• Proceedings of the Korean Geotechical Society Conference
• /
• 2004.03a
• /
• pp.125-133
• /
• 2004

강원도는 한반도의 중동부에 위치한 산악 지형으로 구성되어 있다. 해발고도 100m이하의 저지대는 강원도 총면적의 5.6%에 불과하고 100-500m까지의 저산지대가 43.1%, 500-1000m까지의 중산지대가 43.6%, 1000m이상의 고산지대가 7.7%로서 전반적으로 매우 험준한 산세를 이룬다. 동해안을 따라서 NNW-SSW방향으로 발달된 태백산맥과 그의 서쪽에서 서남쪽으로 발달된 차령산맥과 소백산맥은 중국방향(NE-SW)의 지질구조선을 형성하고 있다.(중략)

• Proceedings of the Korean Geotechical Society Conference
• /
• 2004.03a
• /
• pp.176-187
• /
• 2004

서울ㆍ경기지역은 한반도의 서부중앙지역으로 동경 126$^{\circ}$와 127$^{\circ}$, 북위 36$^{\circ}$와 38$^{\circ}$ 사이에 위치해 있으며, 면적은 서울 605$\textrm{km}^2$, 경기도 10,184$\textrm{km}^2$를 차지한다. 북쪽으로는 휴전선, 서쪽으로는 서해, 동쪽으로는 강원도, 남쪽으로는 충청도와 접하고 있으며 한강에 의해 남북지역으로 나뉘어져 한 수 이북은 산간지역이 한 수 이남지역에는 평야지대가 발달하고 있다. 지형은 대체로 추가령 구조곡을 경계로 북부산지와 남부산지로 나누어지는데, 북부는 중국 요동방향의 마식령산맥, 남부는 중국방향의 광주산맥과 차령산맥이 각각 그 골간을 이루고 있으며, 서쪽해안에 가까워질수록 고도가 낮아져 평야나 구릉성 산지로 바뀐다.(중략)

• Proceedings of the Korean Geotechical Society Conference
• /
• 2004.03a
• /
• pp.211-223
• /
• 2004

충청북도는 한반도의 중앙부에 위치하고 있으며, 위도상으로는 중위도에 속하고, 우리나라에서 바다에 접하지 않은 유일한 내륙도이다. 따라서 바다와 가장 가까운 지점인 진천군 백곡면 서단에 있는 서운산에서 바다에 접해 있는 충청남도 아산만의 방파제까지의 거리가 무려 47km나 된다. 이와 같이 바다에서 멀리 떨어져 있는 충청북도는 북동쪽에 태백산맥, 동쪽에 소백산맥, 북서쪽에 차령산맥으로 차단된 거대한 분지지형을 형성하고 있어, 여름은 고온다습하고 겨울은 한랭 건조한 온대몬순기후로서 대륙성 기후의 특징을 보인다.(중략)

• Journal of the Korean Geographical Society
• /
• v.43 no.3
• /
• pp.276-295
• /
• 2008

Recent disputes on mountain ranges in Korea have partially been derived from the discordance of the spatial distribution and the extent of mountain ranges presented by different researchers and school textbooks. The lack of consensus on the definition and genesis of mountain ranges adds further confusion. In order to overcome these problems, it is necessary to provide genetically classified mountain range maps for different usages, map scales and educational purposes. This paper first argues that mountain ranges and mountain ridges should separately be used as different conceptual frameworks to explain complex spatial distribution of mountains in Korea. The new mountain range map (sanmaekdo) proposed in this research puts strong emphasis on tectonic movement and denudational processes to explain the spatial distribution of mountains. The new mountain range map has 15 mountain ranges (sanmaek: in total, which are further divided into 7 primary and 8 secondary mountain ranges. The new mountain range map eliminates Jeogyuryeongsanmaek, Myohyangsanmaek, Myeoraksanmaek, and Masingnyeongsanmaek from the existing map, since these have a vague definition and obscure spatial distribution. On the contrary, few new primary mountain ranges (Gilju-Myeongcheonsanmaek, Yangsansanmaek, Jirisanmaek) and secondary mountain ranges (Wolchulsanmaek and Buksubaeksanmaek) are added to the new mountain range map. Other mountain ranges also show a large difference both in their spatial distribution and the extent of mountain ranges, compared with the previous map. This is especially the case for Nangnimsanmaek, Hamgyeongsanmaek, Taebaeksanmaek, and Sobaeksanmaek. A few new names are also assigned to Macheollyeongsanmaek (Baekdusanmaek), Gwangjusanmaek (Hwaaksanmaek), Charyeongsanmaek (Chiaksanmaek), and Horyeongsanmaek (Naejangsanmaek), even though they show similar spatial distribution patterns with the ones in the existing map.

