Journal of the Korean earth science society (한국지구과학회지)

The Korean Earth Science Society (한국지구과학회)
권호 표지
DOI QR코드

DOI QR Code

Albizia miokalkora Hu and Chaney from the Duho Formation of Yeonil Group (Miocene) in the Pohang Basin, Korea

포항 분지 연일층군(마이오세)의 두호층에서 산출된 Albizia miokalkora Hu and Chaney

  • Kim, Jong-Heon (Department of Earth Science Education, Kongju National University)
  • 김종헌 (공주대학교 사범대학 지구과학교육과)
  • Received : 2010.08.31
  • Accepted : 2010.10.25
  • Published : 2010.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

Three legume fossils collected from the Miocene Duho Formation of Yeonil Group in the northern Pohang Beach, Gyeongsangbug-do, Korea were described as Albizia miokalkora Hu and Chaney. This species has only appearing in the Miocene floras of Korea, China and Japan until present. It has wide distribution from warm temperate to subtropical-tropical regions but, the diversity of the species of Albizia is not so high. It is considered that the fossil Albizia miokalkora Hu and Chaney might have adapted to the warm climate such as warm temperate climate and subtropical to tropical climate.

경상북도 포항시 북부해수욕장 부근 일대에 분포하는 마이오세의 두호층에서 산출된 3개의 꼬투리 화석을 Albizia miokalkora Hu and Chaney로 동정하였다. 이 화석은 현재까지 한국, 중국, 일본의 제 3기 마이오세 식물군에서 유일하게 산출되고 있고, 난온대에서 아열대-열대 지역에 걸쳐 광범위하게 나타나지만 종의 다양성은 매우 낮았다고 생각된다. 화석 Albizia miokalkora Hu and Chaney는 난온대와 아열대-열대 기후와 같은 따뜻한 기후에 적응한 식물로 추정된다.

