KR20130000954A - Methods of riparian greenspace establishment for han river watershed through ecological planting model and technique - Google Patents

Abstract

PURPOSE: A method of constructing a riparian green zone around Han river watershed using ecology planting model and technique is provided to decide a species composition and the density of planting appropriate for a growth environment, and directly establish an ecological plant assembled with multilayer planting. CONSTITUTION: A riparian green zone is established in the protected lowland around Han river watershed. Two units of pine tree, two units of queritron, two units of ash tree, three units of Styrax obssia, three units of Quercus mongolica, two units of Carpinus laxiflora Blume, two units of Tila mandshurica, and two units of wild mulberry tree are planted per a hundred square meter of a planting area. Two units of the pine tree, one unit of Populus Maximowiczii, one unit of wild pear tree, one unit of ginger tree, two units of Acer trifluorum, two units of Styrax obassia, and two units of ash tree are planted per a hundred square meter of the planting area. Four units of queritron, three units of oriental oak, one unit of wild cherry tree, four units of ash tree, three units of Styrax obassia, four units of wild pear tree, and four units of Syringareticulata var.mand shurica. Hara are planted per a hundred square meter of the planting area. Three units of pine tree, two units of queritron, one unit of ash tree, two units of Styrax obassia, two units of Carpinus, two units of white oak, and two units of snowbell are planted per a hundred square meter of the planting area. Two units of pine tree, two units of zelkova, one unit of Carpinus, two units of snowbell, and one unit of Cornus walteri are planted per a hundred square meter of the planting area. Two units of Quercus mongolica, two units of ash tree, two units of Fraxinus mandshurica, one unit of elm tree, one unit of willow tree, three units of Amur maple, three units of Maakia amurensis, and three units of Magnolia Sieboldii are planted per a hundred square meter of the planting area. Two units of queritron, two units of elm tree, two units of Carpinus, one tree of oriental oak, two units of Acer pseudosieboldianum, and two units of Styrax obassia are planted per a hundred square meter of the planting area. Three units of Amur maple, two units of ash tree, two units of Styrax obassia, two units of Maakia amurensis, four units of Acer pseudosieboldianum, and three units of Pyrus pyrifolia are planted per a hundred square meter of the planting area. Three units of Amur maple, three units of willow tree, one unit of Cornus controversa, two units of Malus baccata Borkh, two units of wild mulberry tree, and one unit of Prunus persica batsch var. davidiana Max are planted per a hundred square meter of the planting area. Two units of wild-walnut tree, two units of ash tree, three units of wild mulberry tree, two units of Acer mono Max, two units of elm tree, two units of Quercus mongolica, and two units of Magnolia Sieboldii are planted per a hundred square meter of the planting area. Three units of pine tree, three units of Carpinus laxiflora Blume, one unit of white oak, two units of Acer pseudosieboldianum, and one unit of Magnolia Sieboldii Quercus mongolica are planted per a hundred square meter of the planting area.. [Reference numerals] (AA) Quercus mongolica(upper layer target species of trees); (BB) Ash tree(upper layer target species of trees); (CC) Fraxinus mandshurica(upper layer target species of trees); (DD) Elm tree(upper layer target species of trees); (EE) Willow tree(upper layer target species of trees); (FF) Amur maple(middle layer target species of trees); (GG) Maackia amurensis(middle layer target species of trees); (HH) Magnolia Sieboldii(middle layer target species of trees)

Description

Method of riparian greenspace establishment for Han River watershed through Ecological planting model and technique}

The present invention relates to a method of constructing waterfront greenery, and more particularly, it is possible to secure the natural function of waterside greenery by reflecting the ecological transition of natural waterside forests according to regions, and to minimize the management cost by natural management after planting. It relates to the construction of waterfront greenery in the Han River basin.

The Ministry of Environment purchases land and builds green waterfronts every year for water supply protection zones, waterside zones, and special countermeasures. The watershed area designation area (as of the end of 2007) is 191.3㎢ of the Han River Basin, 339.9㎢ of the Nakdong River Basin, 373.2㎢ of the Geum River Basin, and 295.6㎢ of the Sumjin and Yeongsan River Basins, totaling 1,200.1㎢. The land purchase area of Kumgang Basin Environmental Office for the last three years was 339 thousand㎡ in 2008, 455 thousand㎡ in 2009, and 440 thousand㎡ in 2010. The green area was 88.88㎡ in 2008, 964,000㎡ in 2009, 112 thousand in 2010. M 2 and the like. In the case of the Yeongsan River Basin Environmental Office, the land purchase area was 2,253 thousand ㎡ in 2008, 1,588 thousand ㎡ in 2009, the green area was 143 thousand ㎡ in 2008, and 332 thousand ㎡ in 2009. Among them, the implementation design cost was 98.7 million won, which is about 3%. As such, projects related to waterfront greening are continuously increasing every year.

Governments and private companies plant trees for the purchase of five riverside waterfront areas, but existing waterfront green lands are mostly medium- and low-density fault planting of similar-sized trees consisting of single species or minority species. In other words, the planting techniques and species selection criteria are unclear, and thus, there is a ambiguity in the purpose of creating the natural waterfront greenery including water conservation, biological habitat, landscape nature, etc.

The average planting density of trees was less than 10 weeks / 100m2, accounting for 44% of the total land cover. The average tree cover was only 28%, and about 70% of the green space was not covered by water pipes. The light ratio was considerably high as 87% of the external light quantity. If the surface inflow light is high, it is relatively likely to dry the soil by evaporation of water, and it causes problems of normal growth of planting trees by promoting weed growth including vine plants.

