CN111592116A - Wetland with water absorption and filtration characteristics and construction method thereof - Google Patents

Abstract

The invention discloses a wetland with water absorption and filtration characteristics and a construction method thereof. The construction method comprises the steps of bundling plant branches and stalks into a buoyancy planting mat capable of floating on the water surface of a water body; connecting the buoyancy planting pad with an anchoring part sinking at the water bottom so as to fix the buoyancy planting pad on the water surface of the water body; the method comprises the steps that wetland plants are planted on a buoyancy planting pad in a soilless mode, the wetland plants grow on the buoyancy planting pad to form a wetland plant cluster, meanwhile, root systems of the wetland plants penetrate through the buoyancy planting pad to grow towards the water bottom and root the wetland plant cluster in a falling mode, in the process that the root systems of the wetland plants grow towards the water bottom, the root systems of the wetland plants adsorb suspended particles in water and block silt moving along with water flow, so that solid substances including the suspended particles and the silt are accumulated below the buoyancy planting pad, and the solid substances are converted into soil with water absorption and filtration characteristics, and the wetland is formed. The invention has the advantages of low construction cost, good environmental protection and good water absorption and filtration characteristics.

Description

Wetland with water absorption and filtration characteristics and construction method thereof

Technical Field

The invention relates to the technical field of ecological environment protection, in particular to a wetland with water absorption and filtration characteristics and a construction method thereof.

Background

The wetland is a main component of the earth ecological environment and has the functions of purifying water quality, storing water, fixing carbon, promoting the circulation process of nutrient substances and the like. The wetland can be roughly divided into a marsh wetland, an offshore and coastal wetland, a river wetland, a lake wetland and a pond wetland.

China has abundant lakes, estuarine deltas and abundant wetlands. Since the sixties of the last century, many wetlands were reclaimed into cultivated lands, and many wetlands were later transformed into farmlands and built into towns. This results in the loss of water absorption and filtration capacity of the ground due to subsidence and ground compression. In addition, the rainwater at the initial stage of the city scours the ground and produces a large amount of sewage in agriculture and the sewage is discharged into lakes through rivers. Thereby often causing the phenomenon of lake bloom and reducing the water quality. In addition, the wetland is reduced, so that the migratory birds lose habitats and the fishes and shrimps lose living environments.

The artificial wetland is constructed on the ground similar to the marshland, sewage and sludge are controllably dosed onto the constructed wetland, and the sewage and the sludge are treated by utilizing the physical, chemical, biological and synergistic effects of soil, artificial media, plants and microorganisms in the process of flowing along a certain direction.

Due to the recognition of the importance of the wetland, China begins to reform a large number of farmlands into artificial wetlands, however, the cost of returning back to cultivation and wetting is huge. On the one hand, capital buys back into farmlands and involved complex processes, and on the other hand, these farmlands have lost the sponge-like water absorption and filtration properties of natural wetlands due to subsidence and stress.

The artificial wetlands in the related art can be classified into the following types: horizontal apparent flow wetland: simply simulating the formation process of the natural wetland, enabling water to horizontally flow between wetland plants and above root soil, and enabling suspended matters to precipitate, microorganisms and plants to consume nutrient components in the water; horizontal subsurface flow wetland: after penetrating into the wetland soil, the water horizontally penetrates through the wetland root soil and then flows away from the wetland; vertical subsurface flow wetland: the water is vertically distributed on the surface of the wetland water body and then permeates into the bottom of the wetland plant root system soil to flow away.

However, the artificial wetland in the related art needs to convey stones in the water body to form wetland islands, convey earthwork on the wetland islands, and plant wetland plants, so that the construction cost is high. In addition, the floating wetland island is arranged in the water body, and the floating wetland island is complex in structure, is only suitable for being built in landscape gardens and is not suitable for large-scale building of the wetland in places such as lakes, estuaries and the like.

In addition, the artificial wetland in the related art does not have the water absorption and filtration characteristics similar to the sponge of the natural wetland, and the wetland function is poor.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art.

Therefore, the embodiment of the invention provides a construction method of wetland with water absorption and filtration characteristics, which has low cost, is suitable for large-scale construction of wetland, has good environmental protection performance of constructed wetland and has the water absorption and filtration characteristics similar to sponge of natural wetland.

Another embodiment of the present invention provides a wet land having water absorption and filtration characteristics.