• Journal of the Korean earth science society
• /
• v.37 no.1
• /
• pp.21-28
• /
• 2016

Mountains have significant influences on the atmospheric environment. The Korean Peninsula consists of approximately 70% mountainous area with numerous mountain ranges and peaks. The initial classification of mountains in Korea was made by a Japanese scientist from 1900 to 1902. In fact, the Japanese study created too many names of mountains to maintain, which led to confusions. The purpose of this study aims to simplify the previous names and classification of mountains in the Korean Peninsula so that they can be utilized for educational and general purpose of the society and educational institutions. Through this study, we name various mountains as one name "Korea Mountains" which is classified as the secondary world-mountain class stretching from the Korean Peninsula to northeast China (southern Manchuria). The Korea Mountains connect the third class regional medium-scale mountains of Jirin, Hamkyoung, Taebaek, and the fourth mountain class, 8 small-scale ranges including the Liaoning, Yaenbaen, Hambeuk, Pyoungbeuk, Whanghae, Charyoung, Kyoungsang and Namhae Mountains. The major mountains in the Korean Peninsula are normally influenced by the general circulation of the atmosphere of the world. The atmospheric conditions are modified on the up-stream and down-stream sides; there is a need for continuous monitoring of the atmospheric environment which impacts the ecosystem and human society.

• KOREAN POULTRY JOURNAL
• /
• v.43 no.8
• /
• pp.126-129
• /
• 2011

친환경 축산물에 대한 소비자들의 관심과 요구가 증가하면서 여러 축산농가들도 항생제를 사용하지 않으면서도 건강하고 위생적인 축산물을 생산하기 위해 많은 관심과 노력을 기울이고 있다. 충남 천안의 산 좋고 물 좋은 차령산맥의 끝자락에 위치한 텃골영농조합법인은 오래 전부터 무항생제 사육을 실천해 왔으며 HACCP 및 친환경 농산물 인증을 획득한 농장이다. 텃골농장은 소비자가 안심하고 먹을 수 있는 먹거리를 제공하여 사랑받는 기업이 되는것을 경영목표로 친환경축산을 선도하고 있다. 우주희 사장은 아버지 우제복 대표(현 KRC 회장)의 농장 경영을 도와 양계산업에 뛰어들어 벌써 10여년째 농장을 경영하고 있는 젊은 양계인 2세이다. 우주희 사장을 만나 텃골 농장의 성공 경영 노하우와 앞으로의 포부를 들어보았다.

• Proceedings of the Korean Geotechical Society Conference
• /
• 2004.03a
• /
• pp.158-164
• /
• 2004

충청남도는 한반도의 중부지방 남서부에 위치하고 있으며 면적은 8,597.9$\textrm{km}^2$이다. 북쪽으로 경기도, 동쪽으로 대전광역시ㆍ충청북도, 남쪽으로 전라북도와 접하고, 서쪽은 황해에 면하고 있으며, 태안반도가 있다. 서해안은 해안선이 매우 불규칙하게 발달하여 아산만, 가로림만, 서산만, 천수만 같은 만들이 발달되어 있다. 차령산맥을 중심으로 동고서저형이며, 평균고도가 100m내외로 전국에서 가장 저평한 지역이다. 대전광역시는 면적 539.84$\textrm{km}^2$로 동쪽으로 충청북도 보은군ㆍ옥천군, 북쪽으로 충청북도 청원군, 충청남도 연기군, 남쪽으로 충청남도 금산군, 서쪽으로 충청남도 논산군ㆍ공주시에 접한다.(중략)

• Journal of the Korean Geographical Society
• /
• v.40 no.1 s.106
• /
• pp.126-152
• /
• 2005

In recent years, there are some confusions related to the definition and existence of mountain ranges, which have been described in current geography text books. We contend that these confusions came from the lack of understanding on the geomorphological processes that form the mountain system in Korea. This research attempts to clarify the definition of mountain ranges and offer geological and geomorphological explanations about the formation of them. Based on the analyses of the social and cultural causes underlying the recent debates on the existence of mountain ranges, we tried to identify the relationships among the definition of mountain ranges, geological structure of Korea, and the forming processes of mountain ranges. The current and past mountain range maps were compared with geological structures, geological maps, surface curvature, and hill shade maps. The latter two maps were derived from a Digital Elevation Model of the Korean Peninsular. The results show that we are able to prove the existence of most mountain ranges, which provides a useful framework to understand the geological evolution of Korean peninsular and formation of mountainous landscape of Korea. In terms of their morphological continuity and genesis, however, we identified five different categories of mountain ranges: 1) Uplift mountain ranges(Hamkyeong Sanmaek, Nangrim Sanmaek, Taebaek Sanmaek), which were formed by the uplift processes of the Korean Peninsular during the Tertiary; 2) Falut mountain ranges(Macheonryeong Sanmaek, Sobaek Sanmaek, Buksubaek Sanmaek), whirh were directly related to the uplift processes of the Korean Peninsular during the Tertiary; 3) Trust mountain ranges(Jekyouryeong Sanmaek, Kwangju Sanmaek, Charyeong Sanmaek, Noryeong Sanmaek), which were formed by the intrusion of granite and consequent orogenic processes during the Mesozoic era; 4) Drainage divide type mountain ranges, which were formed by the erosion processes after the uplift of Korean Peninsular; 5) Cross-drainage basin type mountain ranges (Kangnam Sanmaek, Eunjin Sanmaek, Myelak sanmaek), which were also formed by the erosion processes, but the mountain ranges cross several drainage basins as connecting mountains laterally We believe that the current social confusions related to the existence of mountain ranges has partly been caused by the vague definition of mountain ranges and the diversity of the forming processes. In order to overcome theses confusions, it is necessary to characterize the types of them according the genesis, the purpose of usages and also the scale of maps which will explains the mountain systems. It is also necessary to provide appropriate educational materials to increase the general public's awareness and understanding of geomorphological processes.

