The purpose of this study is to investigate how the hollowization in rural villages which causes marginal villages appears in Korean rural villages and whether the hollowization has relation with decrease and aging of population or not. For achieving the research objective, survey was carried out focused on Geumsan-gun. As a result, it confirmed that rural out-migration and rural decline especially in 'people', 'land(economic situation)' and 'community' have being progressed. Also variance analysis and regression analysis were executed with using the number of population and the ratio of people over 65 as dependent variables and using each survey contents(variables) as independent variables. The results of analysis showed that the ratio of people over 65(+), the income level per household(-), the rate of fallow lands(+), the number of empty houses(+), programs for urban-rural interchange(+), and the implementing public projects(+), etc. have a relation with the number of population(-) and the number of population(-), the income level per household(-), the rate of fallow lands(+), the number of empty houses(+), activities of communities(+), and the implementing public projects(+), etc. have a relation with the ratio of people over 65(+) (+: increase, -: decrease). So the hollowization in people', 'land(economic situation)' and 'community' has direct relation with decrease and aging of population in rural areas.

The composition of rural Green Village requires higher utilization of renewable energy in those selected rural villages. The purpose of this study is to select the best results of rural green villages when using photovoltaic power system(PV system). 10 different rural villages in Chubumyeon, Keumsan, Chungnam province, were selected as study villages. This study shows measured solar radiation data, a 20-year time series data, and GIS spatial analysis; and whose were used to predict the photovoltaic power generation. PV system is used as a form with capacity of 3kWp to use for personal and public houses. Generation data was calculated by the town, where the economics of the Green Village location analysis was performed; and the solar radiation's correction factor was calculated by the 20-year time series data and measured data by study villages. By applying to the data of DEM, slope and aspect of the study villages were found, therefore performed. Spatial analysis tools were performed by using solar radiation map's tools. Those data found were used to calculate the average needed energy every months. When used the properly calculated data, towns performed economical energy consumption in rural Green Village. Every study villages have showed very high potential for PV system. Sungdangri ranked at the first (7,401kWp/year), Jangdaeri follows behind to the second (7,203kWp/year) and Yogwangri at third (7,89kWp/year) which shows higher developed energy than other study villages. The areas covered of these three towns are as follows: Sungdangri at 33,300㎡, Jangdaeri covers 18,000㎡ and Yogwangri shows 46,800㎡. With these results, analyzing the potentials using GIS spatial analysis before installation of PV system was possible. Also different villages and topography in study villages have showed various results by the area. For convenience and to shorten research time, it is possible and enough to use solar radiation tools when studying spatial analysis of solar radiation.

충남 금산 서북부 지역에 분포하는 화성암류에 대해 암석화학적 연구를 실시하였다. 이 지역에는 선캠브리아기의 흑운모편마암과 시대미상의 옥천층군, 그리고 이들을 관입 또는 분출한 중생대 쥬라기의 흑운모화강암 및 백악기의 화산암, 홍색장석화강암, 석영반암 등이 존재한다. 흑운모화강암은 연변부로 갈수록 점이적으로 우백질 암상을 나타내는데, 중심부로부터 연변부로 갈수록 SiO2, Na2O, K2O의 성분은 증가하는데 비해 Fe2O3, CaO, P2O5, MgO, TiO2 성분은 감소하는 등 역누대구조를 나타낸다. 흑운모화강암과 석영반암은 비알칼리계열에 속하며, 우백질 흑운모화강암은 알칼리계열에 속한다. 또한 이들 화성암은 모두 I-type화성암에 속하며, 동시에 칼크-알칼리계열의 결정분화작용에 부합하는 양상을 나타낸다. 쥬라기의 흑운모화강암은 Eu의 부현상(negative anomaly)이 미약하여 마그마 분화초기의 특징을 나타내는 반면, 백악기의 석영반암은 부현상이 뚜렷하여 진화가 상당히 이루어졌음을 시사한다.