RU2527517C2 - Method of afforestation of slopes - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to forestry, in particular agro-forest amelioration, and can be used for afforestation in arid, for example, chalk slopes having soil cover. The method comprises mapping the reafforesting area, digging trenches in rows across the slope with the depth greater than the soil layer, stacking the excavated soil into the trenches, and the rest of the soil near the trenches down the slope, planting of woody plants. Soil of the slopes and bottom of the dug trenches is compacted. In between the rows a part of the soil layer is cut and the trenches are filled with it to form a roll. The soil remaining in between rows is compacted. The woody plants are planted in spring in the formed roll. The soil in the trenches and the soil between the rows is compacted to a density providing maximum water-holding capacity. The soil in between the rows is compacted during the growing seasons before closing crowns in between the rows.

EFFECT: method provides improved survival ability and growth of woody plants by improving their moisture content, nutrient and light regimes.

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Description

The invention relates to forestry, in particular to agroforestry, and can be used for afforestation of arid, for example, Cretaceous slopes with soil cover.

There is a method of afforestation of slopes (coast of the girder network) with soil preparation by furrows (Kharitonov GA Agroforestry of the Middle Russian Upland. - Voronezh Book Publishing House, 1958, 169 pp.). The method consists in partial soil preparation on the slopes-furrows. Across the slope, a double pass of the plow turns the turf on both sides with the creation of furrows. Further, in the furrows, the soil is loosened by a plow with a subsoiler. Then, cracks are created in the furrows with a stake and woody plants are planted in them.

The disadvantage of this method is not sufficiently good survival and growth of woody plants, which occur due to lack of moisture and nutrients in the soil of the slope.

Moisture is not enough for woody plants because one part of it, falling on the soil of a slope with melt and rainwater, flows down its surface. Another part of it seeps into the soil layers and flows down the slope of the area either intrasoil or under the soil, practically not lingering in the soil and only wetting its upper root-inhabited horizons. In addition, herbaceous plants growing between rows consume part of the soil moisture and nutrients, creating competition with planted woody plants.

A known method of afforestation of slopes (Treschevsky I.V., Shatalov V.G. Forest reclamation and zonal systems of anti-erosion measures. Voronezh, Voronezh State University, 1982, p. 159) is a prototype. A well-known solution is to create across the slope of the ditches a depth of 70 centimeters (that is, a depth exceeding the soil layer). A humus layer (soil) previously dug when digging them is poured into the bottom of the ditches, and the remaining dug earth (soil) and stones are piled next to the ditch, down the slope. Then tree species are planted in ditches.

The disadvantage of this method, as in the previous analogue is not good enough survival and growth of woody plants.

This is primarily due to the lack of moisture and nutrients in the soil, especially for dry slopes with a small soil layer (for example, undeveloped slope soils) formed on chalk deposits that are known to drain water well. Basically, in this case, rain and melt water partially “slide” down the slope superficially, and partially drain soil and slope soil into deep layers inaccessible to the root systems of woody plants. Soil moisture is also consumed by weedy herbaceous plants growing in rows and rows of forest stands. In this case, they are competitors of planted trees for moisture and food. In addition, tall weedy grass plants also obscure the newly planted seedlings, seedlings or seedlings (in the case of planting seeds) of tree species, which also negatively affects their survival and further growth, forcing them to compete not only for moisture and nutrition, but also and for the light.

Thus, the technical result of the claimed solution to the problem is to improve the survival rate and growth of virgin plants by improving their moisture supply, food and light conditions.

The technical result is achieved by the fact that the soil of the slopes and the bottom of the dug ditches are compacted, part of the soil layer is cut in the row spacings and filled with ditches with the formation of a roller, after which the soil remaining in the row spacings is compacted, and woody plants are planted in the formed roller, and the soil in the ditches and the soil in the row-spacings is compacted to a density that provides the maximum water-holding ability, while the soil in the row-spacings is compacted during the growing season until the crowns close in the row-spacings.