• Journal of Conservation Science
• /
• v.32 no.2
• /
• pp.273-291
• /
• 2016

Some ceramic artifacts representing time-wise from comb pattern pottery in the Neolithic Age to white porcelain in Joseon Dynasty were selected from 7 sites in the north and south area of Charyeong Mountain Range in order to making techniques interpretation and development process of ancient ceramics through physicochemical and mineralogical quantitative analysis. Studied pottery samples in the Prehistoric times showed trace of ring piling in soft-type, and pottery in the Three Kingdoms Period had both soft and hard-type but kettle-ware and storage-ware were made with ring piling, but table-ware was made by wheel spinning. Different from pottery after the Three Kingdom Period when refinement of source clay was high, pottery in the Neolithic Age and in the Bronze Age exhibited highly mineral content in sandy source clay, which showed a lot of larger temper than source clay. Groundmass of celadon and white porcelain almost did not reveal primary minerals but had high content of minerals by high temperature firing. Ceramic samples showed some different in major and minor elements according to sites irrespective of times. Geochemical behaviors are very similar indicating similar basic characteristics of source clay. However, loss-on-ignition showed 0.01 to 12.59wt.% range with a large deviation but it rapidly decreased moving from the Prehistoric times to the Three Kingdom Period. They have correlation with the weight loss due to firings, according to burning degree of source clay and detection of high temperature minerals, estimated firing temperatures are classified into 5 groups. Pottery in the Neolithic Age and in the Bronze Age belongs from 750 to $850^{\circ}C$ group; pottery in the Three Kingdom Period are variously found in 750 to $1,100^{\circ}C$ range of firing temperature; and it is believed celadon and white porcelain were baked in high temperature of 1,150 to $1,250^{\circ}C$. It seems difference between refinement of source clay and firing temperature based on production times resulted from change in raw material supply and firing method pursuant to development of production skill. However, there was difference in production methods even at the same period and it is thought that they were utilized according to use purpose and needs instead of evolved development simply to one direction.

• Korean Journal of Heritage: History & Science
• /
• v.42 no.3
• /
• pp.26-47
• /
• 2009

This study examined dwelling site from among the sites of the Neolithic age found in the Asan Bay(牙山灣) area, and the temporal-spatial location and meaning of the dwelling site (settlement). The majority of the settlements in the area are of a square style but some coexist with rectangular-style settlements, which is noteworthy. The dwelling sites of the Neolithic age found in Asan Bay area are mostly located in a ridge of hilly areas, divided into gentle, low areas (20~50 meters above sea level) and relatively high areas (50~80 meters above the sea level). Although location strongly corresponded to the residents' subsistence and the technical levels within the culture, it likely was greatly affected by natural environment where they lived, as well. In examining radiocarbon dating results and the excavated artifacts, the settlements found in Asan Bay were determined to belong to the period II(3,500~3,000 B.C.) stated in the Relative Chronological table of Dwelling sites in the Neolithic age, written by the author. Said Dwelling sites are proven to have a close relationship with those found on the coast of Gyeonggi Province(京畿道) and in the Geum River(錦江) valley. This is deemed to be the result of expansion and interchange between Gyeonggi Province(京畿道) group and Geum River(錦江) valley group, who constituted the large settlements. Additionally, the Daecheon-ri type dwelling sites in the Geum River valley were verified to be the result of exchange, and spread to the Asan Bay area in the same era. Two forms of Dwelling sites coexisted dynamically in the Asan Bay area around 3,500 B.C. Such a phenomenon resulted primarily from the expansion of the dwelling site due to the introduction of primitive agriculture, as well as environmental (temperature), biological and social changes at those times.