RU2038721C1 - Method for recultivation of steep slopes on mining spoil banks - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: known method involving sowing of slopes with perennial grasses in spring and summer, planting trees and brushwood is improved by new techniques and their implementation. The sowing rate on steep slopes of spoil banks with a gradient exceeding 30 deg is 2-3 kg/ha of small-seed and 5-6 kg/ha of large-seed bean grasses. These grasses forming a flower-nectar conveyor with a long blooming period and an optimum range of bee pollinator plants are arranged according to species from top down along the steep slope in alternating strip-shaped areas taking in account existing microclimatic and hydraulic characteristics of the slope. Besides, strip-sown bean grasses are separated every 15 m by regular horizontal strips at least 3 m wide of garden forms of perennial lupine in combination with medicinal honey plants, toxic or poorly-eaten phytophages. The prevailing species of brushwood plants include nectarous and pollen-carrying plants formed into a flower-nectar conveyor, and the individual species are planted from top down over the steep slope taking in account the existing microclimatic and hydraulic conditions of the slope. The upper part of the slope is sown with brushwood in the form of a solid massif, in a cellular pattern in the middle and in vertical strips at the bottom. EFFECT: higher efficiency of recultivation achieved by increased productivity and stability of created biocenoses, freeing valuable plowland for crops demanding rich soils. 2 dwg, 1 tbl

Description

 The invention relates to agriculture, mainly to the restoration of steep slopes of land dumps, violated by opencast mining.

 Reclamation of disturbed lands includes agricultural and reforestation areas. During agricultural reclamation, as a rule, applying the soil layer to disturbed lands is practiced. In reforestation, it is usually not customary to apply a soil layer.

 Known methods of agricultural land restoration on non-phytotoxic rocks, which are carried out by applying to the rocks paleogruntov and / or humus layer of soil of different thicknesses; by additionally creating an artificial waterproof layer, which ensures the removal of excess water during irrigation or improves the availability of moisture in the root layer; additionally, the thickness of the recultivated layer is increased by adding rich organic matter. Methods have also been developed for using a humus layer with a shelf life of more than 5 years.

 Before applying paleogrunts and / or soil layer, a waterproof screen is arranged on the surface of phytoxic rocks, for example of clay sediments, or a powerful water-impermeable layer of forest-like loam, which can be supplemented by a layer of sandy sediments from below. However, all these methods of agricultural reclamation are laborious and up to 90% of the costs of reclamation are involved in the development, storage and creation of the soil layer.

 During reforestation, it is usually not customary to apply the soil layer. There is a known method of reforestation in Kuzbass, where sea buckthorn, larch, birch and pine are most successfully grown from tree species on dumps without soil cover, and sea buckthorn has higher growth rates on dumps than on arable lands, and is resistant to salinity. However, this method has the following disadvantage. Monoculture of shrub plantings increases the risk of pest outbreaks.

 Closest to the claimed method is a method of combating erosion on dumps. With this method, on the dumped dumps and slopes of the quarries, in the very first years they carry out the tinning by sowing grass in its pure form and in grass mixtures (a mixture of legumes and cereal grasses). For example, at a 100% agricultural shelf life of seeds, the seeding rate in grass mixtures on sand, kg / ha: beechless campfire 10-12 + red fescue 8-10 + sainfoin 30-35 + yellow alfalfa 4-6; on clays: sheep fescue 8-10 + broad-leaved wheatgrass 8-10 + blue-alfalfa alfalfa 4-6 + sainfoin 30-36; on loams and mixes of rocks: bonfireless bonfire 10-12 + meadow fescue 10-12 + red clover 8-10. At the same time, total grass seeds per 1 ha are sown, for example, on sands of 52-63 kg, on clay 50-62 kg, on loams and mixtures of rocks 28-34 kg.

 Sowing herbs and their mixtures is carried out in spring (on planned flat areas under the cover of barley or millet, on slopes without cover) and in summer (in July, the first days of August, without cover).

 Tinning is widely used on slopes of terraces, water-regulating dumps, drainage hollows, and dumping ditches.

