阅读说明：本技术 一种库区消落带植物种植方法 (Method for planting plants in hydro-fluctuation belt of reservoir area ) 是由 金卫锋 张建和 于 2020-06-09 设计创作，主要内容包括：本发明涉及种植方法技术领域,尤其涉及一种库区消落带植物种植方法。所述方法包括：1)植前对消落带进行预处理,并挖设植生穴；2)在植生穴内种植植株,在植生穴周围铺设防冲刷型护坡构件；3)在植生穴内铺设深层营养土,在深层营养土表面施加菌剂、并铺设苔藓类植物或藻类植物,再进一步铺设浅层营养土,最后利用生态砼填平植生穴。本发明方法培育的植株根系发达,固土效果十分稳定；护坡结构配合植生穴的分布方式使得水流冲刷所带来的负面影响被大幅度抵消；通过多层土配合协调植株生长效果良好；人造形成菌群环境使得植株形成更发达的根系并提高根系的固土效果。(The invention relates to the technical field of planting methods, in particular to a planting method for plants in a hydro-fluctuation belt of a reservoir area. The method comprises the following steps: 1) pre-treating the falling zone before planting, and digging plant growing holes; 2) planting plants in the plant growing holes, and paving scour prevention slope protection components around the plant growing holes; 3) laying deep layer nutrient soil in the planting holes, applying microbial inoculum on the surface of the deep layer nutrient soil, laying bryophyte or algae, further laying shallow layer nutrient soil, and finally filling the planting holes with ecological concrete. The plant cultivated by the method has developed root system and stable soil fixing effect; the slope protection structure is matched with the distribution mode of the vegetation holes, so that the negative effects caused by water flow scouring are greatly offset; the plant growth effect is coordinated through the cooperation of multiple layers of soil; the artificial flora forming environment enables the plants to form more developed root systems and improves the soil fixing effect of the root systems.)

1. A method for planting plants in a hydro-fluctuation belt of a reservoir area is characterized in that,

the method comprises the following steps:

1) pre-treating the falling zone before planting, and digging plant growing holes;

2) planting plants in the plant growing holes, and paving scour prevention slope protection components around the plant growing holes;

3) laying deep layer nutrient soil in the planting holes, applying microbial inoculum on the surface of the deep layer nutrient soil, laying bryophyte or algae, further laying shallow layer nutrient soil, and finally filling the planting holes with ecological concrete.

2. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 1,

the plant growing holes are distributed in a regular hexagon lattice.

3. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 1,

the scour prevention type slope protection component is: a plurality of frame components are connected end to form a closed structure;

the frame component cross-section is triangle-shaped, and the height is higher than outside in the scour protection type bank protection component that its enclosed formation.

4. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 3,

the inner wall of the frame component is provided with a hook structure;

the scour prevention type slope protection component is correspondingly provided with a soil protection net.

5. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 4,

the distance between the arrangement position of the hook structure and the top end of the inner wall of the frame component is 2-3 cm;

the soil protection net is a galvanized iron wire net.

6. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 1,

the microbial inoculum comprises potato-bacillus, Equisetum, Aspergillus, Bacillus amyloliquefaciens and golden flower bacteria.

7. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 6,

the activity of total strains in the microbial inoculum is more than or equal to 320 hundred million/g;

wherein:

the strain activity of the bacillus amyloliquefaciens is 60-80 hundred million/g;

the strain activity of the golden flower fungus is more than or equal to 140 hundred million/g.

8. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 1,

the ecological concrete contains slow release fertilizer;

the content of the slow release fertilizer is 6-8 wt%.

9. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 8,

the slow release fertilizer is slow release fertilizer particles containing amino acid and nitrogen fertilizer.

10. The method for planting plants in a hydro-fluctuation belt of a reservoir according to claim 1,

the ecological concrete contains selenium;

the selenium content is 35-45 ppm.

Technical Field

The invention relates to the technical field of planting methods, in particular to a planting method for plants in a hydro-fluctuation belt of a reservoir area.

