CN114246097A - Karst environment shortage medicinal material-characteristic landscape-ecological restoration three-dimensional mode construction method - Google Patents

Abstract

The invention discloses a karst environment shortage medicinal material-characteristic landscape-ecological restoration three-dimensional mode construction method, which comprises the steps of firstly, investigating mountain regions in karst landform areas, selecting the karst ecological fragile area mountain regions needing restoration, planting yellow branch firtree in soil areas between rocks, planting anisetree bark and/or flag leaf dragon trees in stone cracks on the rock surfaces, planting Stephania kwangsiensis and Ardisia fasciata in soil layers at rock base parts, and carrying out restoration by utilizing various types of plants in different areas, wherein the karst ecological restoration effect is good, the landscape effect is good, and the economic value is high.

Description

Karst environment shortage medicinal material-characteristic landscape-ecological restoration three-dimensional mode construction method

Technical Field

The invention relates to the technical field of karst mountain land restoration, in particular to a karst environment shortage medicinal material-characteristic landscape-ecological restoration three-dimensional mode construction method.

Background

The karst landform is distributed in provinces such as Guangxi, Guizhou and Yunnan in China, a ground surface-underground double-layer space structure is generated under the action of strong chemical corrosion of carbonate rocks for a long time, the soil layer is shallow and discontinuous, the heterogeneity is strong, the interference of human activities including farming activities is enough to destroy the fragile ecology of the karst landform area, and therefore, the karst landform area is one of four fragile ecological environment areas in China. Due to the vulnerability of the karst environment and the influence of human activities, the karst environment is increasingly deteriorated, and the karst region with high rock exposure is more serious.

The vegetation construction is the core for changing the karst area ecosystem, and has important ecological functions of keeping water and soil, relieving the negative influence of human factors on the karst ecosystem and the like. The traditional stony desertification control method is generally used for planting liana which can adapt to the growth of stony desertification environment, although a certain repairing effect can be achieved, with the progress of economic society, people have higher requirements on vegetation repair of a typical karst region with high rock denuded degree at the middle and upper parts of a rocky mountain:

firstly, how to realize effective vegetation restoration for extreme habitat with bad ecology and high exposed rocks?

Secondly, the karst landform area is also the main production area of a plurality of unique and scarce medicinal plants (such as subprostrate sophora and the like), how can the karst unique medicinal plants be sustainably utilized in the stony desertification control?

Thirdly, with the increase of economic level, the traditional greening begins to change to beautification, how is the beautification effect realized in karst area greening?

In conclusion, the construction method of the three-dimensional mode for realizing the combination of the medicinal materials shortage, the special landscape and the ecological restoration in the karst ecological fragile region with high rock exposure degree in the middle and upper part of the rocky mountain becomes a difficult problem in the karst ecological restoration and the agricultural production.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

Aiming at the technical problems, the invention provides a karst environment shortage medicinal material-special landscape-ecological restoration three-dimensional mode construction method, which utilizes various types of plants to carry out restoration in different regions, and has the advantages of good ecological restoration effect, good landscape effect and high economic value.

The karst environment shortage medicinal material-special landscape-ecological restoration three-dimensional mode construction method comprises the following steps:

step S1, investigation is conducted on the karst landform area mountain land, and the rocky mountain with high rock denuded degree at the middle upper part is selected as the karst ecological fragile area mountain land;

step S2, planting the yellow-branch hemlock fir in the soil area between rocks of the karst ecological fragile area mountain land;

step S3, planting anisetree bark and/or flag leaf dragon trees in stone cracks on the rock surface of the mountain land in the karst ecological fragile area;

step S4, planting Stephania kwangsiensis and Ardisia tuberosa in the soil layer of the rock base of the karst ecological fragile region mountain land.

In step S1, the karst landform mountain land is investigated, the rocky mountain is divided into three areas according to the height, the top area and the middle area are used as middle-upper parts, and the rocky mountain with the middle-upper part rock bare degree being more than or equal to 50% is used as the karst ecological fragile mountain land.

The method for planting the yellow-branch hemlock fir in the soil area between rocks of the karst ecological fragile area mountain land in the step S2 comprises the following steps:

step S21, selecting 4-year-old yellow branch oil fir seedlings which grow well and have no diseases and insect pests;

step S22, digging planting holes at the sunny position close to the rock in months 2-3;

step S23, water-retaining agents are scattered on the four walls of the planting holes, seedlings of the yellow branch oil fir are put into the planting holes, and sufficient root fixing water is poured after soil return;

further, the water retention agent in step S23 is polyacrylamide, 5-10g of polyacrylamide is applied to each planting hole, and the polyacrylamide is prepared into a 3% aqueous solution, which is then sprinkled on the four walls of the planting hole.