 After tinning, forest crops are placed for erosion and greening purposes. Massive forest stands are created on the steep slopes of dumps, talus, inter-ridge depressions in order to strengthen them. On the steep slopes of dumps, quarries, it is impossible to apply mechanization, therefore, they carry out the forest planting manually. Grass sowing is also carried out manually or by a hydro-monitor method.

 In the known method, the efficiency of reclamation is low, since the productivity of the created biocenoses is low and unstable due to the lack of directed formation of the entomofauna, especially the fauna of insect pollinators, entomophages and phytophages. In the known method, a set of herbs for tinning slopes and planting tree-shrub plants are not formed into a flower-nectar conveyor, moreover, such a set is not sufficient for organizing a flower-nectar conveyor with a long flowering period covering the summer pollinators. On such a set of herbs for tinning slopes and tree-shrub plants used to protect against water erosion, it is impossible to organize an apiary to receive honey; it is unsuitable for the formation of a full-fledged complex of local pollinators and, as a result, does not allow one to focus on obtaining legume grass seeds and fruit and berry products pollinated by plant insects in the created biocenosis; the set of plants used in the known method does not provide an additional food supply throughout the summer period of entomophages, which reduces the stability of the formed biocenosis.

 Large norms for sowing legume grass seeds in their pure form and in grass mixtures used for tinning in the known method lead to a sharp rise in price and prevent good seed yields due to thickening of the grass stand due to a decrease in the number of flower stems and their accessibility to pollinators.

 In the known method, seeds of one or a uniform mixture of several plant species are used to mend the slopes, which does not allow taking into account their species characteristics and optimally realizing the productive potential of individual plant species depending on the change in micrometeorological conditions and the slope hydro mode.

 In the known method, continuous plantings of tree-shrub plants are carried out, which does not allow creating the necessary microclimate for pollinators and entomophages.

 Solved by the invention, the task is to create a method of reclamation of steep slopes of mining dumps. The technical result achieved by the implementation of the invention is to increase the efficiency of reclamation by increasing the productivity and sustainability of the created biocenoses, releasing valuable arable land for crops demanding soils.

Improving the effectiveness of reclamation is achieved due to the fact that in the known method, including tinning with perennial grasses in spring and summer, planting trees and shrubs, new methods and conditions for their implementation are introduced. The seeding rate on steep slopes of dumps over 30 ^° is 2-3 kg / ha of small-seeded and 5-6 kg / ha of large-seeded perennial leguminous grasses. These herbs, formed into a flower-nectar conveyor with a long flowering period and an optimal set of plants for bee pollinators of legumes, arrange alternating tape arrays from top to bottom along the steep slope of the dump, taking into account the existing micrometeorological conditions and the hydraulic regime of the steep slope of the dump. In addition, tape crops of perennial leguminous grasses every 15 m share regular horizontal stripes of at least 3 m wide based on garden forms of perennial lupine (Russell hybrids), in combination with medicinal honey plants, poisonous or poorly eaten phytophages. At the same time, the species composition of woody-shrub plants is dominated by nectaronids and dust-bearing plants formed in a flower-nectar conveyor, and species are planted from top to bottom along the steep slope taking into account existing micrometeorological conditions and dump hydraulic mode. At the top of the slope, woody and shrubby plants are planted in a continuous massif, in the middle along the cellular structure, in the lower part, vertically tape plantings.

 The table shows the results of a study of the prior art when checking the compliance of the invention with the requirements of an inventive step.

 In the proposed method, new properties lead to an increase in the efficiency of reclamation by increasing the productivity and stability of the created biocenosis, releasing arable land for crops demanding soils.

So the use on steep slopes of more than 30 ^{about the} seeding rates of perennial leguminous grasses characteristic of seed crops, reduces the cost of sowing by reducing the seeding rates.