The method for constructing the wetland with the water absorption and filtration characteristics comprises the steps of bundling plant branches and stalks into a buoyancy planting mat capable of floating on the water surface of a water body; connecting the buoyant planting pad with an anchoring member submerged at the water bottom to fix the buoyant planting pad on the water surface of the water body; plant wetland plant with soilless mode on the buoyancy planting pad, wetland plant is in grow on the buoyancy planting pad and become wetland plant clump, simultaneously the root system of wetland plant passes the buoyancy planting pad is towards the submarine growth and is fallen to the ground and take root the in-process of the root system orientation submarine growth of wetland plant, the suspended particles of wetland plant's root system in the adsorbed water and block the silt along with water flow movement, with the buoyancy planting pad below accumulation include the suspended particles with the solid matter including silt and with the solid matter converts the soil that has the water absorption and the filtering characteristic that natural wetland has into the wetland and forms the wetland.

According to the construction method of the wetland with the water absorption and filtration characteristics, the buoyancy planting pads are fixed on the water surface of the water body through the anchoring parts, the wetland plants are planted on the buoyancy planting pads, so that the natural growth conditions of the wetland plants in the water are created, silt is carried by means of natural water flow, the root systems of the wetland plants grow towards the water bottom and root by falling to the ground, and in the process that the root systems of the wetland plants grow towards the water bottom, the root systems of the wetland plants adsorb suspended particles in the water and accumulate the silt carried with the water flow, so that solid matters including the suspended particles and the silt are accumulated below the buoyancy planting pads and the solid matters are converted into soil with the water absorption and filtration characteristics similar to sponge, so as to form the wetland.

The plant root system of the wetland plant not only purifies river water, but also can intercept, accumulate and solidify suspended solid particles in the water body and silt carried by water flow, so that the wetland has good sponge-like water absorption and filtration characteristics similar to those of a natural wetland, is good in environmental protection performance, and can prevent erosion and soil erosion to a water bank caused by the fact that the water flow drives the silt to flow. According to the construction method of the wetland, heavy sandstone and earthwork transportation in the water body is not needed, the construction cost for constructing the wetland is reduced, the method is suitable for large-scale construction of the artificial wetland with natural wetland characteristics, the wetland is formed by adsorbing suspended particles in the water body and blocking silt carried by natural water flow, and the method is a low-cost and natural wetland construction mode.

In some embodiments, the buoyant planting pad is made by compressing a bale of reed into a bundle, or by bundling and pressing a poplar willow branch.

In some embodiments, bamboo tubes or renewable plastic tubes with two closed ends are bundled in the buoyancy planting mats for increasing buoyancy and strength.

In some embodiments, the wetland plant is at least one of alnus japonica, willow and reed.

In some embodiments, the buoyant planting pad comprises a peripheral mural rim and a plurality of annular floating cells located within the peripheral mural rim, said peripheral cell wall having water flow channels formed therein between a plurality of said floating cells, said peripheral cell wall having a water inlet and a water outlet, each floating cell comprising a plurality of sub-cells, the peripheral cell wall ring is formed by bundling and pressing poplar and willow branches, each subcell cell is formed by compressing and bundling the poplar and the willow branches into blocks, each floating cell is formed by connecting a plurality of subcell cells along the circumferential direction of a fixed bundling ring through the fixed bundling ring, alnus japonica or/and salix populi is planted on the peripheral cell wall circle, reed is planted on the floating cell element, the middle of floating the cell element is equipped with the string bag, the periphery of string bag with fixed ligature ring links to each other, the string bag is used as the carrier of the aquatic plant free growth that the nature spread comes.

In some embodiments, the peripheral mural ring is rectangular ring-shaped and the floating cell is elliptical ring-shaped.

In some embodiments, the method of constructing a wetland further comprises constructing a dike at a predetermined distance from a bank edge of the body of water and placing the buoyant planter mats on the surface of the water between the dike and the bank edge.

In some embodiments, a plurality of the buoyant planting mats are connected by a fixed lashing ring into an annular enclosure, a string bag is arranged in the annular enclosure, the periphery of the string bag is fixed on the fixed lashing ring so that the string bag forms a permeable bottom of the annular enclosure, the string bag is used as a carrier for the free growth of naturally-propagated aquatic plants, the buoyant planting mats are formed by compressing the strings into blocks and bundling the blocks, the wetland plants are reeds, and the fixed lashing ring is a renewable plastic ring or a corrosion-resistant natural material rope.

According to the embodiment of the invention, the wetland with water absorption and filtration characteristics comprises: tie up by the plant branch stalk and make the buoyancy that can float on the surface of water and plant the pad and plant the wetland plant that the pad was planted to the buoyancy, the buoyancy is planted the pad and is fixed through sinking at submarine anchor assembly the assigned position on the surface of water, the wetland plant is in the last wetland plant clump that grows into of buoyancy is planted to the pad simultaneously the root system of wetland plant passes the buoyancy is planted the pad and is grown towards the bottom and is fallen to the ground and take root the in-process of the root system orientation bottom growth of wetland plant, the suspended particles of wetland plant's root system adsorption aquatic blocks the silt that removes along with rivers, with the accumulation of buoyancy is planted the pad below and is included the suspended particles with solid matter including silt will the solid matter converts the soil that has the water absorption and the filtering characteristic of natural wetland.