The method for planting the anisetree bark and/or the flag leaf dragon tree in the stone cracks on the rock surface of the mountain land in the karst ecological fragile region comprises the following steps:

in the second year of 2-3 months after planting the yellow-branch fir, filling 5 cm-thick planting soil in stone gaps on the surface of the rock, placing the roots of the seedlings of the anisetree bark and/or the dracaena cochinchinensis in the stone gaps, covering the roots with the planting soil, and pressing 2-3 layers of broken stones at the base of the plants to prevent soil loss.

The method for planting the Stephania kwangsiensis and the Ardisia tuberosa in the soil layer at the rock base of the karst ecological fragile region mountain land in the step S4 comprises the following steps:

digging holes in soil at the base of the rock in 2-3 months of the third year after planting the yellow-branch fir, planting seedlings of Stephania kwangsiensis and Ardisia tuberosa at intervals, and watering sufficient root fixing water after planting.

Compared with the prior art, the invention has the following beneficial effects:

(1) the karst ecological fragile region mountain land has the characteristics of high rock exposure, strong illumination, low soil water content and low vegetation coverage rate, so that the plants on the upper layer of the ecological system are required to be capable of adapting to the karst extreme habitat, long in growth period and good in ecological restoration effect. The yellow branch oil fir is produced in northern Guangxi and southern Guizhou, grows in the area with the altitude of 500-1100 m, often grows in stone land, hillside or limestone hillside, has low requirement on soil, can grow in shallow soil layer, arid soil or exposed rock, and can resist the arid habitat of stone mountain. Therefore, the yellow-branch oil fir can meet the requirements of the upper layer on plants, and is used as the upper layer vegetation of an ecological system, so that the ecological restoration effect is greatly improved.

(2) The rock surface soil layer of the karst ecological fragile region mountain land is shallow, the water-retaining capacity is low, the vegetation coverage rate is low, and only in the rock surface there is the space that supplies the root of plant to grow in the stone cracks, therefore, the plant of planting in the stone cracks is required to adapt to so abominable habitat, can regard as the middle-level plant of ecosystem again in order to solve the prosthetic difficult problem of bare rock surface. The cortex illicii is shrub of illicium of Magnoliaceae, is distributed in southwest part of Guangxi and southeast part of Guangdong, and often grows in limestone mountain tops with elevation of 200-; dracaena cochinchinensis is evergreen arbor of dracaena of Liliaceae, is drought-resistant and calcium-philic tree species, can be planted on limestone rocky mountains, and has prominent umbrella-shaped crown to form a unique shrub. Therefore, the anisetree bark or the flag leaf dragon tree are planted in the stone cracks to serve as middle-layer vegetation of an ecological system, the problem of repairing the exposed surface of the rock can be effectively solved, the two plants are typical unique and scarce medicinal materials in the karst region, and the shortage of medicinal materials and ornamental value are considered at the same time;

(3) the water-retaining power in the ecological fragile district mountain region of karst is low, and the vegetation coverage is low, consequently, requires the plant of ecosystem lower floor can effectively reduce the naked degree of rock, can also help improving the water content of middle part region plant root soil. The Stephania kwangsiensis is a plant of Stephania of Menispermaceae, and is distributed in Yunnan and Guangxi provinces, and grows in 480 m altitude areas, such as limestone mountain; root-bark Ardisia japonica is a plant of Ardisia of Myrsinaceae, and is produced on limestone mountain with elevation of 300-700 m in Guangxi province. The two plants are vines, the coverage area is wide, tubers protrude out of the ground, the ornamental effect is excellent, and the exposure degree of rocks can be effectively reduced; meanwhile, the Guangxi Digitalis cannot be liana, the leaf shape is wide, and the leaf shape is wound on the root area of the middle-layer plant, so that the shading degree can be improved; the root tuber ardisia japonica is a shrub, and the crown breadth of the root tuber ardisia japonica can also provide a shading environment for the root of a middle-layer plant, so that the root tuber ardisia japonica can also improve the water content of the soil at the root of the anisetree planted in the middle area, and the two plants have medicinal values, thereby realizing the double consideration of the shortage of medicinal materials and the ornamental value again.

(4) By planting different plants in different areas of the karst ecological fragile region mountain land, the comprehensive coverage of the upper, middle and lower layers of vegetation of the ecological system is realized, and the consideration of three parts of medicinal materials in short supply, special landscape and ecological restoration is realized.