Background

The water-level fluctuation zone is a special seasonal land-water staggered wetland ecosystem, is a water-level fluctuation zone between the highest water level line and the lowest water level line formed in a reservoir and a river channel by regulating the water level of a water conservancy and hydropower project due to flood control and power generation, and forms a huge ecological isolation zone of a ring reservoir between a reservoir water body and a land bank.

The method is a very key and important step for recovering vegetation in the hydro-fluctuation belt, and therefore a method for planting plants in the hydro-fluctuation belt of a reservoir area is provided.

Disclosure of Invention

The invention provides a method for planting plants in a hydro-fluctuation belt of a reservoir area, which aims to solve a series of problems that plants are difficult to form stable and developed root systems due to the influence of water flow scouring, soil is difficult to fix, the stability of planting and growing per se is poor and the like in the conventional hydro-fluctuation belt plant planting.

The invention aims to:

1) the growth of the plant root system can be effectively promoted;

2) the soil fixing capacity is improved through the slope protection structure;

3) coordinating plant growth through multilayer soil;

4) the artificial flora forming environment enables the plants to form more developed root systems and improves the soil fixing effect of the root systems.

In order to achieve the purpose, the invention adopts the following technical scheme.

A method for planting plants in a hydro-fluctuation belt of a reservoir area,

the method comprises the following steps:

1) pre-treating the falling zone before planting, and digging plant growing holes;

2) planting plants in the plant growing holes, and paving scour prevention slope protection components around the plant growing holes;

3) laying deep layer nutrient soil in the planting holes, applying microbial inoculum on the surface of the deep layer nutrient soil, laying bryophyte or algae, further laying shallow layer nutrient soil, and finally filling the planting holes with ecological concrete.

In the method, the pretreatment includes, but is not limited to, any one or more of common operations of slope cleaning, gravel cleaning and the like. The synergistic microbial inoculum is laid through multiple layers of soil, a soil environment and a flora environment which are beneficial to the growth and development of plant roots are formed, the effects of protecting soil, fixing soil and the like are further realized by matching with a slope protection component, and the plants grow stably and develop well.

As a preference, the first and second liquid crystal compositions are,

plant and give birth to the cave and be regular hexagon dot matrix distribution, plant and give birth to cave 100 cooperation slope protection structure 200 that is regular hexagon dot matrix distribution, can realize "speed reduction" to rivers, rivers flow to the array in the time because "runner" that slope protection structure 200 cooperation formed, make when planting the crowd to rivers flow through, can take place the rivers collision of similar B point all the time as shown in figure 1A, lead to the velocity of water flow to slow down, and because the velocity of flow slows down and forms "relative density difference" inside and outside planting the crowd, can effectively improve the ecological stability of plant growing environment during the rising water.

As a preference, the first and second liquid crystal compositions are,

the scour prevention type slope protection component is: a plurality of frame components are connected end to form a closed structure;

the frame component cross-section is triangle-shaped, and the height is higher than outside in the scour protection type bank protection component that its enclosed formation.

Above-mentioned scour prevention type slope protection structure is formed by six the same frame component 201 end to end, and frame component 201 can adopt modes such as common stock is fixed to be fixed, and its cross-section 2011 is triangle-shaped, and triangle-shaped's domatic angle alpha is 60 ± 1, and the whole height is greater than outer height in. Slope protection structure 200 of this structure is when facing rivers and erodeing, more is favorable to dispersion rivers to the effort of soil layer in slope protection structure 200, realizes good protection effect to the soil layer.

As a preference, the first and second liquid crystal compositions are,

the inner wall of the frame component is provided with a hook structure;

the scour prevention type slope protection component is correspondingly provided with a soil protection net.

The hook structure 202 is used for hanging a soil protection net 203, the center of the soil protection net 203 is provided with a large through hole 2031 for plant branches and/or roots to pass through, the soil protection net 203 is compacted on shallow nutrient soil, and the soil layer structure which is loose below ecological concrete is further protected and prevented from losing.