The wetland provided by the embodiment of the invention has the advantages of low construction cost, sponge-like water absorption and filtration characteristics of natural wetland, good wetland function and good environmental protection performance.

In some embodiments, the wetland further comprises a dike constructed at a predetermined distance from a bank edge of the body of water, the buoyant planter pads being secured to the surface of the water between the dike and the bank edge.

In some embodiments, the buoyant planting pad is made by compressing a bale of reed into a bundle, or by bundling and pressing a poplar willow branch.

In some embodiments, bamboo tubes or renewable plastic tubes with two closed ends are bundled in the buoyancy planting mats for increasing buoyancy and strength.

In some embodiments, the wetland plant is at least one of a seedling of red poplar, willow and reed.

In some embodiments, the buoyant planting pad comprises a peripheral mural rim and a plurality of annular floating cells located within the peripheral mural rim, said peripheral cell wall having water flow channels formed therein between a plurality of said floating cells, said peripheral cell wall having a water inlet and a water outlet, each floating cell comprising a plurality of sub-cells, the peripheral cell wall ring is formed by bundling and pressing poplar and willow branches, each subcell cell is formed by compressing and bundling the poplar and the willow branches into blocks, each floating cell is formed by connecting a plurality of subcell cells along the circumferential direction of a fixed bundling ring through the fixed bundling ring, alnus japonica or/and salix populi is planted on the peripheral cell wall circle, reed is planted on the floating cell element, the middle of floating the cell element is equipped with the string bag, the periphery of string bag with fixed ligature ring links to each other, the string bag is used as the carrier of the aquatic plant free growth that the nature spread comes.

In some embodiments, the peripheral mural ring is rectangular ring-shaped and the floating cell is elliptical ring-shaped.

In some embodiments, a plurality of the buoyant planting mats are connected by a fixed lashing ring to form an annular enclosure, a string bag is arranged in the annular enclosure, the periphery of the string bag is fixed on the fixed lashing ring so that the string bag forms a permeable bottom of the annular enclosure, the string bag is used as a carrier for the free growth of naturally-propagated aquatic plants, the buoyant planting mats are formed by compressing the aquatic plants into blocks and bundling the aquatic plants by reeds, the wetland plants are reeds, and the fixed lashing ring is a renewable plastic ring or a corrosion-resistant natural material rope.

In some embodiments, the anchor is a stone anchor or a concrete anchor.

Drawings

Fig. 1 is a schematic plan view of a wetland according to an embodiment of the present invention.

Fig. 2 is a schematic view of a rectangular peripheral cell wall ring of the wetland shown in fig. 1.

Figure 3 shows the water flow within the rectangular peripheral cell wall circle of figure 2.

Fig. 4 is a schematic diagram of a rectangular peripheral cell wall ring and a plurality of elliptical ring-shaped floating cells positioned in the rectangular peripheral cell wall ring of the wetland shown in fig. 1.

Fig. 5 is a schematic view of an elliptical ring-shaped floating cell of the wetland of fig. 1.

Fig. 6-8 show the growth process of wetland plants on the buoyant planting mats fixed on the water surface.

Fig. 9 shows a schematic view of the wetland plant's root system adsorbing suspended particles in the water and accumulating silt moving with the water flow.

Fig. 10 is a partial schematic view of a buoyant planting pad for a wetland according to an embodiment of the present invention.

Description of the drawings:

1. a buoyant planting mat;

2. a peripheral mural ring; 21. a water inlet; 22. a water outlet;

3. a floating cell; 31. a net bag; 32. fixing a binding ring;

4. a dam; 41. an overflow weir;

5. and (4) an anchoring piece.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

A method of constructing a wet land having water absorption and filtration characteristics and a wet land having water absorption and filtration characteristics according to an embodiment of the present invention will be described with reference to fig. 1 to 10.

As shown in fig. 6 to 10, the method for constructing a wetland having water absorption and filtration characteristics according to the embodiment of the present invention comprises the steps of:

s10: the plant branches and stalks are bundled and pressed into the buoyancy planting mat 1 which can float on the water surface of the water body.