Planting techniques were usually single or minor species monolayers of similar specifications, with about 84% planted only in the upper layers. The average number of plantings per place was 3 ~ 8, and the horizontal distribution tended to plant only a single species of similar standard by separating them by space rather than mixing them. In addition, they accounted for about 40% of cases of formal deterioration.

The suitability of species selection is relatively good in the landscape of natural forests, except for some exotic species, but the composition of planting species is usually a single species. . In addition, when selecting planting species, it was common for planting trees to die or have low growth vitality due to insufficient consideration of soil moisture and nutrient requirements.

Therefore, there is a need to develop a new type of greenery planting method that reflects the ecological transition of natural forests.

Therefore, the present inventors apply a planting model based on the natural forest structure of the five major river basins in Korea, determine the species composition and planting density suitable for the growth environment, and construct a multi-tiered ecological plant directly. The present invention is to provide a waterfront greenery construction method, the present invention is to provide a waterfront greenery construction method of the Han River basin based on the natural forest structure of the Han River basin.

In a first aspect of the present invention, by constructing a waterfront greenery in the planting area of Jenaeji located on the waterfront of the Han River basin, pine, prunus oak, ash, cilantro, gingko, seobo, waxwood And it provides a waterfront greenery construction method characterized by planting mountain mulberry. At this time, the waterfront greenery construction method, per 100m ² planting area, 2 weeks pine, 2 weeks of ash oak, 2 weeks of ash tree, 3 weeks of camellia, 3 weeks of gingko tree, 2 weeks of seowa, 2 weeks of waxwood and It is preferable to plant two weeks of mountain mulberry (see Fig. 5). The first aspect of the present invention is a pine-prunus oak community, pine, prunus oak is a dominant species forming the upper water pipe, the ash tree is a dominant species forming the upper water pipe, camellia, scorpion, seobo, wax Blooming trees and mulberry trees are companion species that form the medulla.

The subject matter of the present invention is an inner mine, which means an area protected by a dam in a bank (dike) and includes an inner dam side slope. Hereinafter, the meaning of deterrence in the other form of this invention is applied similarly.

According to a second aspect of the present invention, by constructing waterside greenery in the Jeiji planting zone located on the waterside of the Han River basin, pine trees, cypresses, red beans, ginger trees, Bokjagi, Japanese camellia and ash trees It provides a waterfront greenery construction method characterized in that planting. At this time, the waterfront greenery construction method, per 100m ² planting area, pine 2 weeks, pyruce tree 1 week, red bean pear 1 week, ginger tree 1 week, Bokjagi 2 weeks, camellia 2 weeks and ash tree 2 weeks It is preferable to plant (see FIG. 6). The second aspect of the present invention is a pine-python tree colony, pine, pyrite tree is a dominant species forming the upper water pipe, the red bean pear tree is a dominant species forming the upper water pipe, ginger tree is a dominant species forming a middle water pipe. , Bokjagi, Camellia, and Ash are the companion species that form the medulla.

According to a third aspect of the present invention, by constructing waterside greenery in the Jeiji planting zone located on the waterfront of the Han River basin, within the planting zone, prunus oak, oyster oak, wild cherry tree, ash tree, Japanese camellia tree, sorbus tree and opening It provides a waterfront greenery construction method characterized by planting trees. At this time, the waterfront greenery construction method, per 100m ² planting area, four weeks of prunus oak, three weeks of oak oak, one week of wild cherry tree, four weeks of ash tree, three weeks of camellia, four weeks of red bean pear and four weeks of opening tree It is preferable to plant (see FIG. 7). The third aspect of the present invention is the prunus oak-oak oak community, the pruning oak, the oyster oak is the dominant species forming the upper water pipe, the wild cherry tree is a companion species forming the upper water pipe, the ash tree, the camellia is the middle water pipe It is a dominant species that forms, and the red bean pear tree, the opening tree is a companion species forming the medulla.

According to a fourth aspect of the present invention, by constructing waterside greenery in the Jeiji planting zone located on the waterfront of the Han River basin, pine, prunus oak, ash tree, camellia, sesame tree, brown oak, and deadwood It provides a waterfront greenery construction method characterized in that planting. At this time, the waterfront greenery construction method, per 100m ² planting area, pine 3 weeks, 2 weeks of ash oak tree, ash 1 week, 2 weeks of camellia, 2 weeks of Seoeo tree, 2 weeks of oak oak and 2 weeks It is preferable to plant (see FIG. 8). Fourth aspect of the present invention is a pine colony, pine is a dominant species forming the upper water pipe, prunus oak, ash tree is a companion species to form the upper water pipe, the camellia, seowak, brown oak, the dead wood is the middle layer It is a companion species that forms water canals.

According to a fifth aspect of the present invention, waterfront greenery is constructed in a planting zone in Jeiji, located on the waterfront of the Han River basin, and planting pine, zelkova, seobo tree, stagwood and horsewood in the planting zone. Provide waterfront greenery construction method. At this time, the waterfront greenery construction method, planting area 100m ² per ² , pine 2 weeks, zelkova tree 2 weeks, seowa 1 tree, two jukki trees and 1 horsewood tree planting (refer to Figure 9) . The fifth aspect of the present invention is a pine-zelkova community, pine, zelkova is a dominant species forming the upper water pipe, Westwood is a dominant species forming the upper water pipe, sackwood, horseshoe tree forming a middle water pipe It is a companion species.

According to a sixth aspect of the present invention, waterfront greenery is built in the planting zone of Jeiji located on the waterfront of the Han River basin, and within the planting zone, redwood, ash, wild wood, elm, willow, cypress, elm, and It provides a waterfront greenery construction method characterized by planting a ham-tree. At this time, the waterfront greenery construction method, per 100m ² planting area, 2 weeks red ash, 2 weeks ash, 2 weeks wild elm, 1 week elm, 1 week willow, 3 weeks old, 3 weeks old It is preferable to plant three weeks of tree (see Fig. 10). A sixth aspect of the present invention is a gingko tree-ash community, Singer tree, ash tree is the dominant species forming the upper water pipe, wild wood, elm is the dominant species forming the upper water pipe, willow is the upper water pipe It is a companion species that form, and the new trees, elm trees, and cherry trees are companion species that form the medulla.