As a preference, the first and second liquid crystal compositions are,

the distance between the arrangement position of the hook structure and the top end of the inner wall of the frame component is 2-3 cm;

the soil protection net is a galvanized iron wire net.

The arrangement and the selection have better using effect.

As a preference, the first and second liquid crystal compositions are,

the microbial inoculum comprises potato-bacillus, Equisetum, Aspergillus, Bacillus amyloliquefaciens and golden flower bacteria.

The synergistic cooperation of the potato-bacillus, the ezetimibe and the aspergillus can effectively improve the soil-fixing capacity of the plant root system. The bacillus amyloliquefaciens is beneficial bacteria for plants, a large number of bacillus amyloliquefaciens are added into a growth substrate, the plant resistance can be increased, the growth vigor and growth phase of the plants in the whole growth period can be improved, and the morbidity of crops is reduced.

The microbial inoculum can be prepared by a conventional method, and also can be prepared by the following processes:

performing air elimination on a fermentation tank, then adding a culture medium and performing actual elimination, wherein the air elimination conditions are as follows: the pressure is 0.15MPa, the temperature is 123 ℃, and the time is 1 h; the actual elimination conditions are as follows: the pressure is 0.20MPa, the temperature is 123 ℃, and the time is 50 min; sampling when the temperature of the culture solution is reduced to 37 ℃ after the sterilization is finished, carrying out streak culture and microscopic examination, wherein no viable bacteria grow, starting inoculation after the sterilization is finished, wherein the inoculation ratio (volume ratio) is 1:120 of strains/culture solution, and then carrying out inoculation; sampling 8 hours after the start of inoculation, detecting whether fermentation is polluted or not by utilizing streak culture and microscope examination, and then fermenting; the fermentation process needs to control the rotating speed, the ventilation quantity, the fermentation temperature and the fermentation time; the rotating speed is 80r/min 6h before fermentation, then the rotating speed is increased by 12r every 2h, and the rotating speed is maintained until the fermentation is finished after 140 r/min; the ventilation rate is 8m for keeping the ventilation rate 8h before the fermentation of the seeding tank³Increasing the ventilation amount by 1m every 1h³H, until the ventilation volume reaches 12m³Keeping the fermentation to the end in the hour, and keeping the tank pressure at 0.05Mpa in the whole process; the ventilation quantity is kept at 30m 8h before the fermentation tank³Increasing ventilation amount by 5m every 1h³H, until the ventilation volume reaches 50m³Keeping the fermentation to the end in the hour, and keeping the tank pressure at 0.06MPa in the whole process; sampling is carried out after the fermentation is carried out for 24 hours, whether the fermentation is polluted or not and the spore rate are detected by utilizing streak culture and microscopic examination, and then sampling detection is carried out every 6 hours until the spore rate reaches more than 95 percent, so that the fermentation is completed; after the fermentation is finished, the method is a dilution plate coating method for sampling and detecting the bacterial quantity of the fermentation liquor, wherein the bacterial quantity is more than 2.0 multiplied by 10⁹cfu/ml; the fermentation temperature is 36.5-37.5 ℃. Under the conditions, the strain can realize good fermentation and proliferation, and the required functional bacteria are respectively cultured under the conditions and then mixed to prepare the microbial inoculum.

As a preference, the first and second liquid crystal compositions are,

the activity of total strains in the microbial inoculum is more than or equal to 320 hundred million/g;

the laying amount of the microbial inoculum is that 2-3 g of microbial inoculum is uniformly laid on every 100g of deep nutrient soil;

wherein:

the strain activity of the bacillus amyloliquefaciens is 60-80 hundred million/g;

the strain activity of the golden flower fungus is 140-180 hundred million/g.

The colony environment formed by the proportion is most beneficial to the growth of plants, and the actual effect is optimal.

As a preference, the first and second liquid crystal compositions are,

the ecological concrete contains slow release fertilizer;

the content of the slow release fertilizer is 6-8 wt%.

The slow release fertilizer can slowly release the fertilizer for a long time, and for the zone which is a hydro-fluctuation belt and is difficult and inconvenient to fertilize, the slow release fertilizer added into the ecological concrete can keep enough external nutrients for the plant to absorb at least in the early growth stage of the plant.

