Re-examination of the Metallogenic Epoch of the Ikuno-Akenobe Province in Japan
Polymetallic vein-type deposits of tin, tungsten, copper, zinc, lead, silver and gold are found at Akenobe (SAIGUSA, 1958; ABE, 1963; MURAOKA and IKEDA, 1968) and Ikuno (MARUYAMA, 1957; TANAKA et al., 1971). These are among the best-known of Japanese deposits and have been cited as type examples of...
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| Published in | Mining Geology Vol. 22; no. 111; pp. 67 - 73 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English Japanese |
| Published |
The Society of Resource Geology
1972
資源地質学会 |
| Online Access | Get full text |
| ISSN | 0026-5209 |
| DOI | 10.11456/shigenchishitsu1951.22.67 |
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| Abstract | Polymetallic vein-type deposits of tin, tungsten, copper, zinc, lead, silver and gold are found at Akenobe (SAIGUSA, 1958; ABE, 1963; MURAOKA and IKEDA, 1968) and Ikuno (MARUYAMA, 1957; TANAKA et al., 1971). These are among the best-known of Japanese deposits and have been cited as type examples of a xenothermal deposit (e. g., PARK, Jr. and MACDIARMID, 1964). The ore deposits at both mines are quite similar in the assemblage of vein-forming minerals but differ in their host rocks. The host rocks at the Akenobe mine are Permo-Car-boniferous sedimentary rocks and the early Triassic dioritic rocks of the Yakuno mafic complex; while those of the Ikuno deposits are the Cretaceous rhyolitic pyroclastic rocks of the Ikuno group. No granitic rocks younger in age than the host rocks have been found very close to these deposits (Fig.1). However, a number of dikes, basaltic to rhyolitic in composition, have intruded before (especially at the Ikuno mine) and after (especially at the Akenobe mine) the mineralization. There has been no definite evidence reported about the geologic age of the mineralization in and around these deposits. But most Japanese geologists have followed T. KATO (1927) in arguing for a late Tertiary metallogenic epoch (NISHIWAKI and WATANABE, 1956; SEKINE, 1956; TSUBOYA et al. 1956; SEKINE et al., 1960; TATSUMI et al., 1970; NAKAMURA, 1970). During the last five years, this conclusion has been questioned by some geologists studying the regional geology and ore deposits of the province, who have suggested rather a much older stage of late Cretaceous to Paleogene (e. g., IMAI, 1966; IMAI et al., 1970). This dispute came to the annual meeting of the Society of Mining Geologists of Japan in February 1967 when IMAI et al. (1967) presented a paper about the metallogenic province of the western Kinki district. In Imai's opinion the ore solution derived from a cryptobatholith of the late Cretaceous to Paleogene granitic rocks, similar rocks of which are widely distributed in the Inner Zone of Southwest Japan. Such was the general climate of opinion about this subject when we began to collect specimens for isotopic dating. Direct dating of these deposits is difficult because of the lack of suitable minerals, either among the vein-forming material or alteration products. We finally decided therefore to determine the age of the post-ore dike by the potassium-argon method, which thus yields the minimum age of the mineralization. |
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| AbstractList | Polymetallic vein-type deposits of tin, tungsten, copper, zinc, lead, silver and gold are found at Akenobe (SAIGUSA, 1958; ABE, 1963; MURAOKA and IKEDA, 1968) and Ikuno (MARUYAMA, 1957; TANAKA et al., 1971). These are among the best-known of Japanese deposits and have been cited as type examples of a xenothermal deposit (e. g., PARK, Jr. and MACDIARMID, 1964). The ore deposits at both mines are quite similar in the assemblage of vein-forming minerals but differ in their host rocks. The host rocks at the Akenobe mine are Permo-Car-boniferous sedimentary rocks and the early Triassic dioritic rocks of the Yakuno mafic complex; while those of the Ikuno deposits are the