“The soil of the slopes and the bottom of the dug ditches are compacted, part of the soil layer is cut between the rows and filled with ditches with the formation of a roller, after which the soil remaining in the rows is compacted” - these signs are essentially private, since, together with other essential features, the presented solution can be achieved tasks of the technical result. The soil of the slopes and the bottom of dug ditches is compacted to a density that provides the maximum water holding (waterproof) ability (water practically does not pass through such soil and soil, it is retained by them). That is, melt and rainwater are kept for some time compacted to the maximum water holding capacity by the soil of the slopes and the bottom of the ditches, which improves the moisture supply of woody plants planted in the groove formed above the ditches. Rain and melt water in this case are kept (accumulated) within the boundaries of the created ditches, where the rows of stands are located, and do not flow superficially or subsoil beyond them. The compacted soil (soil and soil) of the bottom and slopes of the ditches in this case is an obstacle to the drainage of water, it accumulates rain and melt water in the boundaries of the ditches, that is, in the rows of stands, at the locations of the roots of woody plants. Therefore, the moisture supply of this planting increases, which increases its survival rate and further growth (Table 1). The roller above the ditches is formed from the soil layer partially cut off between the rows, with which the ditches are filled. By cutting off parts of the soil layer in the aisles, the destruction of weed vegetation, which occupies the upper soil layer in the aisles, which consumes moisture, nutrients and obscures young woody plants, is achieved first of all. Cutting off the upper soil layer between the rows, the root system of herbaceous plants and the stock of their seeds are cut off with it. The seeds and roots of herbaceous plants, together with the soil of the row-spacing, fall into the ditches, where at an incomparable depth some of the roots and seeds die, and the remaining ones are further destroyed by weeding in rows. Therefore, the removal of grassy vegetation together with the cut topsoil from the row-spacing and its destruction improves the moisture supply, food regime and illumination of woody plants, which positively affects the achievement of the technical result by the presented solution to the problem, that is, improves the survival rate and growth of woody plants.

Table 1. Moisture, survival and growth of woody plants in stands created in different ways. Indicators Prototype The claimed solution Survival rate,% 70-75 90-95 Growth after creation in the first 5 years, cm (acutifolia maple). 75-80 100-110 Content total moisture in a 50 cm soil layer, mm, in 2012 - May 14. one hundred 140 - / - / - / - July 27 80 126 - / - / - / - September 2 67 one hundred

After removal (cutting) of the upper part of the soil from the row-spacing, the soil remaining in the row-spacings is compacted to a density that provides maximum water-holding ability, which is necessary so that melt and rainwater do not seep through the soil, draining deep into the underlying rocks, for example, in chalk deposits. In the proposed technical solution to the problem, melt and rainwater do not seep through the row-spacing soil, but flow along its compacted surface to the maximum water-holding capacity in rows of woody plants, lingering on the slope with rollers placed above the ditches. Further, melt and rainwater are absorbed by the unconsolidated soil of the rollers where the tree species are planted, and, seeping through it, fall into the ditches, where the root system of the planted trees is located. Since the soil of the slopes and the bottom of the ditches is also compacted to the state of maximum water holding capacity and does not let melt and rain water pass, they accumulate and are kept from further filtering (drainage) within the ditches where the root system of planted woody plants is located. All this improves moisture supply, survival and growth of woody plants, which also positively affects the achievement of the technical result by the proposed solution. In addition, the aisle soil compacted to the state of maximum water holding capacity prevents the germination of weed grass seeds on its surface that fall on it (Table 2) and compete with woody plants for moisture, nutrition and light. This also contributes to the achievement of the technical result presented by the solution.

In the aisles, the upper part of the soil is removed and laid in ditches with the formation of a roller. As mentioned above, the roller is necessary to stop the meshes and rain water spacing flowing along the soil surface in the rows of stands where the still undeveloped root system of recently planted trees is located. In this case, the trees will be better provided with moisture, which will positively affect their survival and further growth.

To form a roller, the upper part of the soil cover (layer) of the row spacing is cut, while the lower part is left, which is also compacted to the state of maximum water holding (waterproof) ability. This is necessary because, as a rule, on slopes, the soil is located on Cretaceous deposits (soils), which have a high drainage (water permeability) ability and poorly retain melt and rainwater, even in a compacted state on its surface. If you cut the whole row-spacing soil and leave only chalky soil, then melt and rainwater will vertically drain and leave the row-spacings to great depths, and not flow along their surface within the rows with tree root systems, which will reduce the moisture supply of the plantations and negatively affect the achievement technical result presented by the solution to the problem.

Table 2. Weedy plantations are littered and illuminated 5 years after planting on July 27, 2012. Indicators Prototype The claimed solution The number of weed herbaceous plants in the aisles pcs / m ² . 10-15 1-2 The number of weed herbaceous plants in the rows pcs / m ² . 15-17 8-10 Illumination of plantations 5 years after planting in Kluksy for 11 hours at a height of 20 cm from the soil surface. 49 68

And the lower part of the soil layer left in the rows between the rows after compaction to the maximum water holding capacity keeps melt and rainwater on the soil surface of the slopes of the rows and sends them to the rows of woody plants, which positively affects the improvement of the moisture supply of the plantations.

In the spring created above ditches, woody plants are planted because the most wetting of the soil, which is filled with ditches, is produced by meltwater, since their supply is much greater than that from rain and rainfall. Therefore, the soil has the greatest moisture reserve in the spring and planting of woody plants at this time also improves their survival, which positively affects the achievement of the technical result by the presented solution to the problem.

