• 암석학회지
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• 제27권1호
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• pp.67-72
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• 2018

옥동단층대를 따라 발달한 하부 장산층내 견운모 석영 편암의 K-Ar 연령이 옥동단층의 활동시기와 옥동단층이 자르고 있는 장산층의 퇴적시기를 한정하는데 활용할 수 있어 다시 주목 받고 있다. 보고된 3개의 K-Ar 연령 중에서 가장 오래된 연령($562{\pm}2Ma$)은 조선누층군 최하부층인 장산층의 퇴적시기가 신원생대 말기라는 주장의 중요한 근거로 제시되고 있다. 이와 같은 해석은 퇴적분지의 생성과 진화를 포함한 한반도의 지구조적 진화에 매우 중요한 의미를 갖기 때문에 보고된 연령 분석자료(Yun, 1983)의 신뢰도와 지질학적 의미에 대하여 다시 고찰하였다. 그 결과 분석된 암석표품에 함유된 석영은 상당량의 과잉 Ar을 포함하는 것으로 추정되기 때문에 장산층의 연령을 한정하는 근거로 활용하는 것은 적합하지 않으며, 이 암석표품이 나타내는 압쇄운동의 시기는 약 170 Ma로 판단된다.

• 자원환경지질
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• 제52권1호
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• pp.49-64
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• 2019

태백산분지와 문경지역에 분포하는 하부고생대 조선누층군의 장산층에서 분리한 쇄설성 저어콘들에 대하여 SHRIMP U-Pb 연령을 분석하였다. 그 결과 이전에 보고된 태백분지의 장산층 자료와 유사하게 대부분이 약 18-20억년과 약 25억년의 연령 부근에 강한 피크를 보여준다. 이는 장산층의 쇄설성 저어콘이 한반도의 기저암체로부터 유래하였음을 나타낸다. 현재의 한반도 기저암체 연령이 주로 18-20억년에 집중되는 것과는 달리 장산층에서는 약 25억년의 연령이 뚜렷하게 나타나는 것으로 볼 때 당시 지표에 노출된 기저암체의 연령분포가 지금과는 다소 상이했을 가능성이 있다. 단양과 제천 사이에 분포하는 시대미상 금수산층으로부터 분리한 쇄설성 저어콘도 장산층과 매우 비슷하게 18-20억년과 25억년 부근에 강한 피크를 보이는 U-Pb 연령분포 특성을 보여주며, 이는 두 층이 대비될 가능성을 강하게 시사한다.

• Journal of Forest and Environmental Science
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• 제30권4호
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• pp.322-330
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• 2014

This study was conducted during May to September in 2012 to investigate the distribution and diversity of beetles in Mt. Jangsan (634 m) located near Busan, Republic of Korea. The collection of beetles was repeated 11 times in the four areas classified according to altitudes 200 m, 400 m, 600 m, and over 600 m (approximately) on the south and north slopes of Mt. Jangsan. A total of 12 families, 20 species, and 4,343 individual beetles were collected. In the southern slopes, a total of 12 families, 20 species, and 2,264 individuals were collected, whereas a total of 12 families, 20 species, and 2,079 individuals on the northern slopes were captured. The monthly emergence of beetles was the highest in August at 651 individuals followed by 516 individuals in September, 496 individuals in July, 364 individuals in Jun, 237 individuals in May. In the northern slopes, the monthly emergence of beetles was the highest in August as 591 individuals followed by 512 individuals in September, 443 individuals in July, 321 individuals in June, and 212 individuals in May. On the southern slopes, the species diversity index, evenness index, and dominance value were 0.950, 0.730, and 0.181, respectively, while in the northern slopes, the species diversity index, evenness index, and dominance index were 0.946, 0.727, and 0.182, respectively. In the both slopes, the species diversity index and evenness index were the highest in May, while dominance index was the highest in September. This study lays the groundwork for further monitoring of these sites and others through the region for environmental changes using the indicator species.