Cretaceous rhyolitic pyroclastic rocks of the Ikuno group. No granitic rocks younger in age than the host rocks have been found very close to these deposits (Fig.1). However, a number of dikes, basaltic to rhyolitic in composition, have intruded before (especially at the Ikuno mine) and after (especially at the Akenobe mine) the mineralization. There has been no definite evidence reported about the geologic age of the mineralization in and around these deposits. But most Japanese geologists have followed T. KATO (1927) in arguing for a late Tertiary metallogenic epoch (NISHIWAKI and WATANABE, 1956; SEKINE, 1956; TSUBOYA et al. 1956; SEKINE et al., 1960; TATSUMI et al., 1970; NAKAMURA, 1970). During the last five years, this conclusion has been questioned by some geologists studying the regional geology and ore deposits of the province, who have suggested rather a much older stage of late Cretaceous to Paleogene (e. g., IMAI, 1966; IMAI et al., 1970). This dispute came to the annual meeting of the Society of Mining Geologists of Japan in February 1967 when IMAI et al. (1967) presented a paper about the metallogenic province of the western Kinki district. In Imai's opinion the ore solution derived from a cryptobatholith of the late Cretaceous to Paleogene granitic rocks, similar rocks of which are widely distributed in the Inner Zone of Southwest Japan. Such was the general climate of opinion about this subject when we began to collect specimens for isotopic dating. Direct dating of these deposits is difficult because of the lack of suitable minerals, either among the vein-forming material or alteration products. We finally decided therefore to determine the age of the post-ore dike by the potassium-argon method, which thus yields the minimum age of the mineralization. Polymetallic vein-type deposits of tin, tungsten, copper, zinc, lead, silver and gold are found at Akenobe (SAIGUSA, 1958; ABE, 1963; MURAOKA and IKEDA, 1968) and Ikuno (MARUYAMA, 1957; TANAKA et al., 1971). These are among the best-known of Japanese deposits and have been cited as type examples of a xenothermal deposit (e. g., PARK, Jr. and MACDIARMID, 1964). The ore deposits at both mines are quite similar in the assemblage of vein-forming minerals but differ in their host rocks. The host rocks at the Akenobe mine are Permo-Car-boniferous sedimentary rocks and the early Triassic dioritic rocks of the Yakuno mafic complex; while those of the Ikuno deposits are the Cretaceous rhyolitic pyroclastic rocks of the Ikuno group. No granitic rocks younger in age than the host rocks have been found very close to these deposits (Fig.1). However, a number of dikes, basaltic to rhyolitic in composition, have intruded before (especially at the Ikuno mine) and after (especially at the Akenobe mine) the mineralization.There has been no definite evidence reported about the geologic age of the mineralization in and around these deposits. But most Japanese geologists have followed T. KATO (1927) in arguing for a late Tertiary metallogenic epoch (NISHIWAKI and WATANABE, 1956; SEKINE, 1956; TSUBOYA et al. 1956; SEKINE et al., 1960; TATSUMI et al., 1970; NAKAMURA, 1970). During the last five years, this conclusion has been questioned by some geologists studying the regional geology and ore deposits of the province, who have suggested rather a much older stage of late Cretaceous to Paleogene (e. g., IMAI, 1966; IMAI et al., 1970). This dispute came to the annual meeting of the Society of Mining Geologists of Japan in February 1967 when IMAI et al. (1967) presented a paper about the metallogenic province of the western Kinki district. In Imai's opinion the ore solution derived from a cryptobatholith of the late Cretaceous to Paleogene granitic rocks, similar rocks of which are widely distributed in the Inner Zone of Southwest Japan.Such was the general climate of opinion about this subject when we began to collect specimens for isotopic dating. Direct dating of these deposits is difficult because of the lack of suitable minerals, either among the vein-forming material or alteration products. We finally decided therefore to determine the age of the post-ore dike by the potassium-argon method, which thus yields the minimum age of the mineralization. 近年に対立のみられる生野―明延鉱床区鉱化時期について,新第三紀鉱化作用の提唱から現在に至る研究史を概観し,問題点の指摘とその解決のためにK-Ar法による年代測定をおこなった.明延鉱床における鋸化後の岩脈は新第三紀鉱化作用の時期を示さず,また生野鉱床における弱鉱化を受けた鉱化前の岩脈の年齢測定からもその鉱化作用が白亜紀後期~古第三紀の花崗岩質岩類に関係する可能性を暗示する.以上から生野―明延鉱床区の新第三紀鉱化作用が否定された.また生野鉱床における鉱化後デイサイト岩脈は角礫岩脈である可能性を指摘した. |
