KR100351302B1 - Method for preventing erosion and afforestation of shore by a biotechnological construction method - Google Patents

Abstract

The present invention is to provide a biotechnological erosion prevention and greening method that can prevent the coastal erosion quickly and efficiently at low cost and at the same time to trap the sand carried by the sea breeze to form a poor coastal land into fertile land for greening As a result, palm tree branches (2) are planted on the shore where seawater does not reach and parallel to the shoreline to build a railing-type sand film (1), or palm fiber nets (6) that are embedded at regular intervals (6). A sand film (1a) is fixed around the sand, and on the white sand (3) inside the sand film (1), a herbaceous stem (4) inhabiting the coast is planted closely so that the sea side herbaceous stem group is parallel to the shoreline, The herbaceous stem group is a biotechnological erosion prevention and greening method of the coast which is densely planted perpendicular to the shoreline.

Description

Method for preventing erosion and afforestation of shore by a biotechnological construction method}

The present invention relates to a coastal biological erosion prevention and greening method that can prevent coastal erosion quickly and efficiently at a low cost and at the same time trap the sand carried by the sea breeze to form a poor coastal land into fertile land for greening. .

Sandy coasts can be divided into sediment and erosion sections. In coastal erosion, land-based soil containing large amounts of sand is swept away by seawater.

If the erosion of the coast is left unattended for a long time, it will not only destroy the natural environment of the coast, but also damage the property of the farmland adjacent to the coast and damage the property. Desperate

As a countermeasure against coastal erosion, it is a shoreline structure using breakwater or tetraport. Shore structures using breakwaters or tetraports have significant effects in suppressing or preventing sand erosion, but they are non-environmentally harmful to the habitat of coastal plants. You can't even expect it in the first place.

Beaches where the sandy beach area has been reduced due to erosion of seawater, etc., are procuring scarce sand from other regions at enormous cost, equipment, and quality.

Therefore, in order to protect the coastal white sand beach, avoid artificial sand replenishment work that requires huge procurement cost, and breakwaters that are uneco-friendly, long air, and construction cost, and low cost low effort, There is an urgent need for measures to prevent new coastal erosion, which may also contribute to the protection of ecosystems.

The present invention is to provide a coastal biotechnological erosion prevention and greening method that can protect the coastal sand and contribute to the restoration of the coastal ecosystem with low cost and high efficiency.

The present invention comprises the steps of constructing a barrier-type sand catching film (1) by closely planting twigs (2) parallel to the shoreline in a location where the sea water of the coast does not reach; Planting a herbaceous stem (4) inhabiting the sandy beach (3) inside the sand catching film (1) in a position where the seawater does not reach the shore; consisting of sand is deposited by the sand catching film (1) And it provides a biotechnological erosion prevention and greening method of the coast, characterized in that the herbaceous stem (4) grows in the deposited sand to the shore is greening.

The present invention also builds a railing-type sand film surrounding the palm fiber nets at regular intervals so as to be parallel to the shoreline on the shoreline where seawater does not reach, and to prevent sand from sand beaches by sea breezes. Providing coastal biotech erosion prevention and greening methods for planting perennial herbaceous stems.

1 is a perspective view of a sand catching membrane by the biotechnological erosion prevention and greening method of the coast according to an embodiment of the present invention

2 is a planting pattern diagram of coastal herbals

Figure 3 is a perspective view of the sand catching film by the biotech erosion prevention and greening method of the coast according to another embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

1,1a: sand film 2: twigs

3: white sandy beach 4: herbaceous stem

5: wood pile 6: palm fiber network

The present invention collects the twigs produced by pruning in nearby mountains and trims to equalize to 1m in length.

In Fig. 1, the above-mentioned twigs 2 are planted on the shore where the seawater does not reach to build a sand catching film 1 of a railing type. Twig branch (2) determines the direction to insert in consideration of the wind direction and wind speed of each season, it is usually preferable to insert side by side with the coastline. The twig 2 is inserted at least 30 cm deep to expose about 50-70 cm to the surface of the earth so that there is no shortage of the function of the sand film 1.

In addition, twigs (2) are tightly plugged so that about half of the wind coming to the shore can pass through, so that the sand carried by the wind blows into the sea to prevent it from flying towards the sea.

