• Title/Summary/Keyword: 태백산맥 남부산지

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Geoecological Situation and Promotion of Mountain Settlements in Korea (I) (한국 산지촌의 실태와 진흥방안에 관한 연구 (I) -강원 남부지역의 산지촌을 사례로 한 경관생태학적 접근-)

  • 김일기;이민부;박승규;전종한
    • Journal of the Korean Geographical Society
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    • v.34 no.1
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    • pp.27-46
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    • 1999
  • 이 글은 상대적으로 연구 성과가 미비하고 그 접근방식도 다양하지 못했던 기존의 산지촌 연구를 회고하면서, 경관생태학적 관점을 활용하여 산지촌의 분포지역을 세분하고 이 틀 속에서 산지촌에 접근하자고 하였다. 특히 산지촌들이 생태지역에 따라 그 존립방식에 있어서 내적 차별성을 보인다는 점을 주목하였다. 연구지역은 산지촌이 전형적으로 분포하고 있는 강원 남부지역의 태백산맥 일대로서 지형경관, 사면경사도, 해발고도 등에 의거하여 세 개의 생태지역으로 세분될 수 있었다. 고위평탄면지역 산지촌, 고위산간지역 산지촌, 그리고 급사면산간지역 산지촌이 그것이다. 이러한 생태지역의 개념에 기초하여 먼저 산지촌의 형성과정을 역사적으로 추적해본 후, 자연경관, 촌락의 분포 패턴, 생활방식 등을 생태지역별로 비교하면서 구체적으로 서술하였다. 이 과정에서 도출된 세 곳의 생태지역, 생태지역별 자연경관 및 생활양식의 차별성, 산지촌 생활의 현실태, 촌락존립상의 문제점 등은 산지촌의 진흥방안을 모색하는 데 매우 중요한 관점과 방향을 제시해 줄 것으로 본다. 따라서 본고에서 사용한 경관생태학적 방법론은 연구지역 이외의 지역에서도 적용될 필요가 있으며, 이러한 연구가 전국의 산지촌으로 확대될 때 현실에 바탕을 둔 산지촌의 진흥방안이 마련될 수 있을 것으로 본다.

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The Study on the Debris Slope Landform in the Southern Taebaek Mountains (태백산맥 남부산지의 암설사면지형)

  • Jeon, Young-Gweon
    • Journal of the Korean Geographical Society
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    • v.28 no.2
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    • pp.77-98
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    • 1993
  • The intent of this study is to analyze the characteristics of distribution, patter, and deposits of the exposed debris slope landform by aerial photography interpretation, measure-ment on the topographical maps and field surveys in the southern part Taebaek mountains. It also aims to research the arrangement types of mountain slope and the landform development of debris slopes in this area. In conclusion, main observations can be summed up as follows. 1. The distribution characteristics 1)From the viewpoint of bedrocks, the distribution density of talus is high in case of the bedrock with high density of joints, sheeting structures and hard rocks, but that of the block stream is high in case of intrusive rocks with the talus line. 2)From the viewpoint of bedrocks, the distribution density of talus is high in case of the bedrock with high density of joints, sheeting structures and hard rocks, but that of the block stream is high in case of inrtusive rocks with the talus line. 2) From the viewpoint of distribution altitude, talus is mainly distributed in the 301~500 meters part above the sea level, while the block stream is distributed in the 101~300 meters part. 3) From the viewpoint of slope oriention, the distribution density of talus on the slope facing the south(S, SE, SW) is a little higher than that of talus on the slope facing the north(N, NE, NW). 2. The Pattern Characteristics 1) The tongue-shaped type among the four types is the most in number. 2) The average length of talus slope is 99 meters, especially that of talus composed of hornfels or granodiorite is longer. Foth the former is easy to make free face; the latter is easdy to produce round stones. The average length of block stream slope is 145 meters, the longest of all is one km(granodiorite). 3) The gradient of talus slope is 20~45${^\circ}$, most of them 26-30${^\croc}$; but talus composed of intrusive rocks is gentle. 4) The slope pattern of talus shows concave slope, which means readjustment of constituent debris. Some of the block stream slope patterns show concave slope at the upper slope and the lower slope, but convex slope at the middle slope; others have uneven slope. 3. The deposit characteristics 1) The average length of constituent debris is 48~172 centimeters in diameter, the sorting of debris is not bad without matrix. That of block stream is longer than that of talus; this difference of debris average diameter is funda-mentally caused by joint space of bedrocks. 2) The shape of constituent debris in talus is mainly angular, but that of the debris composed of intrusive rocks is sub-angular. The shape of constituent debris in block stream is mainly sub-roundl. 3) IN case dof talus, debris diameter is generally increasing with downward slope, but some of them are disordered and the debris diameter of the sides are larger than that of the middle part on a landform surface. In block stream, debris diameter variation is perpendicularly disordered, and the debris diameter of the middle part is generally larger than that of the sides on a landform surface. 4)The long axis orientation of debris is a not bad at the lower part of the slope in talus (only 2 of 6 talus). In block stream(2 of 3), one is good in sorting; another is not bad. The researcher thinks that the latter was caused by the collapse of constituent debris. 5) Most debris were weathered and some are secondly weathered in situ, but talus composed of fresh debris is developing. 4. The landform development of debris slopes and the arrangement types of the mountain slope 1) The formation and development period of talus is divided into two periods. The first period is formation period of talus9the last glacial period), the second period is adjustment period(postglacial age). And that of block stream is divided into three periods: the first period is production period of blocks(tertiary, interglacial period), the second formation period of block stream(the last glacial period), and the third adjustment period of block stream(postglacialage). 2) The arrangement types of mountain slope are divided into six types in this research area, which are as follows. Type I; high level convex slope-free face-talus-block stream-alluvial surface Type II: high level convex slope-free face-talus-alluvial surface Type III: free face-talus-block stream-all-uvial surface Type IV: free face-talus-alluval surface Type V: talus-alluval surface Type VI: block stream-alluvial surface Particularly, type IV id\s basic type of all; others are modified ones.

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