| Author | ISHIHARA, Shunso SHIBATA, Ken |
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| References | MARUYAMA, S. (1957): The relation between ore veins and igneous intrusives at the Ikuno mine. Mining Geol. (Tokyo), 7, 281-284. (In Japanese with English abstract). SAIGUSA. M. (1958): Geology and Mineralization of the Akenobe mine, Hyogo Prefecture, Japan. Mining Geol. (Tokyo), 8, 218-238. (In Japanese with English abstract). MATSUSHITA, S. (1953): Nippon Chiho Chishitsu-shi (Geology of Japan), Kinki district, Asakura Book Co., Tokyo, 1-299. SAWAMURA, T. (1937): On the quartz veins and related ore deposits distributed in the Kawabe County, Hyogo Prefecture. Jour. Japan. Ass. Miner. Petr. Econ. Geol., 18, 173-179. (in Japanese) KAWAI, M. (1965): On the Upper Cretaceous flora found in the Ikuno region, Hyogo Prefecture, Japan. Bull. Geol. Surv. Japan, 16, 275-276. (In Japanese). TATSUMI, T., SEKINE, Y. and KANEHIRA, K. (1970): Mineral deposits of volcanic affinity in Japan: Metallogeny. in T. Tatsumi edit. Volcanism and Ore Genesis. Univ. Tokyo Press, 1-47. KATO, T. (1926): A revised summary of the metallogenetic epochs of Japan, including Korea, with special reference to the period of orogeny and igneous activity. Proc. 3rd. Pan-Pacific Sci. Congr., Tokyo, 1, 581-588. NAKAMURA, T. and HUNAHASHI, M. (1970): Ore veins of Neogene volcanic affinity in Japan. in T. TATSUMI edit. Volcanism and Ore Genesis, Univ. Tokyo Press, 215-230. ICHIKAWA, K.: (1961), in IKEBE et al., (1961). PARK, Jr., C. F. and MACDIARMID, R. A. (1964): Ore deposits. W.H. FREEMAN & Co., 1-475. SEKINE, Y., OHMACHI, H. and OKANO, T. (1960): Mineral Province of Japan, IV. Mineralization of Neogene Period. Geol. Surv. Japan. (Map only). KATO, T. (1920): A contribution to the knowledge of the cassiterite veins of pneumato-hydatogenic or hydrothermal origin. A study of the copper-tin veins of the Akenobe district in the Province of Tajima, Japan. Jour. Fac. Imper. Univ. Tokyo. Arts. 5, 43, 1-60. ICHIKAWA, K., MURAKAMI, N., HASE, A. and WADATSUMI, K. (1968): Late Mesozoic igneous activity in the Inner Side of Southwest Japan. Pacific Geology, 1, Tsukiji Shokan Pub. Co., Tokyo, 97-118. KATO, T. (1928): Some characteristic features of the ore deposits of Japan, related genetically to the late Tertiary volcanic activity. Japan. Jour. Geol. Geogr., 6, 31-48. ABE, M. (1963): Zonal distribution of the ore deposits at the Akenobe mine. Mining Geol. (Tokyo), 13, 101-114 (In Japanese with English abstract). KATO, A. and FUJIKI, Y. (1969): The occurrence of stannoidite from the xenothermal ore deposits of the Akenobe, Ikuno and Tada mines, Hyogo Prefecture, and the Fukoku mine, Kyoto Prefecture, Japan. Miner. Jour., 5, 417-433. KATO, A. (1959): Ikunolite, a new bismuth mineral from the Ikuno mine, Japan. Miner., Jour. 2, 397-407. IMAI, H., FUJIKI, Y. and TSUKAGOSHI, S. (1967): Late Mesozoic or early Tertiary metallogenetic province of the western Kinki district (abs.). Mining Geol. (Tokyo), 17, p.50 (In Japanese). SEKINE, Y. (1959): Uber das Vorkommen von Magnetiten in den subvulkanisch-hydrothermalen Cu-Pb-Zn-Sn-W-Erzgangen der Grube Akenobe, Japan. Neues Jb. Miner., 93, 220-239. KATO, T. (1917): The ring-ore from the Akenobe mine, Province of Tajima. Jour. Geol. Soc. Japan. 24, 35-41. IMAI, H. (1966): Formation of fissures and their mineralization in the vein-type deposits of Japan. Jour. Fac. Eng., Univ. Tokyo. 