Journal of the Korean Geographical Society (대한지리학회지)

The Korean Geographical Society (대한지리학회)
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Biogeography of Native Korean Pinaceae

한반도에 자생하는 소나무과 나무의 생물지리

  • Kong Woo-Seok (Department of Geography, College of Sciences, Kyunghee University)
  • 공우석 (경희대학교 이과대학 지리학과)
  • Published : 2006.03.01
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Abstract

Despite of ecological and landscape importances and public popularity of Pinaceae, not much scientific informations are known about Korean Pinaceae. Present work aims to understand the biogeography of Korean native Pinaceae, i.e., taxonomy, phylogeny, origin, life form, distribution, dispersal and migration. Korean native Pinaceae consists of five genera and sixteen species. Pinus is systematically closely related to Picea and Larix, but Abies is related to Tsuga. Boreal conifers which have migrated from NE Asia during the Pleistocene glacial epochs successfully survived, but now confined to the alpine and subalpine belts of the Korean Peninsula mainly due to climate warming since the Holocene. Species, such as Picea pungsanensis and Abies koreana have gradually adapted to local environment, and later became an endemic species of Korea. Disjunctive distribution of Pinus parviflora and Tsuga sieboldii are also indicatives of climate change of the Pleistocene. Major dispersal agent of pine trees with winged seed is wind, but wingless pine tree seeds seem to dispersed by birds and rodents. Pine trees with bigger wings are easily dispersed by wind, and now show broader distribution. Species of Pinaceae with disjunctive distribution on the alpine and subalpine belts of both North and South Korea seems to be more vulnerable to global warming.

소나무과 나무들은 자연생태계와 경관에 중요하고 경제적 가치도 높아 국민들이 가장 좋아하는 나무이지만 분포, 생태 및 자연사에 대한 정보는 적다. 이 연구는 한반도 소나무과 나무들의 분류체계, 계통발생과 기원, 외관, 분포, 산포와 이동, 생태를 검토하였다. 한반도에 자생하는 소나무과 나무는 소나무속, 가문비나무속, 이깔나무속, 전나무속, 솔송나무속에 속하는 5속 16종이다. 계통적으로 소나무속은 가문비나무속과 이깔나무속에 가까우며, 전나무속은 솔송나무속과 서로 가깝다. 플라이스토세 빙하기에 북방에서 들어온 침엽수들은 후빙기를 거치면서 한랭한 고산대와 아고산대에 살아남았다. 일부 침엽수는 한반도 북부와 남부 산지에 고립되어 적응하면서 풍산가문비나무나 구상나무와 같은 고유종이 되었다. 울릉도의 섬잣나무와 솔송나무는 오랫동안 격리되어 분포하는 종류이다. 한반도의 고산대와 아고산대에 자라며 씨앗에 날개가 없는 눈잣나무, 잣나무는 잣까마귀, 솔잣새, 어치 등 조류와 다람쥐 청서 등 설치류가 퍼트린다. 날개가 있는 소나무과 나무들은 주로 바람에 의해 씨앗이 퍼지는 것으로 보는데, 씨앗의 날개가 클수록 바람에 쉽게 퍼져 분포역이 넓고, 날개 크기가 작을수록 분포역이 좁다. 북한과 남한의 고산대와 아고산대와 섬에 격리되어 분포하는 종은 지구온난화와 같은 환경변화에 취약하며, 최근에 빠르게 확산되는 소나무재선충병은 소나무와 곰솔에 큰 위협이다. 나무를 근거로 자연환경 변천사를 복원하고, 자연생태계를 이해하며, 환경변화를 예측할 수 있다.