According to a seventh aspect of the present invention, by constructing waterside greenery in the Jeiji planting zone located on the waterfront of the Han River basin, in which the planting of the pine tree, elm tree, west tree, oyster oak, dandelion, and camellia is planted It provides a waterfront greenery construction method characterized in that. At this time, the waterfront greenery construction method, planting area 100m ² per ^two , pruning oak 2 weeks, elm 2 weeks, Seoeo trees 2 weeks, oyster oak 1 weeks, Dangdan leaves 2 weeks and two camellia trees are preferably planted. (See FIG. 11). The seventh aspect of the present invention is the prunus oak-elm community, the pruning oak, elm is the dominant species forming the upper water pipe, the Wester is the dominant species forming the upper water pipe, the oyster oak is accompanied by forming the upper water pipe It is a species, dandan leaves, and camellia is a dominant species that forms a middle water pipe.

According to an eighth aspect of the present invention, by constructing waterside greenery in the Jeiji planting zone located at the waterside of the Han River basin, ash tree, birch, cilantro, elm, cypress camellia, dandelion and stone boat It provides a waterfront greenery construction method characterized by planting trees. At this time, the waterfront greenery construction method, per 100m ² planting area, 2 weeks of ash wood, 2 weeks of birch, 2 weeks of camellia, 2 weeks of elm, 3 weeks of camellia, 4 weeks of dandelion and 3 weeks old It is preferable to plant (see FIG. 12). The eighth aspect of the present invention is the ash-herbaceous colony, ash, and birch are the dominant species forming the upper water pipe, the camellia is the dominant species forming the upper water pipe, and the elm tree forms the upper water pipe. It is a companion species, and the camellia is a dominant species that forms a mesocarp, and the Dangdan-pung, pear tree is a companion species that forms a mesocarp.

According to a ninth aspect of the present invention, waterfront greenery is constructed in a planting zone located in the waterfront of the Han River basin, where planting cypresses, willows, dogwood, noctilucent trees, wild mulberry trees, and dogwood trees are planted in the planting zone. It provides a waterfront greenery construction method characterized in that. At this time, the waterfront greenery construction method, planting area 100m ² sugar, three trees, three willows, willow tree three weeks, one tree of larch, two trees luminous, two mulberry trees and one lapberry tree is preferably planted. (See Figure 13). A ninth aspect of the present invention is a genus of willow-willow, where a willow is a dominant species forming an upper canopy, and a dogwood is a companion species that forms an upper canopy. It is a companion species that forms water canals.

According to a tenth aspect of the present invention, by constructing waterside greenery in the Jeiji planting zone located on the waterfront of the Han River basin, within the planting zone, sputum, ash, mountain mulberry, crocus tree, elm tree, gingko tree, and hamberry It provides a waterfront greenery construction method characterized in that planting. At this time, the waterfront greenery construction method, per 100m ² planting area, 2 weeks of ash tree, 1 week of ash tree, 3 weeks of wild mulberry tree, 2 weeks old cypress tree, 2 weeks elm tree, 2 weeks old gingko tree and 2 weeks of persimmon tree It is preferable to plant (see FIG. 14). The tenth aspect of the present invention is a sputum bark colony, the sputum is a dominant species forming the upper water pipe, the ash tree is a dominant species forming the upper water pipe, the mulberry tree, elder tree, elm tree, gingko tree, the hammam It is a companion species that forms a medulla duct.

According to an eleventh aspect of the present invention, a waterfront greenery is constructed in a planting zone of Jenaeji located on the waterfront of the Han River basin, and the waterside is characterized by planting pine trees, seo trees, brown oaks, dandelions, and persimmons in the planting zone. Provide green area construction method. At this time, the waterfront greenery construction method, planting area 100m ² sugar, pine tree 3 weeks, three trees west, brown oak tree 1 week, sugar maple 2 weeks and 1 plant persimmon flower is preferably planted (see Figure 15). An eleventh aspect of the present invention is a pine-shea group, pine and seo trees are dominant species forming the upper water pipe, brown oak is a companion species to form the upper water pipe, dandan wind is a dominant species to form the middle water pipe, A rose flower is a companion species that forms a mesocarp.

According to a twelfth aspect of the present invention, by constructing a waterfront greenery in the Jeiji planting zone located on the waterfront of the Han River basin, planting pine, prunus oak, gingko tree, ash, sesame tree and cypress tree in the planting zone It provides a waterfront greenery construction method characterized by. At this time, the waterfront greenery construction method, planting area 100m ² per plant, pine 5 weeks, four oak oak tree, 2 weeks old ash tree, 2 weeks ash tree, 2 weeks west tree and 2 old cypress tree planting is preferable ( See FIG. 16). The twelfth aspect of the present invention is a pine-prunus oak community, pine and prunus oak are the dominant species forming the upper water pipe, and the gingko tree is the companion species forming the upper water pipe, and the ash and the west tree form the middle water pipe. It is a dominant species, and the cypress is a companion species that forms a medulla.