Detailed Description

The following detailed description is to be read in connection with specific embodiments, but it should be understood that the scope of the invention is not limited to the specific embodiments. The raw materials used in the examples were all commercially available unless otherwise specified.

And (4) carrying out a karst ecological fragile region mountain land restoration experiment in Guangxi Guilin city from 2017 to 2019.

Example 1 construction method of karst environment shortage medicinal material-characteristic landscape-ecological restoration three-dimensional mode

Step S1, investigation is conducted on the karst landform area mountain land, the rocky mountain is divided into three areas according to the height, the top area and the middle area are used as middle-upper portions, and the rocky mountain with the middle-upper portion rock exposure degree larger than or equal to 50% is used as the karst ecological fragile area mountain land;

step S2, planting the yellow-branch hemlock fir in the soil area between rocks of the karst ecological fragile area mountain land:

step S21, selecting 4-year-old yellow branch oil fir seedlings which grow well and have no diseases and insect pests;

step S22, digging planting holes in the sunny place close to the rock in 2017 in 2-3 months;

step S23, water-retaining agent polyacrylamide is scattered on the four walls of the planting holes, the water-retaining agent polyacrylamide is prepared into 3% aqueous solution, then the aqueous solution is scattered on the four walls of the planting holes, 5-10g of polyacrylamide is applied to each planting hole, seedlings of the taxus chinensis are put into the planting holes, and after soil return, sufficient rooting water is poured.

Step S3, planting anisetree bark in stone cracks on the rock surface of the mountain land in the karst ecological fragile area:

in 2018 in 2-3 months, firstly filling 5 cm-thick planting soil into stone cracks on the surface of a rock, placing the root of the anisetree bark seedling into the stone cracks, covering the root with the planting soil, and pressing 2-3 layers of broken stones at the base of the plant to prevent soil loss

Step S4, planting Stephania kwangsiensis and Ardisia tuberosa in the soil layer of the rock base of the karst ecological fragile region mountain land:

in 2019, in 2-3 months, digging holes in soil at the base of the rock, planting seedlings of Stephania kwangsiensis and Ardisia tuberosa at intervals, and watering sufficient root fixing water after planting.

Example 2 construction method of karst environment shortage medicinal material-characteristic landscape-ecological restoration three-dimensional mode

Step S1, investigation is conducted on the karst landform area mountain land, the rocky mountain is divided into three areas according to the height, the top area and the middle area are used as middle-upper portions, and the rocky mountain with the middle-upper portion rock exposure degree larger than or equal to 50% is used as the karst ecological fragile area mountain land;

step S2, planting the yellow-branch hemlock fir in the soil area between rocks of the karst ecological fragile area mountain land:

step S21, selecting 4-year-old yellow branch oil fir seedlings which grow well and have no diseases and insect pests;

step S22, digging planting holes in the sunny place close to the rock in 2017 in 2-3 months;

step S23, water-retaining agent polyacrylamide is scattered on the four walls of the planting holes, the water-retaining agent polyacrylamide is prepared into 3% aqueous solution, then the aqueous solution is scattered on the four walls of the planting holes, 5-10g of polyacrylamide is applied to each planting hole, seedlings of the taxus chinensis are put into the planting holes, and after soil return, sufficient rooting water is poured.

Step S3, planting flag leaf dragon trees in stone cracks on the rock surface of the mountain land in the karst ecological vulnerable area:

in 2018 in 2-3 months, firstly filling planting soil with the thickness of 5cm into stone gaps on the surface of rocks, placing the roots of the dracaena cochinchinensis seedlings into the stone gaps, covering the roots with the planting soil, and pressing 2-3 layers of broken stones at the base parts of plants to prevent soil loss

Step S4, planting Stephania kwangsiensis and Ardisia tuberosa in the soil layer of the rock base of the karst ecological fragile region mountain land:

in 2019, in 2-3 months, digging holes in soil at the base of the rock, planting seedlings of Stephania kwangsiensis and Ardisia tuberosa at intervals, and watering sufficient root fixing water after planting.

Example 3 construction method of karst environment shortage medicinal material-characteristic landscape-ecological restoration three-dimensional mode

Step S1, investigation is conducted on the karst landform area mountain land, the rocky mountain is divided into three areas according to the height, the top area and the middle area are used as middle-upper portions, and the rocky mountain with the middle-upper portion rock exposure degree larger than or equal to 50% is used as the karst ecological fragile area mountain land;

step S2, planting the yellow-branch hemlock fir in the soil area between rocks of the karst ecological fragile area mountain land:

step S21, selecting 4-year-old yellow branch oil fir seedlings which grow well and have no diseases and insect pests;

step S22, digging planting holes in the sunny place close to the rock in 2017 in 2-3 months;

step S23, water-retaining agent polyacrylamide is scattered on the four walls of the planting holes, the water-retaining agent polyacrylamide is prepared into 3% aqueous solution, then the aqueous solution is scattered on the four walls of the planting holes, 5-10g of polyacrylamide is applied to each planting hole, seedlings of the taxus chinensis are put into the planting holes, and after soil return, sufficient rooting water is poured.