Keywords

References

  1. 공우석, 1995, '한반도 송백류의 시.공간적 분포역 복원,' 대한지리학회지, 30(1), 1-13
  2. 공우석, 2000, 자연환경과 인간, 생물지리학, 159-197, 한울아카데미
  3. 공우석, 2003, 한반도 식생사, 대우학술총서 556, 아카넷
  4. 공우석, 2004, '한반도에 자생하는 침엽수의 종 구성과 분포,' 대한지리학회지, 39(4), 528-543
  5. 공우석, 2005, '지구온난화에 취약한 지표식물 선정,' 한국기상학회지, 41(2-1), 263-273
  6. 구경아.박원규.공우석, 2001, '한라산 구상나무의 연륜 연대학적 연구 - 기후변화에 따른 생장변동 분석 -,' 한국생태학회지, 24(5), 281-288
  7. 김윤식.고성철.최병희, 1981, '한국의 식물 분포도에 관한 연구(IV), 소나무과의 분포도,' 식물분류학회지, 11(1, 2), 53-75
  8. 김정언.길봉섭, 1983, '한반도의 곰솔 분포에 관한 연구,' 한국생태학회지, 6(1), 45-54
  9. 김현삼, 1978, '소나무속에 대한 지리적 고찰,' 생물학, 63, 33-40
  10. 박종욱.정영철, 1996, 고등식물, 국내생물종문헌조사연구, 자연보호중앙협의회, 64-71
  11. 오수영.박재홍, 2001, 한국 유관속 식물분포도, 아카데미서적
  12. 원병오, 1981, 한국동식물도감 제25권 동물편(조류생태), 문교부
  13. 이영로, 1986, 한국의 송백류, 이화여자대학교 출판부
  14. 이우철.정태현, 1965, '한국삼림식물대 및 적지적수론, 성대논문집,' 10, 329-435
  15. 이우철, 1996, 한국식물명고(전 2권), 아카데미서적
  16. 이윤원.홍성천, 1995, '구상나무림의 군락생태학적 연구,' 한국임학회지, 84(2), 247-257
  17. 이창복, 1982, 대한식물도감, 향문사
  18. 이창복, 1983, '우리나라의 나자식물,' 서울대 농대 관악수목원 연구보고, 4, 1-22
  19. 이춘령.안학수, 1965, 한국식물명감, 범학사
  20. 임업연구원, 1999, 소나무 소나무림, 임업연구원
  21. 장진성.김정일.현정오, 1997, '한국산 분비나무와 구상나무의 형질분석과 종간유연관계1,' 한국임학회지, 86(3), 378-390
  22. 전영우, 2004, 우리가 정말 알아야 할 우리 소나무, 현암사
  23. Arnold, C.A., 1947, An Introduction to Paleobotany, McGraw-Hill Book Co, N. Y
  24. Axelrod, D.I., 1986, Cenozoic history of some western Arnerical pines, Ann. Missouri Bot. Gdn., 73, 565-641 https://doi.org/10.2307/2399194
  25. Benkman, C.W., 1993, Adaptation to single resources and the evolution of crossbill(Loxia) diversity, Ecological Monographs, 63, 305-325 https://doi.org/10.2307/2937103
  26. Benkman, C.W., 1995, The impact of tree squirrel(Tamiasciurus) on limber pine seed dispersal adaptations, Evolution, 49, 585-592 https://doi.org/10.2307/2410312
  27. Chun, L.J., 1994, The broad-leaved Korean pine forest in China, in Schmidt, W.C. and F.K. Holtmeier(eds.), Proc. Intl. Workshop on Subalpine Stone Pines and Their Environment, 81-84, USDA Forest Ser. Gen. Tech. Serv. INT-309
  28. Critchfield, W.B., 1984, Impact of the Pleistocene on the genetic structure of North American conifers, in Lanner, R.(ed.), Proc. 8th North American Forest Biology Workshop, 70-117, Logan, Utah
  29. Critchfield, W.B., 1986, Hybridization and classification of the white pines(Pinus section Strobus), Taxon, 35(4), 647-656 https://doi.org/10.2307/1221606
  30. Critchfield, W.B., and Little, E.L. Jr., 1966, Geographical Distribution of the Pines of the World, USDA Misc. Publ., 991
  31. Dallimore, W., Jackson, A.B. and Harrison, S.G., 1967, A Handbook of Coniferae and Ginkgoaceae(4th ed.), St. Martin's Press, N. Y
  32. Efremov, D.F., 1996, Biogeospheric status of Korean pine-broadleaved forests in the Russian Far East, Pine-Broadleaved Forests of the Far East: Proc. Intl. Conf.: 1996, Sept. 30-Oct. 6, Khabarovsk, 32-39, Russian Federation Gen. Tech. Rep., Portland, OR, Dept. of Agriculture, Forest Service, Pacific Northwest Research Station