In some embodiments, the buoyant planting pad 1 may be made by compressing a bundle of reeds into a block, or by compressing a bundle of poplar twigs. The buoyancy planting pad 1 can also be formed by bundling and pressing poplar and willow branches and reeds. It will be appreciated that the buoyant planting pad 1 may also be made by bundling and compressing other plant stems. In some preferred embodiments, in order to increase the strength and buoyancy of the buoyant planting pad made of willow branches, a bamboo tube or a regenerated plastic tube with two closed ends can be bound inside the buoyant planting pad, as shown in fig. 10.

S20: the buoyant planting pad 1 is connected with an anchoring member 5 sinking to the water bottom to fix the buoyant planting pad 1 on the surface of the water body.

In some embodiments, the anchor member 5 may be a stone anchor or a concrete anchor, and the anchor member 5 may form a part of the wetland island after the wetland is formed in future. The anchoring member 5 may be connected to the buoyant planter pad 1 by a metal chain or a corrosion resistant rope of natural material or synthetic fiber, for example hemp rope may be used to connect the buoyant planter pad to the anchoring member 5.

S30: the method comprises the following steps of planting wetland plants on a buoyancy planting pad 1 in a soilless mode, enabling the wetland plants to grow on the buoyancy planting pad 1 to form a wetland plant cluster, enabling root systems of the wetland plants to penetrate through the buoyancy planting pad 1 to grow towards the bottom of the water and to land to root, enabling the root systems of the wetland plants to adsorb suspended particles in the water and block silt moving along with the water flow in the process that the root systems of the wetland plants grow towards the bottom of the water, and therefore, solid matters including the suspended particles and the silt are accumulated below the buoyancy planting pad 1, and finally, the solid matters are converted into soil with water absorption and filtration characteristics of a natural wetland, and the wetland is formed.

According to the construction method of the wetland with the water absorption and filtration characteristics, the buoyancy planting mats 1 are floated on the water surface, the buoyancy planting mats 1 are fixed at the designated positions in the water body through the anchoring pieces 5, and then wetland plants are planted on the buoyancy planting mats 1. The wetland is formed by creating the natural growth conditions of wetland plants in water. The wetland plant can grow in water and gradually form a plant floating island, meanwhile, the root system of the wetland plant penetrates through the buoyancy planting pad 1 to grow towards the soil at the bottom and to land on the ground to take root, suspended particles in the water are adsorbed by the root system of the wetland plant, and silt moving along with the water flow is accumulated and solidified, so that solid matters accumulated below the buoyancy planting pad 1 are converted into the soil with the water absorption and filtration characteristics of the natural wetland to form the wetland, and meanwhile, the water flow is prevented from driving the silt to corrode a water bank and lose water and soil.

The root system of the wetland plant can absorb nitrogen and phosphorus elements in the water, and then the river water is purified. In addition, the wetland soil accumulated below the buoyancy planting mat 1 comes from solid particles and silt suspended in the water body and biomass accumulated by wetland plant growth, and the soil characteristics of the formed wetland are similar to those of sponge, so that the constructed wetland has good water absorption and filtration characteristics. In addition, the wetland construction method does not need heavy soil transportation according to the conventional wetland construction mode, reduces the cost of constructing and constructing the wetland, has good environmental protection performance, and forms the wetland soil with the sponge characteristic. The wetland is formed by adsorbing suspended particles in a water body and blocking silt carried by natural water flow, and is a low-cost and natural wetland construction mode.

In some embodiments, the wetland plant is at least one of alnus japonica, willow and reed. For example, the wetland plant may be a wetland tree or an aquatic tree, or other wetland plants, such as one or more of alder, willow, or reed. It will be appreciated that the wetland plants may be selected according to the geographical location, environment, climatic conditions, etc. in which the wetland is to be constructed. In addition, it is understood that the wetland plants planted on the buoyancy planting mats can be wetland plant seedlings or wetland plants which grow to a certain degree and have incomplete root systems.

According to the construction method of the wetland with the water absorption and filtration characteristics, the buoyancy planting pads are fixed on the water surface of the water body through the anchoring parts, the wetland plants are planted on the buoyancy planting pads, so that the natural growth conditions of the wetland plants in the water are created, silt is carried by means of natural water flow, the root systems of the wetland plants grow towards the water bottom and root by falling to the ground, and in the process that the root systems of the wetland plants grow towards the water bottom, the root systems of the wetland plants adsorb suspended particles in the water and accumulate the silt carried with the water flow, so that solid matters including the suspended particles and the silt are accumulated below the buoyancy planting pads and the solid matters are converted into soil with the water absorption and filtration characteristics similar to sponge, so as to form the wetland.