28, 255-302. TSUBOYA, K, NISHIWAKI, C. and WATANABE, T. (1956): Metallogenetic provinces and metallogenetic epochs. in T. WATANABE et al edit. Progress in Economic Geology. Fuzambo, Tokyo, 252-271. (In Japanese). NISHIWAKI, C. and WATANABE, T. (1956): Mineralization epoch and provinces in Japan. ECAFE I & T/GMWP 2/4, 1-10. ISHIHARA, S. (1971) : Modal and chemical composition of the granitic rocks related to the major molybdenum and tungsten deposits in the Inner Zone of Southwest Japan. Jour. Geol. Soc. Japan. 77, 441-552. IKEBE, N. et al. edit. (1961): Explanatory text of geologic and mineral resources map of Hyogo Prefecture. Hyogo Pref. 1-171 (In Japanese). SEKINE, Y. (1956): Some notes on the metallogenetic epochs and provinces of Japan (2). Earth Science (Tokyo), no. 29, 9-19. (In Japanese). IMAI, H., KATAYAMA, N. and FUKUOKA, I. (1970) : Geology and mineral deposits of the Akenobe mine and the Ningyo-toge uranium deposits. IMA-IAGOD Tokyo-Kyoto Meeting, Guidebook 8, 1-48. KATO, A. and SHINOHARA, K. (1968): The occurrence of roquesite from the Akenobe mine, Hyogo Prefecture. Miner. Jour. 5, 276-284. NAKAMURA, T. (1970): Mineral zoning and characteristic minerals in the polymetallic veins of the Ashio copper mine. in T. TATSUMI edit. Volcanism and Ore Genesis, Univ. Tokyo Press, 231-246. KATO, T. (1927): The Ikuno-Akenobe metallogenic province. Japan. Jour. Geol. Geogr., 5, 121-133. MURAOKA, N. and IKEDA, S. (1968): Recent geologic exploration and development of the Akenobe mine. Mining Geol. (Tokyo), 18, 79-91. (In Japanese with English abstract). TANAKA, T., MORI, H. and SASAKI, K. (1971): Geology and ore deposits of the Ikuno mine, with special reference to the gold-silver veins. Mining Geol. (Tokyo), 21, 162-173 (In Japanese with English abstract). NAGAHAMA, H., KATADA, M. and TSUSHIMA, K. (1956): Quartz porphyries unconformably covered by Izumi Group at Seitan-cho, southwest of Awaji Island. Bull. Geol. Surv. Japan, 10, 697-700. (In Japanese with English abstract). |
| References_xml | – reference: KAWAI, M. (1965): On the Upper Cretaceous flora found in the Ikuno region, Hyogo Prefecture, Japan. Bull. Geol. Surv. Japan, 16, 275-276. (In Japanese). – reference: NAKAMURA, T. (1970): Mineral zoning and characteristic minerals in the polymetallic veins of the Ashio copper mine. in T. TATSUMI edit. Volcanism and Ore Genesis, Univ. Tokyo Press, 231-246. – reference: ICHIKAWA, K.: (1961), in IKEBE et al., (1961). – reference: ICHIKAWA, K., MURAKAMI, N., HASE, A. and WADATSUMI, K. (1968): Late Mesozoic igneous activity in the Inner Side of Southwest Japan. Pacific Geology, 1, Tsukiji Shokan Pub. Co., Tokyo, 97-118. – reference: NAKAMURA, T. and HUNAHASHI, M. (1970): Ore veins of Neogene volcanic affinity in Japan. in T. TATSUMI edit. Volcanism and Ore Genesis, Univ. Tokyo Press, 215-230. – reference: KATO, T. (1928): Some characteristic features of the ore deposits of Japan, related genetically to the late Tertiary volcanic activity. Japan. Jour. Geol. Geogr., 6, 31-48. – reference: ISHIHARA, S. (1971) : Modal and chemical composition of the granitic rocks related to the major molybdenum and tungsten deposits in the Inner Zone of Southwest Japan. Jour. Geol. Soc. Japan. 77, 441-552. – reference: KATO, A. (1959): Ikunolite, a new bismuth mineral from the Ikuno mine, Japan. Miner., Jour. 2, 397-407. – reference: KATO, T. (1917): The ring-ore from the Akenobe mine, Province of Tajima. Jour. Geol. Soc. Japan. 24, 35-41. – reference: PARK, Jr., C. F. and MACDIARMID, R. A. (1964): Ore deposits. W.H. FREEMAN & Co., 1-475. – reference: KATO, T. (1920): A contribution to the knowledge of the cassiterite veins of pneumato-hydatogenic or hydrothermal origin. A study of the copper-tin veins of the Akenobe district in the Province of Tajima, Japan. Jour. Fac. Imper. Univ. Tokyo. Arts. 5, 43, 1-60. – reference: IMAI, H., KATAYAMA, N. and FUKUOKA, I. (1970) : Geology and mineral deposits of the Akenobe mine and the Ningyo-toge uranium deposits. IMA-IAGOD Tokyo-Kyoto Meeting, Guidebook 8, 1-48. – reference: KATO, T. (1926): A revised