  33. Elliott, P.E., 1974, Evolutionary responses of plants to seed-eaters: Pine squirrel predation on lodgepole pine, Evolution, 28, 221-231 https://doi.org/10.2307/2407323
  34. Farjon, A., 1984, Pines: Drawings and Descriptions of the Genus, E.J. Brill/ Dr. W. Backhuys, Leiden
  35. Farjon, A.. 1990. Pinaceae: drawings and descriptions of the genera Abies, Cedrus, Pseudolarix, Keteleeria, Nothotsuga, Tsuga, Cathaya, Pseudotsuga, Larix and Picea, Konigstein: Koeltz Scientific Books
  36. Farjon, A., 1998, World Checklist and Bibliography of Conifers, Royal Botanical Gardens, Kew, London
  37. Farjon, A. and Styles, B.T., 1997, Pinus (Pinaceae), Flora Neotropica, Monograph 75, New York Botanical Garden, N. Y
  38. Farjon, A. and Page, C.N., 1999, Conifers, Status Survey and Conservation Action Plan, IUCN/SSC Conifer Specialist Group, IUCN, Gland, Swiss and Cambridge, UK
  39. Florin, C.R., 1963, The distribution of conifer and taxad genera in time and space, Acta Horti Berg, 20(4), 121-312
  40. Frankis, M. P. 1989. Generic inter-relationships in Pinaceae, Notes Roy. Bot. Gard. Edinburgh, 45, 527-548
  41. Hayashida, M., 1989, Seed dispersal and regeneration pattern of Pinus parviflora var. pentaphylla on Mt. Apoi in Hokkaido, Research Bulletins of the College Experimental Forests, Hokkaido Univ., 46, 177-190
  42. Hiller, H.G., 1972, Conifers for different soils and exposures, in Napier, E.(ed.), 1972, Conifers in the British Isles, 105-108, Royal Hort. Soc., London
  43. Hoffmann, D. and Kleinschmit, J., 1979, An utilization program for spruce provenance and species hybrid, IUFRO Norway Spruce Meeting, Bucharest, 216-236
  44. Hong, S.C., 1995, Ecology and management of Korean Larix spp., in Schmidt, W.C. and K.J. McDonald(eds.), Ecology and Management of Larix Forests, 66-71, IUFRO
  45. Kong, W.S. and Watts, D., 1993, The Plant Geography of Korea, Kluwer Academic Publishers, The Netherlands, p. 229
  46. Kormutak, A., Vookova, B., Ziegenhagen, Kwon, H.Y. and Hong, Y.P., 2004, Chloroplast DNA variation in some representative of Asian, North American and Mediterranean firs (Abies spp.), Silvae Genetica, 53(3), 99-104 https://doi.org/10.1515/sg-2004-0018
  47. Hora, B., 1990, The Marshall Cavendish Illustrated Book of Trees and Forests of the World, Vol. I, Marshall Cavendish, N. Y
  48. Hutchins, H.E., Hutchins, S.A. and Liu, B., 1996, The role of birds and mammals in Korean pine(Pinus koraiensis) regeneration dynamics, Oecologia, 107, 120-130 https://doi.org/10.1007/BF00582242
  49. Kinloch, B.B., Westfall, R.D. and Forrest, G.I., 1986, Caledonian Scots pine: origins and genetic structure, New Phytologists, 104, 703-729 https://doi.org/10.1111/j.1469-8137.1986.tb00671.x
  50. Khomentovsky, P.A., 1994, A pattern of Pinus pumila seed production ecology in the mountains of central Kamtchatka, in Schmidt, W.C. and F.K. Holtmeier(eds.), Proc. - Intl. Workshop on Subalpine Stone Pines and Their Environment, 67-77, USDA Forest Serv. Gen. Tech. Serv., INT-309