According to a thirteenth aspect of the present invention, by constructing waterside greenery in the Jeiji planting zone located on the waterfront of the Han River basin, in the planting zone, gingko tree, pine, ash tree, birch, cypress, dandelion, and deadwood It provides a waterfront greenery construction method characterized in that the planting. At this time, the waterfront greenery construction method, planting area 100m ² per plant, 3 weeks old tree, 3 weeks pine, 2 weeks ash wood, 1 week old birch, 3 weeks old camellia, 3 weeks dangaluk and 2 weeks It is preferable to do so (see FIG. 17). A thirteenth aspect of the present invention is a gingko-pine tree, a gingko tree and a pine tree are dominant species forming an upper canopy, an ash tree and a birch are companion species forming an upper canopy, and a camellia tree forms a canopy. It is a dominant species, Dangdan-pung, and bamboo shoots are the companion species that form the middle water pipe.

According to a fourteenth aspect of the present invention, by constructing waterside greenery in the Jeiji planting zone located on the waterfront of the Han River basin, oyster oak, pine, brown oak, prunus oak, camellias, dandelion, and elm It provides a waterfront greenery construction method characterized in that the planting. At this time, the waterfront greenery construction method, planting area 100m ² per plant, oyster oak 3 weeks, pine 2 weeks, larch oak 2 weeks, prunus oak 2 weeks, citrus camellia 4 weeks, dandelion wind 3 weeks, elm 3 weeks planting It is desirable to do so (see Fig. 18). Fourteenth aspect of the present invention is the oyster oak-pine community, oyster oak, pine is the dominant species forming the upper water pipe, brown oak, prunus oak is the dominant species forming the upper water pipe, camellia, dandelion, elm Is a companion species that forms a medulla duct.

According to a fifteenth aspect of the present invention, the waterfront greenery is constructed in the Jeiji planting zone located on the waterfront of the Han River basin, and the pine trees, gingko trees, blooming trees, ash trees, dandelion leaves, and deadwood trees are planted in the planting zone. Waterfront greenery construction method is provided. At this time, the waterfront greenery construction method, planting area 100m ² sugar, 2 weeks old oak tree, 2 weeks old tree, 2 weeks old bark tree, 2 weeks ash tree, 2 weeks dangaluk wind and 1 week bamboo tree planting is preferable (Fig. See 19). The fifteenth aspect of the present invention is a prunus oak-single tree colony, the prunus oak, the gingko tree is a dominant species forming the upper water pipe, the blood tree is a dominant species forming the upper water pipe, ash, sugar, maple, is the middle water pipe It is a companion species to form.

According to a sixteenth aspect of the present invention, in the waterfront greenery is constructed in the Jeiji planting zone located on the waterfront of the Han River basin, the planting of oyster trees, silk trees, redwoods, deadwood, walnut trees, and brown oak trees in the planting zone. It provides a waterfront greenery construction method characterized by. At this time, the waterfront greenery construction method, per 100m ² planting area, oyster tree 4 weeks, 1 week of redwood, red wood 1 week, 4 weeks of dead wood, walnut tree 3 weeks, it is preferable to plant two oak trees ( See FIG. 20). A sixteenth aspect of the present invention is a oyster tree colony, the oyster tree is the dominant species forming the upper water pipe, the silk tree, red wood is the companion species forming the upper water pipe, the jujube tree is a dominant species forming the middle water pipe, Trees and brown oaks are the companion species that form the medulla.

According to the seventeenth aspect of the present invention, the waterfront greenery is constructed in the Jeiji planting zone located at the waterside of the Han River basin, and the pine trees, bamboo trees, oyster trees, ginger trees, dandelions, and juniper trees are planted in the planting zone. Waterfront greenery construction method is provided. At this time, the waterfront greenery construction method, planting area 100m ² sugar, pine tree 3 weeks, jukju 2 weeks, oyster tree 2 weeks, ginger tree 3 weeks, sugar maple wind 2 weeks and one manju tree planting is preferred ( See FIG. 21). A seventeenth aspect of the present invention is a pine colony, pine is the dominant species forming the upper water pipe, sackwood is the dominant species forming the upper water pipe, oyster tree is a companion species to form the upper water pipe, ginger wood is the middle water pipe It is a dominant species that forms, and Dangdan leaves and manju tree are companion species that form a mesocarp.

Waterfront greenery is currently in its infancy, and its purpose and pursuit of green space is ambiguous, and plant species selection and planting standards are unclear.In the present invention, the typical ecological forest structure in the Han River basin is modeled, and the ecology required for waterfront greenery is modeled. By providing a planting model, it is possible to achieve the natural functions of waterfront greenery including water conservation, biological habitat, and landscape nature.

Selection of target species in the present invention was completed by reflecting the dominant species and species composition of the typical plant community in the Han River basin climate zone, the first to third forms of the present invention is suitable for the temperate middle east coast climate zone, the fourth form The 15th to 15th forms are suitable for the temperate zones, and the 16th to 17th forms are suitable for the temperate zones.

In addition, the present invention establishes a quantitative planting standard, such as planting density, planting distance, layer structure, etc. of the target species for each model type, and provides a multi-layered planting method to reflect this.

In addition, in the present invention, by mixing the non-target species of vegetation (temporary species until the target species matures), it is possible to promote early planting effects and the growth environment of the target species, which is reflected by the growth of the target species. It can also be used to supply renewable energy such as wood chip mulching materials or wood pellets through staged thinning.

As a result, the method of constructing the waterfront greenery according to the present invention reflects the ecological transition of the natural forests according to the climate zone of the Han River basin, thereby securing the natural function of the waterside greenery and minimizing the management cost by natural management after planting.

