering of the soil with grass is necessary to protect seedlings from direct sunlight and dry out the upper soil horizon.

Table 5 The number of undergrowth on birch logging 5 years ago without soil mineralization, pcs / ha (prototype cutting method) Forest area Vegetative origin of undergrowth Seed origin Total undergrowth Composition stumps of birch with a shoot Poslevlev on 1 stump, pcs. root-offspring aspen total undergrowth Birch tree Pine Tobolo Isetsky 450 6.0 23000 25700 1150 510 27360 8.40s 1.4B 0.2C 410 6.8 2900 5688 350 one hundred 6038 5B 4.80s 0.2C Berdyuzhsky 299 4.7 1255 2660 293 - 2953 6B 40s, 438 5.3 - 2321 1186 - 3507 10B 302 5,6 1842 3533 404 - 3937 5B50s

Table 6 Average taxation indicators of prevailing species in the forest-steppe zone of the Tyumen region as of the last revision period Tree species Average performance Age years Relates. fullness Bonitet class Stock per 1 ha, m ³ Growth per 1 ha, m ³ Northern forest-steppe, Tobolo-Iset district Pine 67 0.74 II, 2 198 3.2 Spruce 40 0.68 II, 6 184 2.0 Birch tree 56 0.68 II, 3 133 2.1 Aspen 34 0.72 II, 1 123 3.3 Northern forest-steppe, Omutinsky district Pine 36 0.80 I, 4 128 4,5 Spruce nineteen 0.63 II, 2 21 2.0 Birch tree 52 0.64 II, 7 125 2.1 Aspen 28 0.68 I, 9 106 3,1 Typical forest steppe Pine 25 0.80 I, 3 118 4.3 Spruce 16 0.65 II, 5 70 1.8 Birch fifty 0.62 II, 8 119 2,4 Aspen 25 0.64 I, 9 78 3.2

According to the materials of Table 5, the following general patterns of reforestation processes at clearings of the prototype cutting method for all forest growing areas can be established. In the presence of aspen in the maternal forest stand, the process of renewal at felling occurs with the change of birch to aspen, and at 5-year-old felling, aspen prevails or is involved in young growth. Birch in the composition of young growths is always of mixed seed and vegetative origin, but with a different share of participation of each of them. It depends on the age of the cut down maternal stand, seed yield and season in the year of felling. In winter logging, seedlings of seed birch occur in the harvest year only at loading sites with a mineralized soil surface, and their number is usually in the range from 200 to 400 pcs / ha. In summer felling areas, the number of seed birch species increases by about 3 times (see Table 5). In these clearings, seed birch is already found on mineralized trails, loading platforms and very rarely in apiaries of cutting areas. But even in this case, the number of overgrowth specimens is always greater than seed specimens 2.7–16.2 times. Thus, measures to promote natural regeneration are needed to increase the number of undergrowth of seed birch undergrowth, and to increase the growth rate of birch trees, they must be cut no later than 60 years of age in all forest-growing areas of the forest-steppe zone.

Estimating by standards the total seed and shoot population of undergrowth in clearings, given in table. 5, the following should be noted. The renewal process over a 5-year period ended only in individual felling areas in the Tobolo-Iset forest area, where the composition is dominated by root shoot aspen. In all other areas of the undergrowth, there is an insufficient number and, in accordance with the requirements of regulatory documents, it is necessary to plant forest crops on these clearings or to mineralize the soil for at least 20% of the area if the width of the clearings is not more than 100 m. With a wider width, the process of mineralization of soil for seed The renewal of the main breed by birch in the forest-steppe zone most often does not give positive results, since the bulk of the seeds of birches from the walls of the stand in the forest usually scatter no further than two of its heights. Therefore, it is necessary to create forest crops.

When reformulating the composition of the birch tree stand into a coniferous-birch tree according to the claimed method, simultaneously with soil mineralization, seeds of pine or larch are sown in a steadily fresh group of forest types, and in periodically wet seeds of the tree were spruce in mineralized strips using the PPL-0.7S plow. The validity of this decision is confirmed by the materials of table.6. Pine and spruce in the northern and typical forest-steppe of the Trans-Urals successfully develop according to grades I-II, form high-density plantations with a stock of wood at a ripening age of up to 600 m ³ / ha.

The set of technical solutions cited creates a new non-obvious quality of the problem of updating and reforming birch forests in the forest-steppe zone of the Trans-Urals, which is expressed in the reduction of labor costs and funds for logging and reforestation of target species, as well as in the conservation and improvement of the environment-forming, field-protecting and forest-raw materials functions of birch forest-steppe zones.

Claims (2)

1. A method of updating and reforming birch plantations, including multi-receiving, periodically repeated thinning of the stand and measures for reforestation of target species, characterized in that in the forest-steppe zone, the forest stand is cut out over the entire area of the cutting area by clear cutting of trees on technological corridors and technological vizors to the optimum for natural reforestation target rocks the limit of the relative completeness of the left part from 0.6 to 0.8, while the technological corridors relative to the cardinal points cut down in a westerly direction, and technological sights are cut at an angle of 30-40 ° to the technological corridors in the direction of skidding of wood and mainly along sections of the cutting area with a relative density of forest stand of 0.8 and higher, to update the age structure of the birch forest after each logging on technological sights and in apiaries, felling areas in places without undergrowth of target species mineralize the soil, and for the conversion of the composition of the birch forest stand to coniferous-birch at the same time as the mineralization of the soil, sow ene conifers in the mineralized strips. 2. The method according to claim 1, characterized in that the number of logging techniques and the intensity of thinning in each method is assigned depending on the initial to logging completeness of the stand and the category of protection of forests of the first group, while in the specially protected natural territories and forest areas, the intensity of logging in each reception should not exceed 15%, in all the rest - 25% of the total area of the cutting area.