 An increase in the productivity of the created biocenosis is ensured by obtaining seeds of perennial leguminous grasses, which is achieved, firstly, by sowing seeds of perennial leguminous grasses, in which conditions for seed setting and maturing are improved, and, secondly, by optimal nutritional value for wild bee pollinators plants sown on the slope, and a long period of flowering, covering the summer time of legume pollinators, which allows attracting and directionally forming the fauna of these pollinators and guarantees Sustainable seed production of perennial leguminous herbs. Thirdly, the planting of woody-shrubby plants at the top of the slope is carried out in a continuous array, in the middle along the cellular structure, in the lower part, vertically tape, such planting helps to increase the seed productivity of grass and shrubby plants pollinated by insects due to more complete pollination and preservation of the crop, which is achieved by creating micrometeorological conditions favorable for pollinators and entomophages. Fourth, the formation and preservation of the seed crop of perennial leguminous herbs is facilitated by dividing regular horizontal stripes of at least 3 m wide every 15 m on the basis of garden forms of perennial lupine, in combination with medicinal honey plants, poisonous or poorly eaten phytophages. Such stripes based on garden forms of perennial lupine prevent the penetration, settlement and reproduction of pests-phytophages in the sowing of leguminous grasses and at the same time attract pollinators.

 An increase in the productivity of the created biocenosis is also achieved by placing grassy and woody-shrub plants in top-down views along the steep slope of the dump, taking into account the existing micrometeorological conditions and the hydraulic regime of the dump, which makes it possible to more fully realize the productive potential of individual plant species due to the optimal selection of these species to existing micrometeorological conditions and changing the hydraulic mode of the steep slope of the blade from top to bottom, on which the processes of removal, transit and introduction of nutrients during further povochoobrazovaniya in the surface layer of the rocks of the slope, as well as its speed and nature.

An increase in the stability of the created biocenosis is achieved, firstly, by sowing seeds of perennial leguminous herbs on a steep slope of more than 30 ^° , which provides the formation of a grassy coating with increased ability to self-renew and rejuvenate due to the natural shedding of seeds, and secondly, the ability to seed self-renewal of grassy cover from perennial leguminous herbs supported by optimal nutritional value for wild bee pollinators of legumes of the proposed set of plants and long period and their flowering, covering the summer time for the pollinators of legumes, which allows you to attract and directionally form the fauna of these pollinators and ensure sustainable seed productivity of legumes. Thirdly, the stability of the biocenosis is facilitated by regular dividing horizontal stripes of at least 3 m width every 15 m on the basis of garden forms of perennial lupine, in combination with medicinal honey plants, poisonous or poorly eaten pests, phytophages, since they prevent the penetration, settlement and reproduction phytophage pests.

Removal of seed production of perennial leguminous grasses to steep slopes of more than 30 ^on dumps of disturbed lands allows releasing valuable arable land for crops demanding soils. Disturbed lands are usually practically not littered with weed seeds, which favors the development of seed production of perennial leguminous grasses on these lands. The terms of use of such lands for seed crops are also not limited to 2-3 years, since they are determined by the anti-erosion and soil restoration functions of the grass cover, which is favorable for the formation of a complex of wild bee pollinators of legumes.

 Thus, the invention does not follow explicitly from the prior art for a specialist, since the effect of the transformations prescribed by this invention, characterized by significant features distinctive from the prototype, on the achievement of a technical result is not revealed from the latter, that is, it satisfies the criterion of "Inventive step".

On steep heaps 30 ^of perennial crop legumes begin with seeding garden forms of long-term lupine (Russell hybrids) spring on May 20 June 10 horizontal stripes of a width of 3 m at every 15 m from the bottom up steep. The steep bank and excavation ^of more than 30 are particularly difficult to master, since they are difficult or impossible to use mechanization. Sowing can be carried out, for example, using a manual seeder with a sowing drum with a sowing rate of 4-5 kg / ha and row spacing of 70 cm. Medicinal honey plants that are poisonous or poorly eaten by phytophage insects, such as St. John’s wort, are sown or planted in rows between lupine strips , motherwort and others. As our preliminary studies have shown, the width of the lupine strips of 3 m ensures the attraction of a sufficient number of pollinators to the crops of perennial leguminous grass located between them, the repeatability of such strips after 15 m contributes to the uniform distribution of pollinators over the entire sowing area, since this is the distance from the plant to plant in search of food, which is well available for all types of wild bee pollinators of legumes. On the other hand, repeated repetition of lupine bands in combination with medicinal honey plants, poisonous or poorly eaten phytophages of legumes, reduces the likelihood of penetration, spread and reproduction of pests of phytophages in the sowing of perennial legumes.