The plant roots of the wetland plants not only purify river water, but also intercept and accumulate suspended solid particles in the water body and silt carried by water flow, so that the wetland has good sponge-like water absorption and filtration characteristics similar to those of a natural wetland, and the wetland has good environmental protection performance. According to the construction method of the wetland, heavy sandstone and earthwork transportation in the water body is not needed, the construction cost for constructing the wetland is reduced, and the construction method is suitable for large-scale construction of the artificial wetland with natural wetland characteristics. The constructed wetland has wetland characteristics close to those of the natural wetland, and the constructed wetland is low in cost and simulates the formation process of the natural wetland.

In addition, wetland plants need to be harvested periodically: firstly, promote root system growth and grow, secondly the poplar willow branch that reaps and reed can be used for making the showy planting pad of other wetland projects, thirdly through reaping the water body is removed with the living beings mode to the nitrogen phosphorus nutrient substance that absorbs from the aquatic to avoid the living beings to fall into the aquatic and rot and release nitrogen phosphorus again.

In some embodiments, as shown in fig. 1-5 and 10, the buoyant planter pad 1 comprises a rectangular peripheral mural rim 2 having water flow channels formed between a plurality of floating cells 3 and a plurality of elliptical ring shaped floating cells 3, the peripheral mural rim 2 having a water inlet 21 and a water outlet 22, preferably formed on opposite sides of the peripheral mural rim 2. Thus, incoming water enters the peripheral cell wall 2 from the water inlet 21, then flows within the peripheral cell wall 2 through the water flow channels between the floating cells 3, and finally flows out of the peripheral cell wall 2 from the water outlet 22. The water flow thus carries suspended particles and silt into the peripheral mural ring 2, facilitating accumulation under the peripheral mural ring 2 and the individual floating cells 3, and thus facilitating the formation of a wetland.

Each elliptical ring-shaped floating cell 3 includes a plurality of sub-cells, the peripheral cell wall rings 2 are formed by bundling and pressing with poplar willow branches, each of the sub-cells is formed by compressing and bundling with reed into blocks, and the plurality of sub-cells are connected in the circumferential direction by fixed lashing rings 32, thereby forming one floating cell 3.

Alnus japonica or/and salix populi is planted on the peripheral cell wall ring 2, and reed is planted on the floating cell element 3. As shown in fig. 5, a net bag 31 is provided in the middle of the elliptical floating cell unit 3, the outer circumference of the net bag 31 is connected to the fixed lashing ring 32 of the floating cell unit 3, and the net bag 31 is used as a carrier for the free growth of naturally-propagated aquatic plants, so that the aquatic plants can grow on the net bag, which is beneficial to the construction of the wetland, improves the number of wetland plants, and improves the ornamental value.

Referring to fig. 6-8, wetland plants, such as seedlings of alnus japonica and/or poplar willow, on the peripheral mural circle 2 and reeds on the floating cells 3 have their roots looking for rooted land towards the bottom of the water during growth. Because the solid matter that the root system adsorbed suspension in the aquatic and the silt that rivers carried can pile up soil particles and organic matter in the root system below to pile up out the shoal below the root system. Finally, the root systems of the wetland plants fall to the shoals for deep planting. As the root system grows strongly and the capability of depositing soil is increasingly strengthened, wetland soil with excellent water absorption and filtration is finally accumulated under the peripheral cell wall ring 2 and the floating cell 3, a natural marsh wetland is gradually formed, and meanwhile, grown willow branches can be harvested to manufacture a new buoyancy planting pad 1.

As shown in fig. 1 to 4, the river entering the peripheral mural circle 2 is moderated by the restriction of the water inlet 21, so that an oxygen-rich water layer and an oxygen-poor water layer are provided for the root system of the wetland plants below the water surface, nitrifying bacteria attached to the root system of the oxygen-rich layer convert ammonia nitrogen into nitrate nitrogen, and denitrifying bacteria attached to the root system of the oxygen-poor layer and in the bottom sediment convert the nitrate nitrogen into nitrogen. Therefore, the growth of the root system consumes nitrogen, and the root system becomes a carrier of nitrobacteria and denitrifying bacteria, so that the microorganisms are promoted to convert ammonia nitrogen and nitrate nitrogen into nitrogen gas, the capability of reducing nitrogen elements is enhanced, and the environment-friendly and water body purifying capability is improved.

In some embodiments, as shown in fig. 1, a dike 4 is constructed at a distance from the water bank edge of the body of water, and a buoyant planter pad 1 is placed on the body of water between the dike 4 and the water bank edge. The dike 4 can protect the peripheral cell wall ring 2 and the floating cell 3, and can guide the flow direction of river water, so that the river water sequentially flows through the plurality of buoyancy planting mats 1. Further, an overflow weir 41 is constructed at the end downstream of the dike 4 to prevent water from flowing backward. It will be appreciated that the peripheral cell walls 2 and the floating cells 3 may be arranged neatly without the need to construct dikes 4 if the water waves of the river are not sufficient to erode the bank and the incoming river flow rate is not great.