1 is a map showing the location of the natural forest investigation site and the watershed zone and climatic zone classification state.
Figure 2 shows the average chest height distribution of the upper trees in the natural forests in Korea.
Figure 3 shows the thorax diameter growth and the change in the age of natural natural trees in Korea. Source: Cho Hyun-gil and Ahn Tae-won (2000)
Figure 4 shows a comparison of the plant design model according to the target year of the short-term, medium-term and long-term of the waterfront green space composition model.
5 (a is short-term, b is mid-term, and c is long-term) is a pine-sol oak tree planting design model in the temperate middle (east coast) waterfront of the Han River basin.
6 (a is short-term, b is mid-term, and c is long-term) is a pine-pyrus tree planting design model in the temperate middle (east coast) waterfront of the Han River basin.
7 (a is short-term, b is mid-term, and c is long-term) is a pine oak-oyster colony design model in the temperate middle (east coast) of the Han River basin.
8 (a is short-term, b is mid-term, and c is long-term) is a pine tree planting design model in the temperate middle waters of the Han River basin.
9 (a is short-term, b is mid-term, and c is long-term) is a pine-zelkova planting design model in the temperate middle waters of the Han River basin.
10 (a is short-term, b is mid-term, and c is long-term) is a plant design model of gingiber-ash tree community in the temperate middle waters of the Han River basin.
Fig. 11 (a is short-term, b is medium-term, and c is long-term) is a model of the design of prunus oak-elm communities in the temperate middle waters of the Han River basin.
12 (a is short-term type, b is medium-term type, c is long-term type) is a ash-water birch community design model of temperate middle waters of the Han River basin.
FIG. 13 (a is short-term, b is mid-term, and c is long-term) is a tree-planting design model of a cypress-willow community in the temperate middle waters of the Han River basin.
Fig. 14 (a is short-term, b is medium-term, and c is long-term) is a model for designing phlegm communities in the temperate middle waters of the Han River basin.
Fig. 15 (a is short-term, b is mid-term, and c is long-term) is a pine-western tree planting design model in the temperate zone of the Han River basin.
Fig. 16 (a is short-term, b is mid-term, and c is long-term) is a pine-sol oak tree planting design model in the temperate zone of the Han River basin.
Fig. 17 (a is short-term, b is mid-term, and c is long-term) is a gingival tree-pine community plant design model in the temperate zone of the Han River basin.
Fig. 18 (a is short-term, b is mid-term, and c is long-term) is an oak-pine community plant design model in the temperate zone of the Han River basin.
19 (a is short-term, b is mid-term, and c is long-term) is a pine oak-single tree planting design model of the temperate zone in the Han River basin.
20 (a is short-term, b is mid-term, and c is long-term) is a oyster tree planting design model in the temperate middle south of the Han River basin.
Fig. 21 (a is short-term, b is mid-term, and c is long-term) is a pine tree planting design model in the mid-southern highlands of the Han River basin.

The method of constructing the waterfront greenery according to the present invention devises an ecological planting technique for restoring and constructing waterfront greenery, focusing on securing the natural functions of waterside greenery such as water conservation, bio-preservation, and carbon absorption as well as creating a unique water change pipe in Korea. .

Hereinafter, the present invention will be described in more detail with reference to the following examples. However, the scope of the present invention is not limited to the following embodiments, and includes modifications of equivalent technical ideas.

Example : ≪ / RTI & Waterside greenery  Derivation method

One. Waterside greenery  Type Model

In order to categorize the waterfront greening model that reflects the climate zone and the waterfront environmental gradient of the Han River basin, vegetation distribution according to the natural forest investigation site and climate zone (Korea Meteorological Agency, Meteorological Institute, 2004) and climate map (http: // www. kma.go.kr) were overlapped to separate regions. As a result, the Han River basin was classified into three climate zones: the east coast of the temperate zone, the central temperate zone, and the southern temperate zone. In addition, the areas with slightly wet or red moisture content were classified as 'floodplain' and the areas with red and brown moisture content were classified as 'upland' to reflect the environmental gradient of soil moisture conditions.

Based on the analysis of the relative dominance value of the species, we classify the natural forest community types according to the dominant species composition and derive the riparian greenery composition model with reference to the Braun-Blanquet dominance class. Dominant species were settled as species with higher relative tree value of 25% or higher, predominant species as species with 10% or higher relative relative value, and companion species as species with average relative Relative value of 1% or higher.

There are 17 types of cluster types derived from the Han River basin according to climate and environmental gradients. According to the environmental gradient, there are 10 types of watersides and 7 types of highland. In the species composition of dominant species and dominant species, there were a large number of cluster types including well-growing species in slightly wet soil conditions.

Table 1 shows the types of natural forest communities and their species composition in the Han River basin.

[Table 1] Classification of Natural Forest Types and Species Composition in Han River Basin

2. Waterside greenery  Planting Standards of the Creation Model

Based on the results of the quantitative analysis of the green structure of natural forests, we established planting criteria including selection of target species, species number, species composition, planting density, and planting distance by riparian green land composition model (Table 2 ~ 5). . Table 2 shows 17 types of waterfront greening model according to climate zone and environmental gradient of the Han River basin, and Table 3 shows species composition and tier target species of dominant, dominant and companion species, respectively. The upper target species were selected based on dominant species, dominant species, and companion species, and the upper target species were dominant and companion species, and the middle species were selected based on dominant species and companion species. . Table 4 shows the species species and species composition criteria of the target species according to the riparian green space composition model, and Table 5 shows the planting density and planting distance by layer of target species.

[Table 2] Types of Waterfront Greenery Composition by Climate Area and Environmental Gradient in Han River

[Table 3] Target Species Selection Criteria by Types of Waterfront Greenery Composition Models (Right: Dominant, Three: Dominant, Dong: Companion)

[Table 4] Species and Species Composition of Target Species by Type of Waterfront Greenery Composition Model

[Table 5] Planting Density and Planting Distance Standards for Target Species by Types of Waterfront Greenery Composition Model ( ^* Unit: Week / 100㎡)

3. Waterside greenery  Planting design of the composition model

  1) Application and design process of planting standards

The waterfront green space composition model selects the type suitable for the growing environment according to the climatic area of the area where the target site is located.In the area where the soil moisture condition is slightly wet to red yun, the composition model of the waterfront environmental gradient is selected, and the soil moisture condition is red yun ~ In the slightly dry areas, the composition model of highland environmental gradient is applied. The planting design process applying the planting criteria of the waterfront green space composition model is as follows.