 Then, on the same steep slopes of the dumps, sowing is carried out in the intervals between the strips on the basis of garden forms of the lupine of perennial other leguminous grasses with a sowing rate of 2-3 kg / ha for small seed (alfalfa, sweet clover, clover, lamb) perennial and biennial leguminous plants and 5-6 kg / ha for large seeds (sainfoin, eastern galega) perennial leguminous herbs. The sowing of these herbs can be carried out, for example, using the same manual seeder with a sowing drum and 70 cm row spacing, as well as sowing garden forms of perennial lupine (Russell hybrids).

 At the same time, in the spring from May 20 to June 10, perennial leguminous grasses that are most demanding on soil moisture are sown, for example, an oriental hedge, meadow clover. In summer, from June 25 to July 10, the remaining legumes are sown.

 In the inventive method, the sowing rate of seeds with 100% agricultural shelf life of 2-3 kg / ha for small seeds and 5-6 kg / ha for large-seeded perennial leguminous plants with a row spacing of 60-70 cm is optimal on seed crops, as the plants shrub better reach a greater height, provide a continuous grassy coating, form a larger number of flower stems, which are better accessible to pollinators, and are accordingly able to form a larger number of seeds.

In the claimed method, summer sowing of seeds of perennial leguminous grasses on disturbed lands is carried out on the surface in hot, dry weather, as a result, seeds are additionally activated, for example, alfalfa germination has increased from 60 to 90%. According to our data, seeds during summer rains are not washed away, but washed into friable rocks to a small depth sufficient for their germination. Good seedlings were obtained from small-seeded (alfalfa, hybrid clover) and large-seeded (sainfoin) leguminous grasses sown by this method on steep slopes of more than 30 ^about disturbed lands of the Bachatsky open pit of the Kuzbass Concern Coal in 1991 on 30 hectares. At the same time, alfalfa seeds with a high germination rate of 90-95% and germination energy, which were not washed into the loose parts of surface rocks, sown on the surface in summer in hot, periodically alternating with rains, maintained their high sowing qualities for at least a month. Samples in the amount of 2-3 out of 100 seeds each were taken after 7 days for a month, further collection of samples was difficult due to the lack of remaining seeds lying on the surface.

 Thus, summer sowing of seeds of perennial leguminous plants on the surface of loose rocks exhibits a new property, since it allows not to pre-sow seed treatment in order to re-activate them using solar radiation, which is usually recommended in the technology of sowing on arable land, and use small sowing rates of these grasses used for seed crops, in contrast to the proposed for tin slope dumps of large seed rates, adopted for hay and pasture lands. The combination of pre-sowing treatment with summer sowing of seeds allows to increase the productivity of the created biocenosis due to the production of seeds of perennial leguminous grasses on disturbed lands. In addition, the application of the norms of sowing of perennial leguminous grasses characteristic of seed crops shows a new property of the resulting grass cover on cultivated lands, increased ability to seed self-renewal and rejuvenation due to the natural shedding of seeds.

 It should also be noted that the development of seed production of perennial leguminous grasses on disturbed lands is also favored by the absence or low contamination of these lands by weed seeds. Therefore, there is no need to treat seed crops with herbicides and insecticides, which destroy wild bee pollinators of legumes and beneficial entomophagous insects. In addition, the transfer of leguminous grass seed production to disturbed lands makes it possible to use the vacated arable land with greater return for the production of valuable agricultural products.