  51. Kremenetski, C.V., Liu, K.B and MacDonald, G.M., 1998, The late Quaternary dynamics of pines in northern Asia, in Richardson, D.M.,(ed.), Ecology and Biogeography of Pinus, 95-106, Cambridge Univ. Press
  52. Krussmann, G., 1985, Manual of Cultivated Conifers, Timber Press, Portland
  53. LePage, B.A. and Basinger, J.F., 1995, The evolutionary history of the genus Larix: (Pinaceae), in Schmidt, W.C. and K.J. McDonald(eds.), Ecology and Management of Larix Forests, 19-29, IUFRO
  54. Krugman, S.L. and Jenkinson, J.L., 1974, Pinus L. Pine, in Schopmeyer, S.C.(ed.), Seeds of Woody Plants in the United States, 598-683, USDA Forest Service Agriculture Handbook 450, Washington D.C
  55. Krutovskii, K.V., Politov, D.V. and Altukhov, Y.P., 1994, Genetic differentiation and phylogeny of stone pines species based on isozyme loci, in Schmidt, W.C. and F.K., Holtmeier(eds.), Proc. - Intl. Workshop on Subalpine Stone Pines and Their Environment, 19-30, USDA Forest Serv. Gen. Tech. Serv. INT-309
  56. Iwatsuki K., Yamazaki T., Boufford, D.E. and Ohba, H., (eds.), 1995, Flora of Japan, Volume 1, Pteridophyta and Gymnospermae, Kodansha, Tokyo
  57. Lanner, R.M., 1980, Avian seed dispersal as a factor in the ecology and evolution of limber and whitebark pines, in proc. of 6th North American Forest Biology Workshop 1980 Aug. 11-13, Univ. of Alberta, Edmonton, 15-47
  58. Lanner, R.M., 1990, Biology, taxonomy, evolution, and geography of stone pines of the world, in Schmidt, W.C. and K.J. McDonald(eds.) Proc. - Symp. on Whitebark Pine Ecosystems, Intermou¬ntain Res. Stn. Gen. Tech. Rep. INT-270, 14-24, USDA
  59. Lanner, R.M., 1996, Made For Each Other, A Symbiosis of Birds and Pines, Oxford Univ. Press, N. Y
  60. Lanner, R.M., 1998, Seed dispersal in Pinus, in Richardson, D.M.,(ed.), Ecology and Biogeography of Pinus, 251-280, Cambridge Univ. Press
  61. Ledig, F.T., 1998, Genetic variation in Pinus, in Richardson, D.M.,(ed.), Ecology and Biogeography of Pinus, 251-280, Cambridge Univ. Press
  62. Little, E.L. Jr. and Critchfield, W.B., 1969, Subdivisions of the Genus Pinus (Pines), USDA Misc. Publ., No. 1144, Washinton, D.C
  63. Liu, T.S., 1971, A Monograph of the Genus Abies, Dept. Forestry, Natl. Taiwan Univ., Taipei
  64. MacDonald, G.M., 1993, Fossil pollen analysis and the reconstruction of plant invasions, Advances in Ecological Research, 24, 67-110 https://doi.org/10.1016/S0065-2504(08)60041-0
  65. Maheshwari, P. and Konar, R.N., 1971, Pinus, Botanical Monograph, No.7, Council of Scientific and Industrial Research, New Delhi
  66. Mattes, H. 1994, Coevolutional aspects of stone pines and nutcracker, in Schmidt, W.C. and F.K. Holtmeier(eds.), Proc. of Intl. Workshop on Subalpine Stone Pines and Their Environment, 31-35, USDA Forest Ser. Gen. Tech. Ser., INT-309
  67. Nakai, T., 1909, Flora Koreana, Journal of College of Science, Imperial University of Tokyo, 26, 1-304