As a preference, the first and second liquid crystal compositions are,

the slow release fertilizer is slow release fertilizer particles containing amino acid and nitrogen fertilizer.

The slow release fertilizer granules containing amino acid and nitrogen fertilizer are combined with amino acid and nitrogen fertilizer in a three-dimensional network structure of cross-linked potassium polyacrylate or potassium polyglutamate, wherein the slow release fertilizer granules comprise the following raw materials: 100 parts of cross-linked potassium polyacrylate or potassium polyglutamate, 15-50 parts of amino acid and 3-8 parts of nitrogen fertilizer. The invention preferably selects 100 parts by weight of crosslinking potassium polyacrylate, 350 parts by weight of amino acid and 5 parts by weight of nitrogen fertilizer.

As a preference, the first and second liquid crystal compositions are,

the ecological concrete contains selenium;

the selenium content is 35-45 ppm.

Generally, the plant antioxidant activity promoter has a strong promoting effect on the activity of an antioxidant system of a plant under the condition of low concentration (0.5-5.0 ppm), can effectively inhibit the plant from generating active oxygen free radicals under the stress of an external environment, and does not have the effect under the condition of high concentration. However, the researchers of the invention find that although the activity of the antioxidant system of the plant can not be improved under the condition of high content, the plant has good effect on the fixation and rapid initial development of new vegetation, so the high content of selenium is applied to the growth substrate, and the selenium is diluted by the water level fluctuation of the hydro-fluctuation belt after the plant passes through the fixation and rapid initial development stage, so that the antioxidant system activity of the plant can be just optimized when the plant reaches lower content, and the plant has very excellent effect. When the selenium content is too low, the promotion effect is limited, and the effect of optimizing the antioxidant system activity of the plant cannot be generated easily due to the too low selenium content, and when the selenium content is too high, the antioxidant system activity of the plant is easily maintained. The selenium content within the above content range can exert the optimum effect.

The invention has the beneficial effects that:

1) the plant root system is developed, and the soil fixing effect is very stable;

2) the slope protection structure is matched with the distribution mode of the vegetation holes, so that the negative effects caused by water flow scouring are greatly offset;

3) the plant growth effect is coordinated through the cooperation of multiple layers of soil;

4) the artificial flora forming environment enables the plants to form more developed root systems and improves the soil fixing effect of the root systems.

Drawings

FIG. 1 is a schematic diagram of the distribution of plant growing holes of the present invention;

fig. 2 is a schematic structural view of an anti-scour slope protection member;

FIG. 3 is a schematic cross-sectional view of section C-C of FIG. 2;

in the figure: 100 vegetation holes, 200 slope protection structures, 201 frame members, 2011 cross sections, 202 hook structures, 203 soil protection nets and 2031 through holes.

Detailed Description

The present invention will be described in further detail with reference to specific examples. Those skilled in the art will be able to implement the invention based on these teachings. Moreover, the embodiments of the present invention described in the following description are generally only some embodiments of the present invention, and not all embodiments. Therefore, all other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any creative effort shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "thickness", "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., and "several" means one or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Unless otherwise specified, the raw materials used in the examples of the present invention are all commercially available or available to those skilled in the art; unless otherwise specified, the methods used in the examples of the present invention are all those known to those skilled in the art.

In the embodiment, the invention relates to a method for planting plants in a hydro-fluctuation belt of a reservoir area,

the method comprises the following steps:

1) pre-treating the falling zone before planting, and digging plant growing holes;

2) planting plants in the plant growing holes, and paving scour prevention slope protection components around the plant growing holes;

3) laying deep layer nutrient soil in the planting holes, applying microbial inoculum on the surface of the deep layer nutrient soil, laying bryophyte or algae, further laying shallow layer nutrient soil, and finally filling the planting holes with ecological concrete.