① Selection of composition model reflecting growth environment (Table 2)

② Selection of target species according to species by level (Table 3)

③ Planting densities by species reflecting species composition (Table 4) and planting density (Table 5) of dominant species, dominant species and companion species

④ Determination of standard of planting tree according to target year (Table 6)

⑤ Planting the target species reflecting the planting distance (Table 5)

(6) Dissemination of attribute water, which is a temporary species until the target species matures (Table 7)

  2) Set target year and tree standard

The size of the planting tree determines the target year, that is, the period required to achieve the structure and compositional effect close to the natural forest after the riparian greenery, and is also related to the initial creation cost. Planting of large trees has a relatively high initial cost of planting, but within a short period of time after planting, the plant will form a structure close to natural forests and will achieve the desired compositional effect. Planting of small trees can produce waterfront greenery at relatively low cost, but it may take a long time for planting trees to grow to a size similar to that of natural forests, and the initial planting effect may be insignificant.

Tree growth may vary depending on the plant environment, such as the species, climate zone, and soil. Therefore, it is difficult to strictly determine the target year for planting green water and planting tree standards. It is predictable to some extent through the application of growth rates. The average chest height of the upper natural forests in Korea ranged from 15 to 52 cm (average 29), depending on the site, and about 50% of the total area was 20-30 cm. Estimating the age from the height of chest height (Cho Hyun-gil and Ahn Tae-won, 2000), the age of hardwoods was 15 years for chest height 22 years, 20 cm 30 years, and 30 cm 47 years (Fig. 3). In the case of conifers, the chest diameter was 15cm for 25 years, 20cm for 32 years, and 30cm for 49 years. On the other hand, the average diameter of arboreal arbor of the existing waterside green land construction site was 5.5cm, and the current average age can be estimated to be about 10 years (leaved leaves). The estimated chest diameter is 13cm after 10 years and 20cm after 20 years, respectively.

In consideration of the average height and age of natural forests, and the height of existing planting trees, the target year for the creation of waterside greenery is short-term and medium-term according to the size of planting trees. Three types were set, type and organ type. That is, it is divided into short-term type of 10 year target for early achievement, medium-term type of 20 year target reflecting current construction cases, and long-term type of 30 year target for small trees. Table 6 below.

[Table 6] Planting tree size (B: chest diameter (cm), R: root diameter (cm), H: effort (m))

  3) Fast water planting

Along with the target species planting, the considerations for the planting of waterside greenery are the planting of the species. An accelerated species is a temporary species until the target species matures. It is composed of species that promote the growth environment of the target species and grow rapidly. These species are willows, poplars and willows (Ascissus, Cicada, Pyrus, Microflora, Italian Poplar, Royal Willow, Willow, etc.), and birch alders.

Planting density of fast-growing water was set by simulating the change in crown growth according to the number of years after tree planting. In other words, we applied the planting standards and density of target species to each type of composition model to identify the change in the degree of growth according to their annual growth. And, considering the target year, the upper water pipes by the number of years were simulated while adjusting the density of hot water. The annual crown growth of the target species was derived by regression analysis, which estimates the change in the crown width according to annual diameter growth, using a sample of about 2,000 individuals surveyed from natural forests. In case of fast water, it is assumed that it is 1.5 times faster than target tree.

The upper canopy of the target species differs depending on the target year and the type of composition model, but in the case of medium-term type, on average, 22% at the time of creation, 36% after 5 years, 52% after 10 years, and 20 years Ninety percent over the years. In order to promote the growth environment while securing the growth space of the target species, the high density water density was set by simulating the empty space between the target species after 5 years. The density and timing of future thinnings were examined by adjusting the density of hot water according to the number of years. The planting density of the attribute water set through the above process is shown in Table 7.

[Table 7] Accelerated Water Planting Density by Types of Waterfront Greenery Composition Model (Plant Density Unit: Week / 100㎡, Short: Short-term, Medium: Medium-term, Long: Long-term)

The ratio of fasting water among total planting species, including target species, varies slightly depending on the composition model, but the average is short-term 18%, mid-term 59%, and long-term 71%. The temporary tree, which is a temporary species, is gradually thinned to secure a space for grove growth of the target species, and the thinning tree is used as a renewable energy resource such as wood chip mulching or wood pellets. The thinning of the fast-growing water should be carried out so as to secure a space for future growth of the crown at the time when the crown is in contact with the growth of the planting tree. According to the simulation results, the short-term thinning period and intensity are 50% on average after 5 years, and the rest of the whole season is thinned by the target year of 10 years. In the case of the medium-term type, 50% after 5 years, 50% of the rest after 10 years (75% total thinning), and the whole after 15 years. The long-term type is also thinned 50% after 5 years, and then gradually performed 50% of the rest every 5 years.

Regarding the planting ratio of target species and fast-growing species, Koo-Gyun (1986) estimated 15% (30%) of the dominant species and dominant species of the upper middle class target species, 65% of the accelerated species, and 5 protected tree species in the ecological group design. It is suggested to construct%. Another example consists of 20% arbor dominant species, 10% other arbor species and 5% lower shrub species in the oak biotope scheme, with the remaining 65% planted as a property and protected species. It has been suggested to do (Tregay, 1979). The planting ratio between the upper middle class target species and the other species in these studies was about 3: 7, which is similar to the ratio of the attribute tree of the medium- and long-term model set in the present invention.