Step S3, planting anisetree bark and flag leaf dragon blood trees in stone cracks on the rock surface of the mountain land in the karst ecological fragile area:

in 2018 in 2-3 months, firstly filling 5 cm-thick planting soil into stone cracks on the surface of a rock, respectively placing the roots of the anisetree bark and the dracaena cochinchinensis seedling into the stone cracks, covering the roots with the planting soil, and pressing 2-3 layers of broken stones at the base of the plant to prevent soil loss

Step S4, planting Stephania kwangsiensis and Ardisia tuberosa in the soil layer of the rock base of the karst ecological fragile region mountain land:

in 2019, in 2-3 months, digging holes in soil at the base of the rock, planting seedlings of Stephania kwangsiensis and Ardisia tuberosa at intervals, and watering sufficient root fixing water after planting.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (6)

1. The karst environment shortage medicinal material-special landscape-ecological restoration three-dimensional mode construction method is characterized by comprising the following steps of:

step S1, investigation is conducted on the karst landform area mountain land, and the rocky mountain with high rock denuded degree at the middle upper part is selected as the karst ecological fragile area mountain land;

step S2, planting the yellow-branch hemlock fir in the soil area between rocks of the karst ecological fragile area mountain land;

step S3, planting anisetree bark and/or flag leaf dragon trees in stone cracks on the rock surface of the mountain land in the karst ecological fragile area;

step S4, planting Stephania kwangsiensis and Ardisia tuberosa in the soil layer of the rock base of the karst ecological fragile region mountain land.

2. The karst environment shortage medicinal material-feature landscape-ecological restoration three-dimensional mode construction method according to claim 1, characterized in that:

in step S1, the karst landform mountain land is investigated, the rocky mountain is divided into three areas according to the height, the top area and the middle area are used as middle-upper parts, and the rocky mountain with the middle-upper part rock bare degree being more than or equal to 50% is used as the karst ecological fragile area mountain land.

3. The karst-environment-scarce-medicinal-feature-landscape-ecological-restoration three-dimensional mode construction method as claimed in claim 1, wherein the step S2 of planting the elaeis crassifolia in the soil region between rocks and mountains of the karst ecological vulnerable region comprises the following steps:

step S21, selecting 4-year-old yellow branch oil fir seedlings which grow well and have no diseases and insect pests;

step S22, digging planting holes at the sunny position close to the rock in months 2-3;

step S23, water-retaining agents are scattered on the four walls of the planting holes, seedlings of the yellow branch oil fir are put into the planting holes, and sufficient root fixing water is poured after soil returning.

4. The karst environment shortage medicinal material-feature landscape-ecological restoration three-dimensional mode construction method as claimed in claim 3, wherein:

the water-retaining agent in the step S23 is polyacrylamide, 5-10g of polyacrylamide is applied to each planting hole, and the polyacrylamide is prepared into 3% aqueous solution which is then scattered on the four walls of the planting hole.

5. The karst-environment-scarce-medicinal-feature-landscape-ecological-restoration three-dimensional mode construction method as claimed in claim 1, wherein the method for planting the anisetree bark and/or the flag leaf dragon tree in the stone cracks on the rock surface of the mountain land in the karst ecological vulnerable area in the step S3 comprises the following steps:

in the second year of 2-3 months after planting the yellow-branch fir, filling 5 cm-thick planting soil in stone gaps on the surface of the rock, placing the roots of the seedlings of the anisetree bark and/or the dracaena cochinchinensis in the stone gaps, covering the roots with the planting soil, and pressing 2-3 layers of broken stones at the base of the plants to prevent soil loss.

6. The karst-environment-scarce-medicinal-feature landscape-ecological-restoration three-dimensional mode construction method as claimed in claim 1, wherein the method for planting Stephania kwangsiensis and Ardisia tuberosa in the soil layer at the rock base of the mountain land in the karst ecological vulnerable area in step S4 comprises the following steps:

digging holes in soil at the base of the rock in 2-3 months of the third year after planting the yellow-branch fir, planting seedlings of Stephania kwangsiensis and Ardisia tuberosa at intervals, and watering sufficient root fixing water after planting.