In the method, the pretreatment includes, but is not limited to, any one or more of common operations of slope cleaning, gravel cleaning and the like. The synergistic microbial inoculum is laid through multiple layers of soil, a soil environment and a flora environment which are beneficial to the growth and development of plant roots are formed, the effects of protecting soil, fixing soil and the like are further realized by matching with a slope protection component, and the plants grow stably and develop well.

Plant and give birth to the cave and be regular hexagon dot matrix distribution, plant and give birth to cave 100 cooperation slope protection structure 200 that is regular hexagon dot matrix distribution as shown in fig. 1, can realize "speed reduction" to rivers, rivers flow to the array in the time because "runner" that slope protection structure 200 cooperation formed, make when planting the crowd to rivers flow through as shown in fig. 1A, can take place the rivers collision of similar B point all the time, lead to the rivers velocity of flow to slow down, and because the velocity of flow slows down and forms "relative density difference" inside and outside the crowd of planting, can effectively improve the ecological stability of plant growing environment during the rising water.

The scour prevention type slope protection component is: a plurality of frame components are connected end to form a closed structure;

the frame component cross-section is triangle-shaped, and the height is higher than outside in the scour protection type bank protection component that its enclosed formation.

The erosion-resistant slope protection member is specifically formed by connecting six identical frame members 201 end to end as shown in fig. 2 and 3, the frame members 201 can be fixed by common anchor rods in a fixed manner, the cross section 2011 of the slope protection member is triangular, the slope angle alpha of the triangle is 60 +/-1 degrees, and the overall internal height is larger than the external height. Slope protection structure 200 of this structure is when facing rivers and erodeing, more is favorable to dispersion rivers to the effort of soil layer in slope protection structure 200, realizes good protection effect to the soil layer.

The inner wall of the frame component is provided with a hook structure;

the scour prevention type slope protection component is correspondingly provided with a soil protection net.

Specifically referring to fig. 2 and 3, the hook structure 202 is used for hanging a soil protection net 203, a large through hole 2031 for plant branches and/or roots to pass through is arranged in the center of the soil protection net 203, and the soil protection net 203 is compacted on the shallow nutrient soil to further protect and prevent a loose soil layer structure below the ecological concrete from losing.

The distance between the arrangement position of the hook structure and the top end of the inner wall of the frame component is 2-3 cm;

the soil protection net is a galvanized iron wire net.

The arrangement and the selection have better using effect.

The microbial inoculum comprises potato-bacillus, Equisetum, Aspergillus, Bacillus amyloliquefaciens and golden flower bacteria.

The synergistic cooperation of the potato-bacillus, the ezetimibe and the aspergillus can effectively improve the soil-fixing capacity of the plant root system. The bacillus amyloliquefaciens is beneficial bacteria for plants, a large number of bacillus amyloliquefaciens are added into a growth substrate, the plant resistance can be increased, the growth vigor and growth phase of the plants in the whole growth period can be improved, and the morbidity of crops is reduced.

The microbial inoculum can be prepared by a conventional method, and also can be prepared by the following processes:

performing air elimination on a fermentation tank, then adding a culture medium and performing actual elimination, wherein the air elimination conditions are as follows: the pressure is 0.15MPa, the temperature is 123 ℃, and the time is 1 h; the actual elimination conditions are as follows: the pressure is 0.20MPa, the temperature is 123 ℃, and the time is 50 min; sampling when the temperature of the culture medium is reduced to 37 ℃ after the sterilization is finished, and utilizing streak culture and microscope mirrorDetecting, wherein no viable bacteria grows, sterilizing, then starting inoculation, wherein the inoculation ratio (volume ratio) is 1:120 of strains/culture solution, and then inoculating; sampling 8 hours after the start of inoculation, detecting whether fermentation is polluted or not by utilizing streak culture and microscope examination, and then fermenting; the fermentation process needs to control the rotating speed, the ventilation quantity, the fermentation temperature and the fermentation time; the rotating speed is 80r/min 6h before fermentation, then the rotating speed is increased by 12r every 2h, and the rotating speed is maintained until the fermentation is finished after 140 r/min; the ventilation rate is 8m for keeping the ventilation rate 8h before the fermentation of the seeding tank³Increasing the ventilation amount by 1m every 1h³H, until the ventilation volume reaches 12m³Keeping the fermentation to the end in the hour, and keeping the tank pressure at 0.05Mpa in the whole process; the ventilation quantity is kept at 30m 8h before the fermentation tank³Increasing ventilation amount by 5m every 1h³H, until the ventilation volume reaches 50m³Keeping the fermentation to the end in the hour, and keeping the tank pressure at 0.06MPa in the whole process; sampling is carried out after the fermentation is carried out for 24 hours, whether the fermentation is polluted or not and the spore rate are detected by utilizing streak culture and microscopic examination, and then sampling detection is carried out every 6 hours until the spore rate reaches more than 95 percent, so that the fermentation is completed; after the fermentation is finished, the method is a dilution plate coating method for sampling and detecting the bacterial quantity of the fermentation liquor, wherein the bacterial quantity is more than 2.0 multiplied by 10⁹cfu/ml; the fermentation temperature is 36.5-37.5 ℃. Under the conditions, the strain can realize good fermentation and proliferation, and the required functional bacteria are respectively cultured under the conditions and then mixed to prepare the microbial inoculum.

The activity of total strains in the microbial inoculum is more than or equal to 320 hundred million/g;

the laying amount of the microbial inoculum is that 2-3 g of microbial inoculum is uniformly laid on every 100g of deep nutrient soil;

wherein:

the strain activity of the bacillus amyloliquefaciens is 60-80 hundred million/g;

the strain activity of the golden flower fungus is 140-180 hundred million/g.

The colony environment formed by the proportion is most beneficial to the growth of plants, and the actual effect is optimal.

As a preference, the first and second liquid crystal compositions are,

the ecological concrete contains slow release fertilizer;

the content of the slow release fertilizer is 6-8 wt%.

The slow release fertilizer can slowly release the fertilizer for a long time, and for the zone which is a hydro-fluctuation belt and is difficult and inconvenient to fertilize, the slow release fertilizer added into the ecological concrete can keep enough external nutrients for the plant to absorb at least in the early growth stage of the plant.

The slow release fertilizer is slow release fertilizer particles containing amino acid and nitrogen fertilizer.

The slow release fertilizer granules containing amino acid and nitrogen fertilizer are combined with amino acid and nitrogen fertilizer in a three-dimensional network structure of cross-linked potassium polyacrylate or potassium polyglutamate, wherein the slow release fertilizer granules comprise the following raw materials: 100 parts of cross-linked potassium polyacrylate or potassium polyglutamate, 15-50 parts of amino acid and 3-8 parts of nitrogen fertilizer. The invention preferably selects 100 parts by weight of crosslinking potassium polyacrylate, 350 parts by weight of amino acid and 5 parts by weight of nitrogen fertilizer.

The ecological concrete contains selenium;

the selenium content is 35-45 ppm.

Generally, the plant antioxidant activity promoter has a strong promoting effect on the activity of an antioxidant system of a plant under the condition of low concentration (0.5-5.0 ppm), can effectively inhibit the plant from generating active oxygen free radicals under the stress of an external environment, and does not have the effect under the condition of high concentration. However, the researchers of the invention find that although the activity of the antioxidant system of the plant can not be improved under the condition of high content, the plant has good effect on the fixation and rapid initial development of new vegetation, so the high content of selenium is applied to the growth substrate, and the selenium is diluted by the water level fluctuation of the hydro-fluctuation belt after the plant passes through the fixation and rapid initial development stage, so that the antioxidant system activity of the plant can be just optimized when the plant reaches lower content, and the plant has very excellent effect. When the selenium content is too low, the promotion effect is limited, and the effect of optimizing the antioxidant system activity of the plant cannot be generated easily due to the too low selenium content, and when the selenium content is too high, the antioxidant system activity of the plant is easily maintained. The selenium content within the above content range can exert the optimum effect.