  4) Plant design model by target year

By applying the planting criteria of the waterfront greening model, we prepared and presented a plant design model for each target year in the short, medium and long term. Figure 4 is an example in terms of comparing the change in the crown of the target species according to the target year of the plant design model. In other words, changes in crown growth after about 10 years of long-term model can be expected from the medium-term model. In the short-term case, the expected growth of the target species is expected after 10 years of medium-term and 20 years of long-term.

Meanwhile, FIGS. 5 to 21 show planting design drawings for each target year of the short-term, medium-term, and long-term type by applying the planting criteria shown in Tables 2 to 7 for the types of waterfront green space composition models shown in Table 1. FIG.

Among these, the planting design process of the gingival tree ash tree model of the temperate middle waterfront will be described in detail with reference to FIG. However, the other 16 model types may be interpreted and understood by FIGS. 5 to 21, respectively, based on the following description.

Five species of upper target species are reddish wood (dominant species), ash tree (dominant species), wild buckthorn (dominant species), elm (dominant species), willow trees (combined species), and the middle target species are three species ), The elm tree (companies), and the cherry tree (companies) are selected respectively.

Planting density of the target species is Total sugar ² 100m 17 weeks (upper 8 weeks, intermediate 9 weeks), and applying a longitudinal ratio of the middle target species dominant (24%) of 4 weeks, the right three kinds (18%) of 3 Weeks and accompanying species (58%) were 10 weeks.

Considering the planting density of each layer, four dominant species were 2 weeks (top) and 2 ash trees (upper), three dominant species were 2 weeks (upper), and 1 week (upper) elm. Ten species of species consist of one willow tree (upper layer), three new tree trunks (middle layer), three tree trunks (middle layer), and three cherry tree blossoms (middle layer).

The selected trees were planted according to the target year according to the target year, and then the first dominant species of reddish brown and ash trees were planted according to the planting distance. The trees are arranged in the order of the middle target species, such as a new tree, an elm tree, and a cherry tree. In addition, the planting of temporary trees (empty short-term 0, medium-term 19-week, long-term 35-week) is planted in the empty spaces between the target trees to improve the growth environment of the target species and achieve early planting effects. Lower shrubs are thinned and planted or seedlings are planted after 5 to 10 years of planting. The fast-growing water secures the growth space of the target species through the gradual thinning that reflects the growth of the planting tree, and the thinning wood is used for supplying renewable energy such as wood chip mulching and wood pellets.

Claims (34)