• 한국환경복원기술학회지
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• 제24권3호
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• pp.49-68
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• 2021

This study was to carried out to survey and analyse the vascular plants of Mt. Jangsan, Busan Metropolitan City, South Korea. The vascular plants were surveyed from June to October, 2019. The numbers of vascular plants in this site were 497 taxa and comprised of 106 families, 306 genera, 454 species, 7 subspecies, 29 varieties, 5 forms and 2 hybrids. The planted species were 16 taxa including Ginkgo biloba, Cedrus deodara, Zea mays and so on. In this study, 309 taxa were identified, including Selaginella rossii, Cyrtomium falcatum, Cephalanthera falcata and so on. The rare plants were 4 taxa including Hololeion maximowiczii(EN), Ottelia alismoides(LC), Iris ensata Thunb. var. spontanea(LC) and Sagittaria trifolia(DD). All rare plants were found in Jangsan Wetland. The Korean endemic plants were 9 taxa including Populus × tomentiglandulosa, Hemerocallis hakuunensis, Hosta minor and so on. The floristic target species were totally 53 taxa, which were 2 taxa of grade IV, 11 taxa of grade III, 6 taxa of grade II and 34 taxa of grade I. The alien plants were 58 taxa including Rumex crispus, Ipomoea purpurea, Helianthus tuberosus, Vulpia myuros and so on.

• 자원환경지질
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• 제16권1호
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• pp.1-10
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• 1983

The Yeonhwa (I, II) and Keodo mines, neighboring in the middle part of the Taebaegsan mineral belt, contain three distinct classes of skarn deposits: the zinc-lead skarn at Yeonhwa (I, II), the iron skarn at Keodo south (Jangsan orebodies), and the copper skarn at Keodo north (78 orebodies). The present study characterizes the three classes of skarn deposits mainly in terms of skarn/ore associations examined from chemical compositional point of view, and applies existing quantitative phase diagrams to some pertinent mineral assemblages in these mines. At Yeonhwa I the Wolam I orebody shows a vertical variation in skarn minerals ranging from clinopyroxene/garnet zone on the lower levels through clinopyroxene (without garnet) zone on the intermediate levels, and finally to rhodochrosite veins on the upper levels and surface. Ore minerals, sphalerite and galena, associate most closely with the intermediate clinopyroxene zone. At Keodo, the Jangsan iron skarn hosted in quartz monzodiolite as a typical endoskarn, shows a skarn zoning, from center of orebody to outer side, magnetite zone, magnetite/garnet zone, garnet clinopyroxene zone, and clinopyroxene/epidote/plagioclase zone. The 78 copper skarn in the Hwajeol limestone indicates a zoning, from quartz porphyry side toward limestone side, orthoclase/epidote zone, epidote/clinopyroxene zone, and clinopyroxene/garnet zone; chalcopyrite and other copper sulfides tend to be in clinopyroxene/garnet zone. Mioroprobe analyses of clinopyroxenes and garnets from the various skarn zones mentioned above revealed that the Yeonhwa zinc/lead skarns are characterized by johansenitic clinopyroxene (Hd 25-78, Jo 15-23) and manganoan andraditic garnet (Ad 13-97, Sp 1-24), whereas the Jangsan iron skarn at Keodo by Mn-poor diopsidic clinopyroxene (Di 78-93, Jo 0.2-1.0) and Mn-poor grossularitic grandite (Gr 65-77, Sp 0.5-1.0). The 78 copper skarn at Keodo is characterized by Mn-poor diopsidic-salite (Di 66-91, Jo 0.2-1.1) and Mn-poor andraditic grandite(Ad 40-74, Sp 0.5-1.1). The compositional charateristics of iron, copper, and zinc-lead skarns in the Yeonhwa-Keodo mines are in good correlations with those of the foreign counterparts. Compiling a $T-XCO_2$ phase diagram for the Jangsan endoskarns, a potential upper limit of temperature of the main stage of skarn formation is estimated to be about $530^{\circ}C$, and a lower limit to be $400^{\circ}C$ or below assuming $XCO_2=0.05$ at P total=1kb. Applying a published log $fS_2$-log $fo_2$ diagram to the Keodo 78 and Yeonhwa exoskarns, it is revealed that copper sulfides and zinc-lead sulfides do not co-exist stably below log $fS_2=-4$ and log $fO_2=-23$ at $T=400^{\circ}C$ and ${\times}CO=1$ atm.