The soil in the aisles is compacted to the state of maximum water holding capacity (water tightness) during the growing season until the crowns close by planting in the rows. These operations are necessary to maintain the row-spacing soil in a constant compacted water-holding (waterproof) state, which improves not only survival, but also the growth of the planting due to the better provision of trees with moisture, nutrition and light for as long as possible. After closing the crowns in the row-spacings, it is already impossible to use equipment or tillage tools on horse drawn traction to compact the soil due to their obstruction in the overgrown row-spacings. In addition, by this time, the root systems of woody plants are developing so much that they become able to provide themselves with moisture and nutrition. Further growth and development of woody plants occurs independently.

Thus, each essential feature is necessary, and their combination is sufficient to achieve the technical result presented by the solution of the problem.

The invention is as follows.

The bald slope has a steepness of 9-10 degrees. The soil of the slope is undeveloped, with a depth of 12-14 centimeters. It is one of the varieties of chernozem soils. The underlying rock or soil (the rock on which the soil was formed) is chalk, which has good water permeability (drainage) ability. The slope of the southern exposure is quite arid. Covered with grassy vegetation, represented by wormwood, yellow clover and cereal.

Afforestation of the slope began with the marking of the forested area. Future planting rows were marked with pegs, while the rows were marked across the slope, the row spacing was about 3 meters.

At the end of summer, in the middle of August, they dug in the marked rows of triangular ditches, with a depth of about 50 centimeters, which is much lower than the soil layer of the slope. The width of the ditches in the upper part was approximately 80-100 centimeters. Ditches were performed using a grader DZ-98. In the marked rows of the future planting, the middle grader knife was obliquely buried and passed through an angle along the future row in two or more passes. Moreover, the first pass removed (cut) the soil to a 12-14-cm depth and laid it up the slope from the ditch. And the second and subsequent passes of the grader cut the soil to a 50-cm depth and laid it next to the ditch down the slope. After that, the soil that was originally dug and laid near the ditch with the help of a grader was again shifted to the dug ditches so that it covered the soil exposed in the ditch. Then, using one section of the ZKVT-1.4 smooth water-filled skating rink in an aggregate with a T-40 tractor or on horse drawn traction, the soil and soil under the soil (soil) of the slopes of dug ditches were compacted by rolling to a density providing maximum water retention capacity. On chernozemic soils, the greatest water-holding (waterproof) ability occurs when they are compacted up to 1.5-1.6 g / cm ³ , on other types of soils, the highest water-holding ability is observed at other densities. At the same time, the soil cut from the ditch by the first pass of the grader and laid again on its bottom closes the draining chalk deposits exposed on the bottom of the ditch by the second pass of the grader. And after compaction of this soil and the soil beneath it, the slopes of the ditch and its bottom become waterproof, well holding and accumulating rain and melt water entering the ditches from the aisles along the slope. Then, the grader cuts off part of the soil from the row-spacing (in this case, to a depth of 5-7 centimeters) and fill it with ditches with compacted soil and soil (soil) of slopes and the bottom with the formation of a roller. Together with part of the cut soil, the root system and seeds of herbaceous plants growing on the slope fall from the aisles into the ditches. Getting into the ditches to a considerable depth, part of the roots and seeds of herbaceous plants die, because they can not germinate from such a depth. Another part of them is subsequently destroyed in the ranks by mechanical and chemical weeding. Then in the spring, after spring snow melting and natural moistening of the soil located in the ditches, and the appearance of a state of physical ripeness in the rollers formed above the ditches, seedlings of woody plants were planted using an MLS-1 forest planting machine in an aggregate with an MTZ-80 tractor. After that, during 5–7 growing periods, 5–6 times during the growing season (before the crowns closed in the row-spacings), the soil was compacted in them using smooth water filling rollers ZKVT-1.4 in aggregate with a tractor MTZ-80 to a density that ensured the state of maximum water holding abilities. In this case, the surface density of the row-spacing soil was maintained in the range of 1.5-1.6 g / cm ³ . At the same time, firstly, the compacted row-spacing soil prevented the seeds of herbaceous plants that got on it from germinating (germinating seeds with a soil density that ensures its state of maximum water-holding ability are not able to go deep into their roots and die from lack of moisture). Secondly, rain and melt water were not absorbed by it due to its large water-holding ability, but rolled down its surface into rows of stands where they were absorbed by loose soil of rollers, fell into the ditches and kept there by compacted slope soil, which increased moisture supply, survival and growth woody plantation plantings. Herb plants growing in rows until the crowns closed in the aisles were destroyed by mechanical and chemical weeding.

Claims (1)

The method of afforestation of the slopes, including marking the forest area, digging ditches in rows across the slope with a depth exceeding the soil layer, laying dug soil in ditches, and the rest of the soil next to the ditches down the slope, planting woody plants, characterized in that the soil of the slopes and the bottom of the dug the ditches are compacted, part of the soil layer is cut off between the rows and filled with ditches to form a roller, after which the soil remaining in the rows is compacted, and woody plants are planted in the formed roller in the spring, and the soil ground and soil in the trenches between the rows is compacted to a density for maximum water-holding capacity, while the ground between the rows is compacted during the growing season to clamp crowns between rows.