  68. Nakai, T., 1911, Flora Koreana II, Journal of College of Science, Imperial University of Tokyo, 31, 1-573
  69. Mattson, D.J. and Jonkel, C., 1990, Stone pines and bears, in Schmidt, W.C., and McDonald K.J., (eds.) Proc. of Symp. on Whitebark Pine Ecosystems., Intermountain Res. Stn. Gen. Tech. Rep., INT-270, 223-236, USDA
  70. Miki, S., 1957, Pinaceae of Japan, with special reference to its remains, Osaka City Univ. Inst. Polytech. Jour. Series D, Biology, 8, 221-272
  71. Millar, C.I., 1989, Allozyme variation of bishop pine associated with pygmy forest soils in northern California, Canadian Journal of Forest Research, 19, 870-879 https://doi.org/10.1139/x89-133
  72. Millar, C.I., 1993, Impact of the Eocene on the evolution of Pinus, Annals of the Missouri Botanical Gardens, 80, 471-498 https://doi.org/10.2307/2399795
  73. Millar, C.I., 1998, Early evolution of pines, in Richardson, D.M.,(ed.), Ecology and Biogeography of Pinus, 69-91, Cambridge Univ. Press
  74. Miller, C.N., 1977, Mesozoic conifers, Bot. Rev(Lancaster), 43, 217-280 https://doi.org/10.1007/BF02860718
  75. Miller, C.N., 1998, The origin of modern conifer families, in Beck, C.B.(ed.), Origin and Evolution of Gymnosperms, 448-486, Columbia Univ. Press, N. Y
  76. Milyutin, L.I. and Vishnevetskaia, K.D., 1995, Larch and larch forests of Siberia, in Schmidt, W.C. and K.J. McDonald(eds.), Ecology and Management of Larix Forests, 50-53, IUFRO
  77. Mirov, N.T., 1959, Biochemical geography of the genus Pinus, IX Intl. Bot. Cong. Vol. II
  78. Mirov, N.T., 1967a, The Genus Pinus, The Ronald Press Company, N. Y
  79. Mirov, N.T., 1967b, Migration and survival of plants as exemplified by the genus Pinus, Year Book of the American Philosophical Society, 318-320
  80. Miyaki, M., 1987, Seed dispersal of the Korean pine, Pinus koraiensis, by the red squirrel, Sciurus vulgaris, Ecological Research, 2, 147-157 https://doi.org/10.1007/BF02346923
  81. Nakashinden, I., 1994, Japanese stone pine cone production estimated from cone scars, Mount Kisokomagatake, central Japanese, in Schmidt, W.C. and F.K. Holtmeier(eds.), Proc. of Intl. Workshop on Subalpine Stone Pines and Their Environment, 188-192, USDA Forest Serv. Gen. Tech. Serv., INT-309
  82. Nienstaedt, H. and Teich, A., 1972, The Genetics of White Spruce, USDA Forest Serv. Res. Paper WO-15, 24p
  83. Nimsch, H., 1995, A Reference Guide to the Gymnosperms of the World, Koeltz Scientific Books, Champaign, USA
  84. Ohwi J., 1965, Flora of Japan, Washington, DC, Smithsonian Institution
  85. Okubo, A. and Levin, S.A., 1989, A theoretical framework for data analysis of wind dispersal of seeds and pollen, Ecology, 70, 329-338 https://doi.org/10.2307/1937537
  86. Oldfield, S., Lusty, C. and MacKinven, A., 1998, The World List of Threatened Trees, World Conservation Press, IUCN, Cambridge, U. K
  87. Pravdin, L.F. and Iroshnikov, A.J., 1982, Genetics of Pinus sibirica Du tour, P. koraiensis Sieb. et Zucc. and P. pumila Regal, Ann. Forest, 9(3), 79-123