• 자원환경지질
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• 제19권spc호
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• pp.175-191
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• 1986

The Geodo granodiorite intruded into the Joseon Supergroup is fine-grained at the marginal part, and medium-grained and more leucocratic at the central part. The Quartz monzonite porphyry intruded inte Precambrian granite and Geodo granodiorite has abundant plagioclase phenocryst. The Imog granite intruded into the Yulri Group and the Joseon Supergroup is mediumgrained biotite granite with partly pinkish feldspar phenocryst. The K/Ar ages obtained from the biotite of the Geodo granodiorite and Imog granite are Early ($111{\pm}1{\sim}107{\pm}1$ Ma) and Late ($93{\pm}1{\sim}92{\pm}1$ Ma) Cretaceous, respectively. The K/Ar sericite age of the quartz-sericite zone of the lower Jangsan quartzite occuring in the western area gave much younger age (about 170 Ma) than that of the Jangsan quartzite, that might be reset due to the regional metamorphism of the Daebo orogeny. The granitic rocks of the area are felsic to mafic, metaluminous to peraluminous, calc-alkalic (alkali-lime index${\fallingdotseq}$ 57) and I-type (magnetite-series) based on the chemical data_ And they appear to have been fractionated at the order of Geodo granodiorite, Quartz monzonite porphyry and Imog granite. In terms of mineralogy, geochemistry and K/Ar biotite age, a rock suite of monzodiorite, quartz monzodiorite and quartz monzonite-granodiorite in the Geodo stock was fractionally differentiated from a magmatic body from its margin to inward.

• 자원환경지질
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• 제24권1호
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• pp.43-55
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• 1991

The Imgye area, in the NE Taebaegsan Region, consists of Precambrian granites and schist complex at the base and Paleozoic sedimentary rocks and amphibolite at cover. The granites in the area were previously thought to be Paleozoic in age, but recent geochronological data yields isotopic age ranging from $1837{\pm}82Ma$ to $2108{\pm}82Ma$ by Rb-Sr whole rock method. Therefore, basement-cover relations in the area should be reexamined. During the study, mylonite zone recognized along the contact boundary between Precambrian granites and Cambrian Jangsan Quartzite Formation. Mylonite zone has 150 - 250 m in width. Mylonitic rocks can divide into two groups; quartz mylonite derived from Jangsan Formation and mylonitic granites from Precambrian granites. Intensity of mylonitic foliation decreased toward the north. Amphibolite occurs as an intrusive sills within mylonite zone. Mineral fabrics and small scale shear zones are commonly seen in amphibolite. It indicates that intrusive age of amphibolite is synchronous to the formation of mylonite zone. Mylonite zone was reactivated as ductile thrust faults and forms the hinterland dipping imbricate zone during the Cretaceous Bulkuksa Orogeny. The near parallelism of mineral stretching lineation and long axis of strain ellipes indicates that the area is affected by a homogeneous pure shear flattening together with the variable components of simple shear.

• 암석학회지
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• 제4권2호
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• pp.144-152
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• 1995