It is to build waterside greenery in the Jeiji Planting Zone, located on the banks of the Han River basin, and to plant pine trees, pine oak trees, ash trees, Japanese camellia trees, gingko trees, roe trees, waxy trees, and mulberry trees. Waterfront Greenery Construction Method
The method of claim 1,
The waterfront greenery construction method,
Planting area 100m ² per pine two weeks, Quercus two weeks, the ash tree 2 weeks, p Camellia three weeks, Oak Wood 3 weeks and hornbeam trees two weeks, police linden wherein planted two weeks and mountain mulberry 2 weeks Waterfront Greenery Construction Method
Waterfront greenery is built in the planting area of Jenaeji, located on the waterfront of the Han River basin, and the waterside is characterized by planting pine, cypress, red bean, ginger, pufferwood, Japanese camellia and ash trees in the planting area. Greenery construction method
The method of claim 3,
The waterfront greenery construction method,
Construction of waterfront greenery characterized by planting 100 m ^{2 of} planting area, 2 weeks pine, 1 cypress, 1 bean, 1 ginger, 1 week Bokjagi, 2 camellia, and 2 weeks ash Way
Constructing waterside greenery in the Jeiji Planting Zone, located on the banks of the Han River basin, characterized by planting the pine tree, oyster oak, wild cherry tree, ash tree, Japanese camellia tree, red bean pear tree, and ash tree in the planting area. Waterfront Greenery Construction Method
The method of claim 5,
The waterfront greenery construction method,
Planting area 100m ² per oak four weeks, oak 3 weeks, wild cherry one week, ash 4 weeks, p Camellia three weeks, Sorbus tree 4 weeks and opening waterside greenery which comprises planting a tree 4 weeks How to build
Waterfront greenery is built in the planting area of Jenaeji located on the waterfront of the Han River basin, and the waterfront is characterized by planting pine, prunus oak, ash, cypress, cypress, brown oak, and deadwood in the planting area. Greenery construction method
The method of claim 7, wherein
The waterfront greenery construction method,
Construction of waterfront greenery characterized by planting 100 m ^{2 of} planting area, 3 weeks of pine, 2 weeks of oak tree, 1 week of ash tree, 2 weeks of camellia, 2 weeks of eobar, 2 weeks of oak and 2 weeks of bamboo Way
Waterfront greenery construction method comprising constructing waterside greenery in the Jenaeji planting zone, located on the waterfront of the Han River basin, and planting pine, zelkova, west tree, stagwood and horsewood trees in the planting zone.
10. The method of claim 9,
The waterfront greenery construction method,
Waterfront greenery construction method characterized by planting 100m ² per planting area, 2 weeks pine, 2 weeks zelkova, 1 week west, 2 weeks old bamboo, 1 week old horsewood tree
It is to build waterside greenery in the Jeiji Planting Zone, located on the banks of the Han River basin, and planting Sallow, Ash, Willow, Elm, Willow, Sinus, Elm, and Sakura in the Planting Zone. Waterfront greenery construction method
The method of claim 11,
The waterfront greenery construction method,
100m ² planting area, 2 weeks of ash tree, 2 weeks of ash tree, 2 weeks of wild buckthorn tree, 1 week of elm tree, 1 week of willow tree, 3 weeks of young tree, 3 weeks of elm tree and 3 weeks of cherry tree Waterfront greenery construction method
Waterfront greenery construction method by constructing waterside greenery in the planting area of Jenaeji located on the waterfront of the Han River basin, and planting pruning oak, elm, west tree, oyster oak, dandelion, and camellia in the planting area
The method of claim 13,
The waterfront greenery construction method,
Planting area 100m ² per two weeks oak, elm 2 weeks, 2 weeks to build hornbeam trees, oak week, dangdanpung waterfront green space characterized by planting two weeks and end two weeks Camellia way
Waterfront greenery is built in the planting area of Jenaeji, located on the waterfront of the Han River basin, and the planting area is characterized by planting ash, water birch, camellia, elm, and camellia, dandelion and pear trees. Waterfront Greenery Construction Method
16. The method of claim 15,
The waterfront greenery construction method,
Waterside greenery characterized by planting 100m ² per plant, 2 weeks of ash tree, 2 weeks of birch, 2 weeks of camellia, 2 weeks of elm, 3 weeks of camellia, 4 weeks of dandelion and 3 weeks of pear tree How to build
Waterfront greenery construction method by constructing waterside greenery in the planting zone of Jenaeji located on the waterfront of the Han River basin, planting cypresses, willows, dogwood, noctilucent trees, wild mulberry trees and cypress trees in the planting zone.
18. The method of claim 17,
The waterfront greenery construction method,
Planting area 100m ² per Acer Ginnala three weeks, three weeks willow, dogwood building one week, two weeks luminous trees, mountain mulberry waterfront green space characterized by planting a tree for two weeks and one week Copying Method
Waterfront greenery is built in the planting area of Jenaeji located on the waterfront of the Han River basin, and the waterfront is characterized by planting phlegm, ash, wild mulberry, cypress, elm, sage, and persimmon tree in the planting area. Greenery Construction Method
20. The method of claim 19,
The waterfront greenery construction method,
Construction of waterfront greenery characterized by planting 100m ^{2 of} planting area, 2 weeks of sputum tree, 1 week of ash tree, 3 weeks of mulberry tree, 2 weeks of old cypress tree, 2 weeks of elm tree, 2 weeks of gingko tree, and 2 weeks of cherry tree. Way
Waterfront greenery construction method by constructing waterside greenery in the planting zone of Jenaeji located on the waterfront of the Han River basin, and planting pine trees, seo trees, brown oak trees, dandan leaves and persimmon flower trees in the planting zone.
The method of claim 21,
The waterfront greenery construction method,
100m ² per built area planted pine three weeks and hornbeam trees three weeks, one week to go oak, dangdanpung waterfront green space characterized by planting two weeks and one week Magnolia sieboldii way
A waterfront greenery construction method comprising constructing waterside greenery in a planting zone located in the waterfront of the Han River basin, and planting pine, pruning oak, gingko, ash, sesame and cypress trees in the planting zone.
24. The method of claim 23,
The waterfront greenery construction method,
Waterfront greenery construction method characterized by planting per 100m ^{2 of} planting area, 5 weeks pine, 4 weeks oak tree, 2 weeks old tree, 2 weeks ash tree, 2 weeks west tree, 2 weeks old cypress tree.
Waterside greenery is built by planting waterside greenery in the waterfront of the Hangang River basin, planting gingko, pine, ash, water birch, camellia, dandelion, and deadwood in the planting area. How to build
26. The method of claim 25,
The waterfront greenery construction method,
Waterfront greenery construction method characterized by planting per 100m ² planting area, 3 weeks old tree, 3 weeks pine tree, 2 weeks ash tree, 1 week old birch tree, 3 weeks old camellia tree, 3 weeks green algae
Waterside greenery is built in the planting area of Jenaeji located on the waterfront of the Han River basin, and waterside greenery is characterized by planting oyster oak, pine, brown oak, prunus oak, Japanese camellia, dandelion and elm in the planting area. How to build
28. The method of claim 27,
The waterfront greenery construction method,
Built waterfront greenery method comprising planting the planting area 100m ² per Quercus three weeks, pine two weeks, go oak 2 weeks, oak 2 weeks, p Camellia 4 weeks dangdanpung three weeks, Elm 3 weeks
A waterfront greenery construction method comprising constructing waterside greenery in a planting zone located in the waterfront of the Han River basin, and planting oak trees, gingko trees, barks, ash trees, alpine leaves and deadwood trees in the planting zone.
30. The method of claim 29,
The waterfront greenery construction method,
Planting area 100m ² per Quercus two weeks, Oak Wood 2 weeks, 2 weeks linden, ash two weeks, dangdanpung built waterfront greenery method comprising planting a tree for two weeks and one week ttaejuk
Waterfront greenery construction method for constructing waterfront greenery in the planting area of Jenaeji located on the waterfront of the Han River basin, planting oyster trees, albizia julibrissin, redwoods, deadwood, cypress, and oak trees in the planting zone.
32. The method of claim 31,
The waterfront greenery construction method,
Waterfront greenery construction method characterized by planting per 100m ² planting area, 4 weeks oyster tree, 1 week tree, 1 week red tree, 1 week old tree, 4 weeks old bamboo tree, 3 weeks old cypress tree and 2 weeks old oak tree
Waterfront greenery construction method by constructing waterside greenery in the planting zone of Jenaeji located on the waterfront of the Han River basin, and planting pine, bamboo, oyster tree, ginger tree, dandan wind and manju tree in the planting zone
34. The method of claim 33,
The waterfront greenery construction method,
Waterfront greenery construction method characterized by planting 100m ² per plant, 3 weeks pine, 2 weeks bamboo, 2 weeks oyster tree, 3 weeks ginger tree, 2 weeks sugar maple and 1 week manju tree

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