  88. Rehfeldt, J., 1984, Microevolution of conifers in the Northern Rocky Mountains: a view from common gardens, in Lanner, R.(ed.), Proc. of the 8th North American Forest Biology Workshop, 132-146, Logan, Utah
  89. Richardson, D.M. and Rundel, P.W., 1998, Ecology and biogeography of Pinus, and introduction, in Richardson, D.M.(ed.), Ecology and Biogeography of Pinus, 3-46, Cambridge Univ. Press
  90. Rushforth, K., 1987, Conifers, Facts on File Publications, New York
  91. Schmidt, W.C., 1994, Distribution of stone pines, in Schmidt, W.C. and F.K. Holtmeier(eds.), Proc. of Intl. Workshop on Subalpine Stone Pines and Their Environment, 1-6, USDA Forest Ser. Gen. Tech. Serv. INT-309
  92. Schmidt, W.C., 1995, Around the world with Larix: an introduction, in Schmidt, W.C., and K.J. McDonald(eds.), Ecology and Management of Larix Forests, 6-10, IUFRO
  93. Sigurgeirsson, A. and Szmidt, A.E., 1993. Phylogenetic and biogeographic implications of chloroplast DNA variation in Picea. Nordic Journal of Botany 13: 233-246 https://doi.org/10.1111/j.1756-1051.1993.tb00043.x
  94. Silba, J., 1986, An International Census of the Coniferae, Phytologia Memoir no. 8., Corvallis, OR, H.N. Moldenke and A.L. Moldenke
  95. Silba, J. 1990, A supplement to the international census of the Coniferae, II. Phytologia, 68(1): 7-78
  96. Stewart, W.N., 1983, Paleobotany and the Evolution of Plants, Cambridge Univ. Press, Cambridge
  97. Taylor, R.J., 1993, Sections on Picea and Tsuga, Flora of North America Editorial Committee(eds.), Flora of North America North of Mexico, Vol. 2. Oxford Univ. Press
  98. Taylor, T.N., 1976, Introduction: patterns in gymnosperm evolution, Review of Paleobotany and Palynology, 21(1), 1-3 https://doi.org/10.1016/0034-6667(76)90019-1
  99. Tomback, D.F. and Schuster, W.S.F., 1994, Genetic population structure and growth form distribution in bird-dispersed pines, in Schmidt, W.C. and F.K. Holtmeier(eds.), Proc. of Intl. Workshop on Subalpine Stone Pines and Their Environment, 43-49, USDA Forest Serv. Gen. Tech. Serv., INT-309
  100. Turcek, F.J. and Kelso, L., 1968, Ecological aspects of food transportation and storage in the Corvidae, Communications in Behavioral Biology, Part A, 1, 277-297
  101. Uyeki, H., 1926, Corean Timber Trees, Vol. 1, Ginkgoales and Coniferae, Report of Foresty Experiment Station, 4, 1-153
  102. Vander Wall, S.B., 1990, Food Hoarding in Animals, Univ. Chicago Press, Chicago
  103. Vidakovic, M., 1991, Conifers: morphology and variation, (translated by Soljan, M.) Graficki Zovod Hrvatske, Zagreb, Croatia
  104. Welch, J.H., 1991, The Conifer Manual, Vol. 1, Kluwer Acad. Publ., Dordrecht
  105. Wright, J.W., 1955, Species crossability in spruce in relation to distribution and taxonomy, Forest Science, 1, 319-349
  106. Wu Z.Y. and Raven P.H.(eds.), 1999, Flora of China, Volume 4, Science Press, Beijing
  107. http://www.conifers.org