 In insects, the value of feed, based on the food selectivity of the species, significantly affects its reproduction, while it decreases sharply as the nutritional value of the feed for a particular type of insect decreases. The nutritional value of perennial leguminous herbs for wild and honey bees varies significantly by species. There are types of leguminous plants that have an extremely high nutritional value for most types of single bee pollinators of legumes: medicinal clover and sainfoin. The honey bee willingly visits the same plants, and on honey collected from clover, insects hibernate better and get less sick. We first established that the garden forms of the lupine of the perennial Russell hybrids in Siberia also attract wild bee pollinators better than other leguminous plants, while this plant has valuable additional quality and contains poisonous alkaloids, so it is poorly eaten by phytophage pests.

 Most legume pollinators, by the nature of trophic bonds, are polytrophs that prefer legumes, or oligotrophic to legumes. A diet from pollen of several plant species is preferable for wild bean pollinators compared to feeding on a monoculture of one plant species, such nutrition contributes to more rapid development of the larvae of these insects, better reproduction and development of individuals.

 In addition, the favorable weather period for the reproduction of wild bee pollinators in legumes, for example, in Western Siberia, may not be long enough, therefore a full fodder base is needed during the entire summer period of these pollinators.

 However, until now, a fully formed flower-nectar conveyor has not been offered, oriented for the entire summer period of wild bee pollinators of legumes, balanced in nutritional value for adult individuals of such bees and their offspring, also suitable for obtaining marketable products in beekeeping. We offer just such a set of bean and medicinal honey plants that is completely formed into a flower-nectar conveyor.

 The optimal nutritional value for wild bee pollinators of the legume set of plants and their long flowering period, covering the summer time of the bean pollinator species, allows attracting and directedly forming the fauna of these pollinators and ensuring sustainable seed productivity of perennial bean grasses, ultimately contributing to an increase in the stability of the created biocenosis.

 The micrometeorological conditions and the hydro regime of the steep slopes of the dumps are uneven from the bottom up the slope. A favorable hydraulic regime at the foot of the slopes of dumps, for example, in Siberia, is enhanced in the summer period due to recharge from the permafrost layer formed inside the dump body.

 Perennial leguminous herbs also differ significantly in biological characteristics, including soil requirements and moisture availability. However, in land reclamation activities disturbed by open pit mining, such features have not yet been expressed in the specific structure of grass sowing when tinned or planted with woody-shrub plants.

 In the inventive method, perennial leguminous grasses are arranged separately in top-down form along the steep slope of the dump with alternating tape arrays taking into account the micrometeorological conditions and the hydraulic regime of the steep slope of the dump, which also affect the processes of nutrient removal, transit and introduction during subsequent soil formation in the surface layer of the slope rocks, as well as rate and nature of soil formation. The only exception is the sweet clover, which has a two-year development cycle and is one of the best cultivators of disturbed lands; it is sown through a row with perennial bean grass, for example alfalfa.

 Such a placement of perennial leguminous herbs from top to bottom along the steep slope allows us to more fully realize the productive potential of individual plant species. At the same time, up and in the upper third of the slope are legumes of the least demanding soil and moisture conditions, such as sweet clover, alfalfa; in the middle part of the slope, you can sow a choice of clover and alfalfa, as well as horned lamb, sainfoin and hybrid clover; in terms of micrometeorological conditions and moisture availability in the lower third of the slope, seeds can be sowed to choose, in addition to the above, and legumes that are more demanding on moisture and soil, for example, meadow clover, eastern galega and others.

 For example, with an average slope width (Fig. 1) of about 150 m from top to bottom, the clover strip through the row with alfalfa is 21 m 1, alfalfa 15 m 2, lamb horned 15 m 3, sainfoin 15 m 4, clover hybrid 15 m 5, alfalfa 15 m 2, meadow clover 15 m 6, eastern haylage 15 m 7, moreover, horizontal dividing strips of 3 m wide based on garden forms of lupine hybrids of Russell 8 are given between tape massifs of leguminous grasses. Russell 8 hybrids are sown or planted between rows of lupine , motherwort and others.