Keywords

References

  1. 김봉균, 윤선, 1982, 신생대층. 김옥준교수 정년퇴임기념 편집위원회, 한국의 지질과 광물자원. 대림문화정판사, 서울, 133-154.
  2. 김종헌, 이성복, 안지민, 이혜인, 홍한솔, 2009, 포항 분지의 마이오세 연일층군의 두 호층에서 산출된 Albizia의 열매 화석. 한국지구과학회지, 30, 10-18.
  3. 림경호, 장춘빈, 권정림, 리혜원, 리현수, 김창건, 박정남, 1994, 조선의 화석. 과학기술출판사, 평양, 223 p., pls. 1-96.
  4. 엄상호, 이동우, 박봉순, 1964, 포항도폭설명서(1:50,000). 국립지질조사소, 서울, 1-21 (in Korean), 1-10 (in English).
  5. 윤선, 1998, 신생대층, 제3기층. 이종혁, 원종관, 김정환, 이창진(편집), 한국의 지질. 시그마프레스, 서울, 274-306.
  6. 이창복, 2006, 대한식물도감(상). 향문사, 서울, 914 p.
  7. 전희영, 1982, 포항분지에 분포하는 제3기층군의 고식물군연구. 한국동력자원 연구소 조사연구보고 14, 7-23.
  8. 정철환, 최덕근, 1993, 포항지역 연일층군(마이오세)에서 산출된 포자화분 화석군의 고기후적 의미. 한국고생물학회지, 9, 143-154.
  9. Ablaev, A.G., Sin, E.U., Vassiliev, I.G., and Lu, Z.M., 1993, Miocene of the North Korea and the South Primorye (beds with Engelhardia). Feb Ran, 1-140. (in Russian)
  10. Beijing Institute of Botany and Nanjing Institute of Geology and Palaeontology of Chinese Academy Sinica, 1978, Cenozoic plants from China. Fossil plants of China (3), Science Press, Beijing, China, 232 p., 149 pls. (in Chinese)
  11. Chen, M.H., Kong, Z.C., and Chen, Y., 1983, On the discovery of Palaeogene flora from the western Sichuan Plateau and its significance in phytogeography. Acta Botanica Sinica, 25, 482-491, pls. 1-2.
  12. Hayashi, T., 1975, Fossils from Chojabaru, Iki Island, Japan. Science Institute of Island, Iki, Japan, 120 p. (in Japanese)
  13. Hu, H.H. and Chaney, R.W., 1940, Part 1. Instruction and systematic considerations. In Hu, H.H. and Chaney, R.W. (eds.), A Miocene flora from Shantung Province, China. Carnegie Institution of Washington Publication, 507, 1-84, pls. 1-50.
  14. Huzioka, K., 1972, The Tertiary of Korea. Journal of the Mining College Akita University, Japan, Series A, 5, 1-83, pls. 1-14.
  15. Inoue, H., Iwaki, K., Kashiwaya, H., Iwamura, M., Horita, M., Miura, M., and Yamakishi, T., 1984, Foundation of phylogenetic classification. Hokuryukwan, Tokyo, Japan, 389 p. (in Japanese)
  16. Jeong, E.K., 2009, The comparison of the Miocene fossil wood floras between Korea and Japan. Unpublished Ph. D. dissertation, Tohoku University, Sendai, Japan, 130 p.
  17. Jeong E.K., Kim, K., Kim, J.H., and Suzuki, M., 2004, Fossil woods from Janggi Group (Early Miocene) in Pohang Basin, Korea. Journal of Plant Research, 117, 183-189.
  18. Kanehara, K., 1936, The geology of the northern part of Yeonil-gun, Kyeongsangbuk-do, Korea. Journal of Geological Society of Japan, 43, 73-103. (in Japanese) https://doi.org/10.5575/geosoc.43.73
  19. Kim, B.K., 1984, Cenozoic biostratigraphy of South Korea. Palaeogeography, Palaeoclimatology, Palaeoecology, 46, 85-96. https://doi.org/10.1016/0031-0182(84)90027-0
  20. Kim, B.K., 1987, Cenozoic Erathem. In Lee, D.S. (ed.), Geology of Korea. Geological Society of Korea, Seoul, Korea, 202-221.
  21. Kim, J.H., 2005, Fossil Albizia legume (Mimosaceae) from the Miocene Duho Formation of the Yeonil Group in the Pohang area, Korea. Journal of the Korean Earth Science Society, 26, 166-171.
  22. Lim, J.D., Jeong, E.K., Kim, K., Paik, I.S., and Kim, H.M., 2010, Miocene woods of the Janggi Basin in Korea: Implications for paleofloral changes. Geosciences Journal, 14, 11-22. https://doi.org/10.1007/s12303-010-0002-8
  23. Onoe, T., 1971, A Pleistocene flora Ebino City, Miyazaki Prefecture, Japan. Bulletin of Geological Survey of Japan, 241, 1-46, pls. 1-12. (in Japanese)
  24. Saiki, H. and Harada, H., 1985, Broad-leaved woods. In Harada, H. and Haraguchi, H. (eds.), Structure of woods, 49-124. (in Japanese)
  25. Song, Z.C., Li, H.M., Zheng, Y.H., and Liu, G.W., 1983, Miocene Phytogeographic Province of China. In Edtorial Comittee of the Memories of the Basic Principle of the Paleontology (ed.), Paleobigeographic Provinces of China. Science Press, Beijing, China, 178-184. (in Chinese)
  26. Sun, G., Collinson, M.E., Li, C.S., Wang, Y.F., and Beerling, D.J., 2001, Quantitative reconstruction of palaeoclimate from the Middle Miocene Shangwang flora, eastern China. Palaeogeography, Palaeoclimatology, Palaeoecology, 180, 315-329.
  27. Tanai, T., 1978, Angiosperm. In Huzioka, K. (ed.), Paleontology, IV, Asakura Shoten, Tokyo, Japan, 313-383. (in Japanes)
  28. Tanai, T., 1988, Dajima-type floras (Miocene) in Southwestern Hokkaido and northern Part of Honshu, Japan. Bulletin of National Science Museum, Tokyo, Series C, 15, 121-149.
  29. Tanai, T., 1991, Tertiary climatic and vegetational changes in the northern hemisphere. Journal of Geography, 100, 951-966. (in Japanese) https://doi.org/10.5026/jgeography.100.6_951
  30. Tao, J.R., Zhou, Z.K., and Liu, Y.S., 2000, The Evolution of the Late Cretaceous-Cenozoic Floras in China. Science Press, Beijing, China, 282 p. (in Chinese)
  31. Tateiwa, U., 1924, Geological atlas of Chosen, no. 2, Eunnichi, Kyuryuho and Choyo sheets and explanatory text. Geological Survey of Chosen (Korea), 6 p.
  32. Yao, Y.F., Bruch, A.A., Mosbrugger, V., and Li, C.S., 2010, Quantitative reconstruction of Miocene climate patterns and evolution in southern China based on plant fossils. Palaeogeography, Palaeoclimatology, Palaeoecology, 295, (in press).
  33. Yi, S. and Yun, S., 1995, Miocene calcareous nannoplankton from the Pohang Basin, Korea. Palaeontographica B, 237, 113-158.
  34. Yoon, S., 1975, Geology and paleontology of the Tertiary Pohang Basin, Pohang district, Korea. Part 1. Geology. Journal of the Geological Society of Korea, 11, 187-214.
  35. Yun, H., 1986, Emended stratigraphy of the Miocene Formation in the Pohang Basin, Part 1. Journal of Palaeontological Society of Korea, 2, 54-69.
  36. Zhang, J. and Wang, Q., 2010, Further observations on the pod fossils of Wisteria (Leguminosae) from the Middle Miocene Shangwang Formation of Linqu, Shangdong Province. Acta Palaeontologica Sinica, 49, 87-95. (in Chinese with English abstract)
  37. http//en.wikipedia.org/wiki/Albizia (검색일: 2010.8.18)