The marsh wetland constructed according to the embodiment of the invention has the structure like the microstructure of plant leaves. Under microscopic images, water flows between cells to serve as a carrier to transport nutrients such as nitrogen and phosphorus across the cell wall into the cells, the organelles in the cells that function in photosynthesis break down carbon dioxide and release oxygen, while converting carbon and nitrogen phosphorus into biomass such as sugars, and the epidermis protects the cells from weather and from elements outside the body. Therefore, the wetland construction method according to the embodiment of the invention adopts the bionic principle, wherein the dam 4 protects the existing shore wetland and the internal bionic wetland structure and similarly plays the role of protecting the epidermis. The internal biomimetic wetland architecture mimics the cell structure in leaves, i.e. the peripheral mural circle 2 resembles the cell wall and the floating cell 3 resembles the organelles inside the cell. The process of the nutrient components in the water absorbed by the green primordium in the cell to generate the growth substance is similar to the process of absorbing pollutants in the water by purifying the river water by the peripheral cell wall ring 2 and the floating cells 3.

As shown in fig. 1-4, the peripheral cell wall ring 2 is rectangular ring-shaped, and the floating cells 3 are elliptical ring-shaped, however, the invention is not limited thereto, and the peripheral cell wall ring 2 and the floating cells 3 may have other shapes.

In some embodiments, as shown in fig. 5, a plurality of the buoyant planting mats 1 are connected into an elliptical ring-shaped apron by the fixing lashing rings 32, the net bag 31 is provided in the ring-shaped apron, and the outer circumference of the net bag 31 is fixed on the fixing lashing rings 32, so that the net bag 31 forms a water permeable bottom of the ring-shaped apron, and the net bag 31 serves as a carrier for the free growth of naturally-propagated aquatic plants. The buoyancy planting mat 1 is formed by bundling and compressing reeds into blocks. Preferably, the wetland plant is reed, and the stationary ligature ring 32 is a renewable plastic ring or a corrosion-resistant rope of natural material. The net bag 31 can provide a culture medium for the growth of the naturally propagated aquatic plants, the growth of the reeds and the aquatic plants can absorb nitrogen and phosphorus in water, and the roots of the reeds and the aquatic plants penetrate through the buoyancy planting pad 1 to search soil at the bottom of the water and take roots. At the same time, aquatic plants grow on the net bag 31. Through the reproduction and the growth for a period of time, the root system of the aquatic plant is strengthened, simultaneously, the silt in the water is continuously accumulated around the aquatic plant, finally, a new wetland root base is formed, and simultaneously, the grown reed can be harvested to manufacture a new buoyancy planting cushion 1.

As shown in fig. 5, the elliptical ring-shaped enclosure formed by the plurality of buoyant planting mats 1 connected by the fixed lashing rings 32 in the above-described embodiment may have a similar structure to the floating cells 3 in the embodiment shown in fig. 1-4.

A wetland having water absorption and filtration characteristics according to an embodiment of the present invention will be described with reference to fig. 1 to 10.

The wetland with water absorption and filtration characteristics according to the embodiment of the invention comprises: the plant branches and stalks are bundled to form the buoyancy planting mat 1 which can float on the water surface of the water body and wetland plants planted on the buoyancy planting mat.

The buoyant planting pad 1 is fixed on the surface of the body of water by an anchoring member 5 such as a stone anchor or a concrete anchor, which is submerged in the water bottom. Wetland plants, such as seedlings of red poplar, willow and/or reed, grow on the buoyancy planting mats 1 into wetland plant clumps, while the root systems of the wetland plants grow through the buoyancy planting mats 1 toward the water bottom and root by falling to the ground, during the growth of the root systems of the wetland plants toward the water bottom, the root systems of the wetland plants adsorb suspended particles in the water and block silt moving with the water flow, so as to accumulate solid substances including the suspended particles and the silt below the buoyancy planting mats 1 and convert the solid substances into soil with water-absorbing and filtering properties.

The wetland provided by the embodiment of the invention has the advantages of low construction cost, sponge-like water absorption and filtration characteristics of natural wetland, good wetland function and good environmental protection performance.

In some embodiments, the wetland further comprises a dike 4 constructed at a predetermined distance from the water bank edge of the body of water, and the buoyant planter mats 1 are secured to the water surface between the dike 4 and the water bank edge.