summary of the metallogenetic epochs of Japan, including Korea, with special reference to the period of orogeny and igneous activity. Proc. 3rd. Pan-Pacific Sci. Congr., Tokyo, 1, 581-588. – reference: MATSUSHITA, S. (1953): Nippon Chiho Chishitsu-shi (Geology of Japan), Kinki district, Asakura Book Co., Tokyo, 1-299. – reference: TSUBOYA, K, NISHIWAKI, C. and WATANABE, T. (1956): Metallogenetic provinces and metallogenetic epochs. in T. WATANABE et al edit. Progress in Economic Geology. Fuzambo, Tokyo, 252-271. (In Japanese). – reference: NISHIWAKI, C. and WATANABE, T. (1956): Mineralization epoch and provinces in Japan. ECAFE I & T/GMWP 2/4, 1-10. – reference: NAGAHAMA, H., KATADA, M. and TSUSHIMA, K. (1956): Quartz porphyries unconformably covered by Izumi Group at Seitan-cho, southwest of Awaji Island. Bull. Geol. Surv. Japan, 10, 697-700. (In Japanese with English abstract). – reference: ABE, M. (1963): Zonal distribution of the ore deposits at the Akenobe mine. Mining Geol. (Tokyo), 13, 101-114 (In Japanese with English abstract). – reference: SAIGUSA. M. (1958): Geology and Mineralization of the Akenobe mine, Hyogo Prefecture, Japan. Mining Geol. (Tokyo), 8, 218-238. (In Japanese with English abstract). – reference: TANAKA, T., MORI, H. and SASAKI, K. (1971): Geology and ore deposits of the Ikuno mine, with special reference to the gold-silver veins. Mining Geol. (Tokyo), 21, 162-173 (In Japanese with English abstract). – reference: SAWAMURA, T. (1937): On the quartz veins and related ore deposits distributed in the Kawabe County, Hyogo Prefecture. Jour. Japan. Ass. Miner. Petr. Econ. Geol., 18, 173-179. (in Japanese) – reference: IMAI, H., FUJIKI, Y. and TSUKAGOSHI, S. (1967): Late Mesozoic or early Tertiary metallogenetic province of the western Kinki district (abs.). Mining Geol. (Tokyo), 17, p.50 (In Japanese). – reference: IMAI, H. (1966): Formation of fissures and their mineralization in the vein-type deposits of Japan. Jour. Fac. Eng., Univ. Tokyo. 28, 255-302. – reference: SEKINE, Y. (1959): Uber das Vorkommen von Magnetiten in den subvulkanisch-hydrothermalen Cu-Pb-Zn-Sn-W-Erzgangen der Grube Akenobe, Japan. Neues Jb. Miner., 93, 220-239. – reference: KATO, T. (1927): The Ikuno-Akenobe metallogenic province. Japan. Jour. Geol. Geogr., 5, 121-133. – reference: KATO, A. and SHINOHARA, K. (1968): The occurrence of roquesite from the Akenobe mine, Hyogo Prefecture. Miner. Jour. 5, 276-284. – reference: MARUYAMA, S. (1957): The relation between ore veins and igneous intrusives at the Ikuno mine. Mining Geol. (Tokyo), 7, 281-284. (In Japanese with English abstract). – reference: TATSUMI, T., SEKINE, Y. and KANEHIRA, K. (1970): Mineral deposits of volcanic affinity in Japan: Metallogeny. in T. Tatsumi edit. Volcanism and Ore Genesis. Univ. Tokyo Press, 1-47. – reference: SEKINE, Y., OHMACHI, H. and OKANO, T. (1960): Mineral Province of Japan, IV. Mineralization of Neogene Period. Geol. Surv. Japan. (Map only). – reference: SEKINE, Y. (1956): Some notes on the metallogenetic epochs and provinces of Japan (2). Earth Science (Tokyo), no. 29, 9-19. (In Japanese). – reference: KATO, A. and FUJIKI, Y. (1969): The occurrence of stannoidite from the xenothermal ore deposits of the Akenobe, Ikuno and Tada mines, Hyogo Prefecture, and the Fukoku mine, Kyoto Prefecture, Japan. Miner. Jour., 5, 417-433. – reference: MURAOKA, N. and IKEDA, S. (1968): Recent geologic exploration and development of the Akenobe mine. Mining Geol. (Tokyo), 18, 79-91. (In Japanese with English abstract). – reference: IKEBE, N. et al. edit. (1961): Explanatory text of geologic and mineral resources map of Hyogo Prefecture. Hyogo Pref. 1-171 (In Japanese). |
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| Title | Re-examination of the Metallogenic Epoch of the Ikuno-Akenobe Province in Japan |
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| ispartofPNX | Mining Geology, 1972/03/29, Vol.22(111), pp.67-73 |
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