In FIG. 2, the stem 4 of the herbaceous species inhabiting the coast is planted in the white sand 3 inside the sand catching membrane 1. The herbaceous stem 4 includes a Phacelurus latifolius, an Elymus dahuricus, and an Elymus molls.

Sea-side herbaceous stem clusters (a) are planted closely parallel to the shoreline and land-side herbaceous stem clusters (b) are closely planted perpendicular to the shoreline. The planting of the herbaceous stem (4) is suitable for 1m line spacing, 50cm spacing, and the depth of planting is suitable for a depth not to be extracted even in strong wind, that is, about 1/2 to 2/3 of the stem. And all herbaceous stems (4) spread the bundle like a fan, so that the sea wind and land wind to pass through the bar and filter only sand.

This planting pattern creates the conditions for the sand from the sea breeze to descend as quickly as possible into the land-side herbaceous stem group (b) to form land, while the sea-side herbaceous stem group (a) has land on the land side. Even if it is blown by the wind to the sea, it is effective to prevent it from going out to the sea by being blocked by the closely planted herbaceous stem group (a).

In Fig. 3, the railing-type sand film 1a shown in this figure is embedded with a 1m long wooden pile 5 about 30cm deep at intervals of about 80cm so as to be parallel to the shoreline on the shore where seawater does not reach. It is the case that the railing type sand film is built around (6).

The bottom of the palm fiber net (6) is buried in the ground so as to match the depth of the wooden pile (5) so as not to fly in the sea breeze. When the bottom of the palm fiber (6) flutters in the wind, the nearby sand is swept away, and the land wind, which is just blown away, blows sand towards the sea and loses the collected sand, and the place where the wooden pile (5) is embedded becomes shallow. There is a risk of weakening the holding force. For this reason it is safe to bury the underside of the palm fiber (6) in the ground.

Herbaceous stems are planted in the white sand formed by the sand catching film 1a according to the same method as in the first embodiment, and are turned into greenery.

As described above, the present invention is an environmentally-friendly biotechnological erosion prevention and greening method that is particularly suitable for an area where a sandy sand erosion on the coast requiring sandy beach erosion is made of fertile soil. Compared to the sand bar or tree piles and palm fiber nets, the sand catching membrane is much cheaper to build and the air is much shorter, preventing the erosion of the sandy beach without financial burden. It is very effective in forming fertile land.

Herbs planted in the sandy ground created by the sand catching membranes are very beneficial for the construction of coastal ecosystems because they grow up early and spread out vigorously along the hills.

The developed roots and root stems (underground) of herbaceous materials have a great effect of catching sand, which contributes to the prevention of erosion of the sand layer.In addition, the plants grow deeper in the ground to absorb moisture as the sand is deposited. In addition to the encouraging results of stabilizing the soil throughout, it also contributes to the creation of marine biotopes and the improvement of the natural landscape.

Claims (5)

Constructing a railing-type sand film 1 by closely planting twigs 2 parallel to the shoreline at a location where seawater does not reach the shore; Planting a herbaceous stem (4) inhabiting at the position where the seawater of the coast does not reach the white sandy beach (3) of the inside of the sand catching film (1); The sand is deposited by the sand film (1), the herbaceous stem stems (4) grow in the deposited sand so that the coast is biotechnological erosion prevention and greening method, characterized in that the greening. The coastal bioerosion according to claim 1, wherein the sand catching membrane (1) is a sand catching membrane (1a) fixed around a palm fiber net (6) to a wooden pile (5) driven at a predetermined interval parallel to the shoreline. Prevention and greening method. The method of claim 2, wherein the palm fiber (6) is buried in the ground so that the airborne biotechnological erosion prevention and greening method, characterized in that not blown. The coastal bio-erosion according to claim 1, wherein the herbaceous stem 4 is one or two or more species such as Phacelurus Latifolius, Elymus Dahuricus, and Elymus Molls. Prevention and greening method. 5. The herbaceous stem 4 according to claim 1 or 4, characterized in that the herbaceous stem 4 is composed of a sea side herbaceous stem group densely planted parallel to the shoreline, and a land side herbaceous stem group densely planted in a direction perpendicular to the shoreline. Coastal biotech erosion prevention and greening.