In some embodiments, the buoyant planting pad can be made by compressing reed into a block and bundling, or by bundling and pressing poplar and willow branches, and preferably, a bamboo tube or a renewable plastic tube with two closed ends for increasing the buoyancy and the strength of the buoyant planting pad is also bundled in the buoyant planting pad.

In some embodiments, the buoyant planting pad 1 comprises a rectangular peripheral cell wall ring 2 and a plurality of elliptical ring-shaped floating cells 3 arranged in the peripheral cell wall ring 2, the peripheral cell wall ring 2 is internally provided with a water flow channel formed among the plurality of floating cells 3, the peripheral cell wall ring 2 is provided with a water inlet 21 and a water outlet 22, each floating cell 3 comprises a plurality of sub-cells, the peripheral cell wall ring 2 is formed by bundling and pressing poplar branches, each sub-cell is formed by bundling the compressed reed into blocks, each floating cell 3 is formed by connecting a plurality of sub-cells along the circumferential direction of a fixed bundling ring 32 through the fixed bundling ring 32, the peripheral cell wall ring 2 is planted with poplar cells or/and poplar willows, the floating cells 3 are planted with reeds, the middle of the floating cells 3 is provided with a net bag 31, the periphery of the net 31 is connected with the fixed bundling ring 32, and the net bag 31 is used as a carrier for the free growth of naturally-propagated aquatic plants.

In some embodiments, the plurality of buoyant planting mats 1 are connected into an annular ring by the fixed lashing rings 32, the net bag 31 is provided inside the annular ring and the outer circumference of the net bag 31 is fixed on the fixed lashing rings 32 so that the net bag 31 forms a permeable bottom of the annular ring, the net bag 31 serves as a carrier for the free growth of aquatic plants that naturally come from, the buoyant planting mats 1 are bundled by being compressed into pieces by reeds, the wetland plants are reeds, and the fixed lashing rings 32 are renewable plastic rings or corrosion-resistant natural material ropes.

According to the wetland construction method and the wetland disclosed by the invention, heavy soil carrying is not required, the cost for constructing and constructing the wetland is reduced, the environment-friendly performance is good, the wetland soil with the characteristic similar to sponge of a natural wetland is formed, and the wetland construction method and the wetland are suitable for large-scale construction.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., 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.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the present disclosure, the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" and the like mean that a specific feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (17)

1. A method for constructing a wetland having water absorption and filtration characteristics, comprising:

bundling plant branches and stalks to prepare a buoyancy planting mat capable of floating on the water surface of a water body;

connecting the buoyant planting pad with an anchoring member submerged at the water bottom to fix the buoyant planting pad on the water surface of the water body;

plant wetland plant with soilless mode on the buoyancy planting pad, wetland plant is in the buoyancy is planted and is filled up to grow into wetland plant clumps, simultaneously wetland plant's root system passes the buoyancy is planted and is filled up towards the submarine growth and falls to the ground and take root the in-process of wetland plant's root system towards the submarine growth, the root system of wetland plant adsorbs aquatic suspended particle and blocks the silt along with water flow movement, with the buoyancy is planted and is filled up the below accumulation of pad including suspended particle with the solid matter including silt and will the solid matter converts the soil that has the water absorption and the filtering characteristic that natural wetland has into the wetland and forms the wetland.

2. The method for constructing a wetland having water absorption and filtration characteristics according to claim 1, wherein said buoyant planting pads are made by compressing and bundling with reeds, or by bundling and pressing with willow branches.

3. The method for constructing wetland having water absorption and filtration characteristics as claimed in claim 2, wherein the buoyancy planting mats are further bundled with bamboo tubes for increasing buoyancy and strength or recyclable plastic tubes closed at both ends.

4. The method for constructing wet lands having water absorption and filtration characteristics as claimed in claim 1, wherein the wet land plants are at least one of alnus japonica, willow and reed.

5. The method for constructing a wetland having water absorption and filtration characteristics according to claim 1, wherein said buoyant planter pads comprise a peripheral mural rim having water flow channels formed therein between a plurality of said floating cells, and a plurality of annular floating cells positioned within said peripheral mural rim, said peripheral mural rim being provided with a water inlet and a water outlet;

each floating cell element comprises a plurality of sub-cell elements, the peripheral cell wall ring is formed by bundling and pressing poplar and willow branches, each sub-cell element is formed by compressing and blocking reed, each floating cell element is formed by connecting a plurality of sub-cell elements along the circumferential direction of the fixed binding ring through the fixed binding ring, the populus or/and the poplar and willow are planted on the peripheral cell wall ring, the reed is planted on the floating cell element, a net bag is arranged in the middle of the floating cell element, the periphery of the net bag is connected with the fixed binding ring, and the net bag is used as a carrier for the free growth of aquatic plants which are naturally propagated.