 In the autumn of the same year or in the spring of the next year, tree-shrub plants are planted by sowing herbs (Fig. 2). At the same time, the species composition of woody-shrubby plants is dominated by nectaronids and dust-bearing plants, and species are planted from top to bottom taking into account the existing micrometeorological conditions and the hydraulic regime of the steep slope of the dump, as well as the processes of removal, transit and introduction of nutrients from top to bottom during further soil formation in the surface layer of the rocks of the slope. In the upper third of the slope, tree-shrub plants, for example sea buckthorn, the least demanding on soils and moisture, in the middle part of the tree-shrub plants, such as yellow acacia, willow, dogrose, honeysuckle, shrubby cinquefoil and others, are planted in the lower third of the slope relatively shrubbery tree-shrub plants also visited by pollinating insects, for example hawthorn, mountain ash, viburnum, blackcurrant and others.

 In the upper third of the slope (Fig. 2) 1 tree-shrub plants are planted in a continuous array, for example, sea buckthorn with a row spacing of 5 m after 3 m in a row, and the rows are horizontal relative to the slope. Since after 6 years, two-meter row-spacings of sea-buckthorn are closed, and the root shoot is spread in a radius of 5 m from the parent plant, in the proposed method, the distances between the buckthorn seedlings are increased.

 In the middle of the slope, tree-shrub plants are planted according to the cellular structure 2, and the best horizontal size of the cells relative to the slope is 50 m and from top to bottom 25 m. The cellular structure is formed by two rows of tree-shrub plants, the distance between which is 1.5-3.0 m

 In the lower third of the slope there are vertically tape plantings of tree-shrub plants after 50 m, the planting structure is formed by two rows of plants, the distance between which is 1.5-3.0 m.

The cell size of 50 x 25 m ² corresponds to the size of the meadow in natural and anthropogenic biocenoses, characterized by a high population density of various species of wild bee pollinators, in particular leguminous perennial grasses, entomophagous insects.

 According to our observations, the intense air flow greatly interferes with the normal foraging of the vast majority of bee pollinators, entomophages, and they avoid places where nothing prevents such flows. In order to make the living conditions as attractive as possible for these insects, it is proposed in the middle part of the steep slope a cellular, and in the lower part a vertically strip system for planting tree-shrub plants. In the proposed method, the cellular structure of the landings, delaying the air flow blowing around the surface of the steep slope, is confined to the middle part of the steep slope. According to our data, in the middle third of the slope and especially in its lower third, with almost any orientation to the sides of the horizon, the speed of the airflow blowing around the surface of the steep slope decreases.

 From 2-3 years old, sowing of perennial leguminous herbs is supposed to be used as a full fodder base for an apiary, to collect high-quality seeds of valuable leguminous herbs.

 From 5-6 years, it is supposed to pick berries of fruit crops.

 For 6–8 years, the lower third of the slope, depending on the seed yield of perennial leguminous herbs, can be used for planting berry plants (strawberries and others) or orchards demanding the soil conditions of crops (for example, Siberian apple trees).

Claims (1)

METHOD FOR RECULTIVATION OF STEEL SLOPES OF LAND DUMPS, DISTURBED BY OPEN DEVELOPMENTS, including tinning with perennial grasses in spring and summer, as well as subsequent planting of trees and shrubs, characterized in that the seeding rate on a steep slope of more than 30 ^o is 2 3 gq / ha of fine grain 6 6 gq / ha of fine grain coarse-seed legumes, and the grasses are arranged along the steep slope of the dump from top to bottom in alternating strip arrays, forming a flower-nectar conveyor with a long flowering period and an optimal set of plants for legume bee pollinators, in addition, regular horizontal stripes of at least 3 m wide are laid between the tape crops of leguminous plants every 15 m on the basis of garden forms of lupine in combination with medicinal honey plants, poisonous or poorly eaten phytophages, tree and shrub plants are planted at the top of the slope massif, and in the middle along the cellular structure, and in the lower part, vertically tape planting is carried out, while for planting, mainly nectar and dust-bearing plants are used, forming one floral nectar-belt, and all kinds of plants are placed on a hillside with a view of mikrometeouslovy and hydrological regime steep blade.

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