단양에서 동남동으로 약 6km 떨어진 천동리 지역에는 조선누층군의 최하부층인 장신규암과 영남육괴의 선캠브리아기로 추측되어온 엽리상 화강암(소위 화강암질 편마암)이 직접 접하고 있다. 이들의 관계는 전통적으로 장산규암이 엽리상 화강암을부정합으로 피복한 것으로 생각되었다. 그러나, 장판 규암의 하부에 관찰되는 소위 기저역암은 주로 규암으로 엽리상 화강암의 역을 전혀 가지고 있지 않아 두 암석 단위의 경계를 부정합으로 보기는 힘들다. 반면, 이지연의 최근 구조지질학적 연구는 이 경계가 여성전단운동에 의한 단층접촉임을 보이고 있다. 그러나, 이 전단대의 전단감각과 운동시기에 대해서는 아직 분명하지 않다. 우리는 옥동 단층의 일부인 천동리 지역 반취성전단대(semi-brittle shear zone)에서 나타나는 엽리상 패쇄암(foliated cataclasite)과 천매압쇄암(phyllonite)의 중구조 및 미구조 관찰하였는데, 이들은 북서측의 장산규암층이 남동측의 엽리상 화강암에 대해서 북동측으로 이동한 전단감각(top-to-the-northeast shearing)을 나타낸다(즉, 우수 주향이동), 전단운동의 시기를 제한하는 한 방법으로, 전통적으로 선캠브리아기루 추정되나 그 관입시기가 확인되지 않는 엽리상 화강암에 대하여 Pb-Pb 연대측정을 시도하였다. 즉, 구조운동을 받은 화강암체의 관입시기는 구조운동 시기으 l상한을 지시할 수 있기 때문이다. 엽리상 화강암의 전암 및 장석과 포획암의 전암에 대한 Pb 동위원소 자료는 $^{207}Pb/^{204}Pb-^{206}Pb/^{204}Pb$ 그림에서 $2.16{\pm}0.15$ Ga ($2{\sigma}$;MSWD=4.4)의 연대를 정의한다. 이 연대는 엽리상 화강암의 관입시기로 해석되는데, 보고된 영남육괴의 화성활동 시기와 잘 일치한다. 이 원생대 초기의 관입시기는 전통적인 생각기 옭음을 확인해 주며 전단운동의 시기를 알기위해서는다른 방법이 시도되어야 함을 지시한다.

• 자원환경지질
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• 제28권1호
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• pp.43-51
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• 1995

The Jangsan Quartzite is a basal unit of the Cambro-Odovician sequence, in Socheon-Myeon, Bonghwa-Gun, Gyeongsangbug-Do, South Korea, was petrologically and geochemically investigated. The quartzite consists mainly of quartz and muscovite, assosiated with tourmaline and graphite. The quartzite shows white and/or gray color and various green color in hand specimens. The white and gray colored rocks have very low vanadium contents, but a dark green colored rock contains 8960 ppm vanadium. The muscovites in the quartzite show colorless and green color, of which green ones range from pale blue green to pale green. The dark green colored muscovites have above 8 wt. % vanadium and pale green ones have 1-3 wt. % vanadium. Vanadium contents in moscovite increase with decreasing $Al^{v1}$ contents. It suggests that vanadium substitutes for octahedral aluminium in moscovite. In general, it tends to large volumes of muscovite (up to 14 modal %) in deep green colored rocks, and high vanadium contents in their muscovites. Most of the moscovite flakes occur along the quartz boundaries and some are enclosed by quartz grain. The moscovite grains intergrowth each other in the former. The mouscovite aggragates are divided into two types on the basis of their intergrowth(cut) times. Two cut times and one cut time are named T type and D type, respectively. The T type is mainly distributed at western part (near of the Chunyang granite), whereas the D type is distributed from middle to estern part(near the Janggunbong) of the formation. The boundary is consistent with metamorphic isograd between andalusite and sillimanite zone by Ahn et. al. (1993).

• 한국환경복원기술학회지
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• 제15권6호
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• pp.1-16
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• 2012

The research has analysed the targeted land situation, the composition of species, legally controlled plants, vegetation distribution, dominance, species diversity, and the similarity to evaluate the plant characterization of the eco forest in Jangsan, Busan. The results of the research is as following. The number of the plants that belongs to the area is 63 families, 126 genuses, and 163 species. Among them the fern plants : 4 families, 5 genuses, 5 species, and the egg species : 5 families, 8 species, 10 species, and angiospermae : 54 families, 113 genuses, 148 species have been checked. Monocotyledoneae of angiospermae : 7 families, 20 genuses, 22 species (13.5%) and dicotyledoneae : 47 families, 93 genuses, 126 species (77.3%) have been totally checked. The endangered wildlife species by the standard of the Ministry of Environment and the rare plants by the standard of IUCN evaluation realesed by the Bureau of Forest and National Plant Institution has never been checked but one species of Weigela subsessilis has been checked as an approving plant in being delivered abroad, the 8 imported plant by the standard of National Plant Institution checked, some disturbing ecosystem plants released by the Ministry of Environment (2009) not emerged. The succession into the oak trees is occurring to the biodiversity of the researched area, the number of species and their species diversity.