6. The method for constructing wetland having water absorption and filtration characteristics as claimed in claim 5, wherein said peripheral mural ring is rectangular ring-shaped, and said floating cells are elliptical ring-shaped.

7. The method for constructing a wetland having water absorption and filtration characteristics according to claim 1, further comprising constructing a dam at a predetermined distance from a bank edge of said body of water and placing said buoyant planter pads on the surface of the water between said dam and said bank edge.

8. The method for constructing a wetland having water absorption and filtration characteristics according to claim 1, wherein a plurality of said buoyant planting mats are connected into an annular pen by means of fixed lashing rings, a net bag is provided in said annular pen and the outer periphery of said net bag is fixed to said fixed lashing rings so that said net bag forms a water permeable bottom of said annular pen, said net bag serves as a carrier for free growth of naturally-propagated aquatic plants, said buoyant planting mats are formed by compressing said net bag into pieces with reeds, said wetland plants are reeds, and wherein said fixed lashing rings are renewable plastic rings or corrosion-resistant ropes of natural materials.

9. A wetland having water absorption and filtration characteristics comprising: tie up by the plant branch stalk and make the buoyancy that can float on the surface of water and plant the pad and plant the wetland plant that the pad was planted to the buoyancy, the buoyancy is planted the pad and is fixed through sinking at submarine anchor assembly the assigned position on the surface of water, the wetland plant is in the last wetland plant clump that grows into of buoyancy is planted to the pad simultaneously the root system of wetland plant passes the buoyancy is planted the pad and is grown towards the bottom and is fallen to the ground and take root the in-process of the root system orientation bottom growth of wetland plant, the suspended particles of wetland plant's root system adsorption aquatic blocks the silt that removes along with rivers, with the accumulation of buoyancy is planted the pad below and is included the suspended particles with solid matter including silt will the solid matter converts the soil that has the water absorption and the filtering characteristic of natural wetland.

10. The wetland having water absorption and filtration characteristics according to claim 9, further comprising a dike constructed at a predetermined distance from a shoal edge of a body of water, said buoyant planter pads being secured to the surface of the water between said dike and said shoal edge.

11. The wetland having water absorption and filtration properties of claim 9, wherein said buoyant planter pads are made by compressing in blocks with reeds and bundling up, or by bundling up and pressing with poplar willow branches.

12. The wetland having water absorption and filtration characteristics of claim 11, wherein a bamboo tube for increasing buoyancy and strength or a renewable plastic tube with two closed ends is bundled in the buoyancy planting mat.

13. The wetland having water absorption and filtration properties according to claim 9, wherein said wetland plants are at least one of seedlings of red poplar, willow and reed.

14. The wetland having water absorption and filtration characteristics according to claim 9, wherein said buoyant planter pad comprises a peripheral mural perimeter having water flow channels formed therein between a plurality of said floating cells, and a plurality of annular floating cells positioned within said peripheral mural perimeter, said peripheral mural perimeter being provided with a water inlet and a water outlet;

each floating cell element comprises a plurality of sub-cell elements, the peripheral cell wall ring is formed by bundling and pressing poplar and willow branches, each sub-cell element is formed by compressing and blocking reed, each floating cell element is formed by connecting a plurality of sub-cell elements along the circumferential direction of the fixed binding ring through the fixed binding ring, the populus or/and the poplar and willow are planted on the peripheral cell wall ring, the reed is planted on the floating cell element, a net bag is arranged in the middle of the floating cell element, the periphery of the net bag is connected with the fixed binding ring, and the net bag is used as a carrier for the free growth of aquatic plants which are naturally propagated.

15. The wetland having water absorption and filtration characteristics according to claim 14, wherein said peripheral mural ring is rectangular ring shaped and said floating cells are elliptical ring shaped.

16. The wetland having water absorption and filtration characteristics according to claim 9, wherein a plurality of said buoyant planting pads are connected by fixed lashing rings into an annular pen, a net is provided in said annular pen and the periphery of said net is fixed to said fixed lashing rings so that said net forms a permeable bottom of said annular pen, said net serves as a carrier for the free growth of naturally-propagated aquatic plants, said buoyant planting pads are formed by compressing with reeds into blocks and lashing, said wetland plants are reeds, wherein said fixed lashing rings are renewable plastic rings or corrosion-resistant natural material ropes.

17. The wetland having water absorption and filtration properties according to claim 9, wherein said anchors are stone anchors or concrete anchors.

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