Unless otherwise specified, the test areas of the examples and the comparative examples of the invention are hydro-fluctuation belts of a certain reservoir in province, and the total number of the plant-growing holes arranged in each example/comparative example is 127.

Example 1

A method of growing plants in a hydro-fluctuation belt of a reservoir, the method comprising:

1) pre-treating the falling zone before planting (cleaning slope surface, cleaning broken stone and the like), and digging plant growing holes which are distributed in a regular hexagon lattice manner as shown in figure 1;

2) planting bellows trees in the plant-growing holes, and paving anti-scouring slope protection members shown in figures 2 and 3 around the plant-growing holes;

3) laying deep-layer nutrient soil with the thickness of 5cm in a planting hole, uniformly applying a microbial inoculum on the surface of the deep-layer nutrient soil, applying the microbial inoculum according to the proportion of 3g per hundred grams of deep-layer nutrient soil, wherein the activity of strains of bacillus amyloliquefaciens in the microbial inoculum is about 60-63 hundred million/g, the activity of strains of golden flower is about 140-145 million/g, the activity of total strains is about 330 million/g, laying chlorella with the thickness of 0.5cm, further laying shallow-layer nutrient soil with the thickness of 5cm, laying a soil protection net on the surface of the shallow-layer nutrient soil, hanging the soil protection net on a slope protection structure, pressing the soil protection net, and finally filling the planting hole with ecological concrete containing 6 wt% of slow-release fertilizer and 35ppm of selenium.

Example 2

A method of growing plants in a hydro-fluctuation belt of a reservoir, the method comprising:

1) pre-treating the falling zone before planting (cleaning slope surface, cleaning broken stone and the like), and digging plant growing holes which are distributed in a regular hexagon lattice manner as shown in figure 1;

2) planting bellows trees in the plant-growing holes, and paving anti-scouring slope protection members shown in figures 2 and 3 around the plant-growing holes;

3) laying deep-layer nutrient soil with the thickness of 6cm in a planting hole, uniformly applying a microbial inoculum on the surface of the deep-layer nutrient soil, applying the microbial inoculum according to the proportion of 2g per hundred grams of deep-layer nutrient soil, applying the microbial inoculum with the strain activity of 76-80 hundred million/g of bacillus amyloliquefaciens in the microbial inoculum, about 175-180 hundred million/g of golden flower bacteria and about 380 hundred million/g of total strain activity, laying chlorella with the thickness of 0.5cm, further laying shallow-layer nutrient soil with the thickness of 3cm, laying a soil protection net on the surface of the shallow-layer nutrient soil, hanging the soil protection net on a slope protection structure, pressing the soil protection net, and finally filling the planting hole with ecological concrete containing 8 wt% of slow-release fertilizer and 45ppm of selenium.

Comparative example 1

And (4) a blank control group, wherein plants are randomly laid on the falling belt.

Comparative example 2

The specific procedure was the same as in example 1, except that:

the 126 plants were uniformly laid in a rectangular array.

Comparative example 3

The specific procedure was the same as in example 1, except that:

no microbial inoculum was applied.

Comparative example 4

The specific procedure was the same as in example 1, except that:

the ecological concrete is not applied with slow release fertilizer and the selenium content is 5 ppm.

Comparative example 5

The specific procedure was the same as in example 1, except that:

slope protection members as disclosed in the embodiment of CN1837508A are provided.

Testing

The plant number and the plant growth condition were recorded after the cultivation in six stages of fluctuation, with the interval of 10m, in examples 1, 2, 3 and 4, and the specific data are shown in table 1 below.

Table 1: test result table

In the table: the average height of the plants is measured in a total number mode, and the average length of the pedicel and the average number of the lateral veins of the plants are obtained by randomly selecting 30 plants to carry out random detection.

As is apparent from the data in table 1 above, the method of the present invention has a great improvement effect on the cultivation of plants in the hydro-fluctuation belt, and the plant growth environment is optimized by comprehensively combining the plant growth hole arrangement, the slope protection structure, the multi-layer soil and the microbial inoculum cooperation, so as to form a better and stable ecological structure and growth environment.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.