이 연구에서는 청풍지역 하상퇴적물에 대한 지구화학적 특성 규명을 통해, 주성분원소 및 미량원소에 대한 청풍지역의 자연배경치를 제시하고, 지구화학적 재해에 대해 예견하고자 한다. 이를 위해 물이 흐르고 있는 1차 수계를 대상으로 하상퇴적물시료를 채취하였고, 실험실에서 자연건조 시켰으며, 화학적 분석을 위해 알루미나 몰타르를 이용하여 200메쉬 이하로 분쇄하였다. 주성분원소 및 미량성분원소는 XRD, XRF, ICP-AES, NAA를 이용하여 분석하였다. 청풍지역 하상퇴적물의 기반암에 따른 지질집단별 지구화학적 특성 비교를 위해, 화강암질편마암지역, 메타텍틱편마암지역, 다도응회암지역, 유치역암 지역, 능주용암지역으로 분류하였다. 청풍지역 하상퇴적물 전체에 대한 주성분원소 함량은 $SiO_2;47.31{sim}72.81;wt.%,;Al_2O_3 ;11.26{sim}21.88;wt.%,;Fe_2O_3;2.83{sim}8.39;wt.%,;CaO;0.34{sim}7.54;wt.%,;MgO; 0.55{sim}3.59;wt.%,;K_2O;1.71{sim}4.31;wt.%,;Na_2O;0.56{sim}2.28;wt.%,;TiO_2;0.46{sim}1.24;wt.%,;MnO;0.04{sim}0.27;wt.%,;P_2O_5;0.02{sim}0.45;wt.%$이다. 청풍지역 하상퇴적물 전체에 대한 미량성분원소 및 희토류원소 함량은 $Ba;700ppm{sim}8990ppm,;Be;1.0{sim}3.50ppm,;Cu;6.20{sim}60ppm,;Nb;12{sim}28ppm,;Ni;4.4{sim}61ppm,;Pb;13{sim}34ppm,;Sr;65{sim}787ppm,;V;4{sim}98ppm,;Zr;32{sim}164ppm,;Li;21{sim}827ppm,;Co;3.68{sim}65ppm,;Cr;16.7{sim}409ppm,;Cs;72{sim}37.1ppm,;Hf;4.99{sim}49.2ppm,;Rb;71.9{sim}649ppm,;Sb;0.16{sim}5.03ppm,;Sc;4.97{sim}5ppm,;Zn;26.3{sim}375ppm,;Ce;60.6{sim}373ppm,;Eu;0.82{sim}6ppm,;Yb;0.71{sim}10ppm$의 범위를 보였다.
The purpose of this study is to determine the geochemical characteristics of the stream sediments in the Cheongpung area. So that we can understand the natural background and predict the prospects of geochemical disaster, if any. We collected the stream sediments samples by wet sieving along the primary channels and slow dried the collected samples in the laboratory and ground them to pass a 200 mesh using an alumina mortar and pestle for chemical analysis. Miner-alogical characteristics, major, trace and rare earth elements were determined by XRD, XRF, ICP-AES and NAA analysis methods. For geochemical characteristics on the geological group of stream sediments, the studied area was grouped into granitic gneiss area, metatectic gneiss area, Dado tuff area, Yuchi conglomerate area, and Neungju flow area in the Cheongpung area. Contents of major elements for the stream sediments in the Cheongpung area were $SiO_2;47.31{sim}72.81;wt.%,;A1_2O_3 ;11.26{sim}21.88;wt.%,;Fe_2O_3;2.83{sim}8.39;wt.%,;CaO;0.34{sim}7.54;wt.%,;MgO; 0.55{sim}3.59;wt.%,;K_2O;1.71{sim}4.31;wt.%,;Na_2O;0.56{sim}2.28;wt.%,;TiO_2;0.46{sim}1.24;wt.%,;MnO;0.04{sim}0.27;wt.%,;P_2O_5;0.02{sim}0.45;wt.%$. The con-tents of trace and rare earth elements for the stream sediments were $Ba;700ppm{sim}8990ppm,;Be;1.0{sim}3.50ppm,;Cu;6.20{sim}60ppm,;Nb;12{sim}28ppm,;Ni;4.4{sim}61ppm,;Pb;13{sim}34ppm,;Sr;65{sim}787ppm,;V;4{sim}98ppm,;Zr;32{sim}164ppm,;Li;21{sim}827ppm,;Co;3.68{sim}65ppm,;Cr;16.7{sim}409ppm,;Cs;2.72{sim}37.1ppm,;Hf;4.99{sim}49.2ppm,;Rb;71.9{sim}649ppm,;Sb;0.16{sim}5.03ppm,;Sc;4.97{sim}52ppm,;Zn;26.3{sim}375ppm,;Ce;60.6{sim}373ppm,;Eu;0.82{sim}6ppm,;Yb;0.71{sim}10ppm$.
