최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기생명과학회지 = Journal of life science, v.24 no.10 = no.174, 2014년, pp.1092 - 1101
In this study, the distribution patterns of Quercus mongolica and Q. serrata in Korea were investigated, and the possibility of introgressive hybridization and gene flow between Q. mongolica and Q. serrata in Mt. Seorak was inferred by flavonoid analyses. The most critical factor in the vertical and...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
참나무속은 어떤 특징에 의해, 과내 다른 속 식물들과 구분되나? | )은 너도밤나무과(Fagaceae)에 속하는 상록성 또는 낙엽성의 교목 및 관목으로 북반구 온대지역을 중심으로 약 450종이 널리 분포한다[12, 19, 30, 39]. 본 속 식물은 엽액에 달리면서 늘어지는 미상화서인 웅화서, 반구형인 각두, 횡단면이 원형이며 각두 당 1개인 견과 등의 특징에 의해 과내 다른 속 식물들과 구분된다[3, 12, 13, 19, 33, 35, 38, 44]. | |
참나무속의 교잡이입으로 인한 문제는? | 참나무속에 있어 이런 잡종화 현상은 본 속 종들이 x=12, 2n=24로 모두 동일한 염색체수를 가져 핵형적인 장벽이 없으며, 이들의 개화기가 비슷하고, 풍매화인 점 등에 의해 쉽게 일어나는 것으로 이해되고 있다[20, 21, 23]. 참나무속은 잡종개체들과 그 부모종 개체들간에도 교잡이 일어나며, 이러한 교잡이입(introgressive hybridization)으로 인해 각 분류군의 변이의 폭 및 잡종분류군의 인식에 있어 많은 혼란과 어려움이 있어 왔다[11, 22, 23, 40]. | |
참나무속이란? | 참나무속(Quercus L.)은 너도밤나무과(Fagaceae)에 속하는 상록성 또는 낙엽성의 교목 및 관목으로 북반구 온대지역을 중심으로 약 450종이 널리 분포한다[12, 19, 30, 39]. 본 속 식물은 엽액에 달리면서 늘어지는 미상화서인 웅화서, 반구형인 각두, 횡단면이 원형이며 각두 당 1개인 견과 등의 특징에 의해 과내 다른 속 식물들과 구분된다[3, 12, 13, 19, 33, 35, 38, 44]. |
Alston, R. E. and Turner, B. L. 1963. Natural hybridization among four species of Baptisia (Leguminosae). Am J Bot 50, 159-173.
Bacilieri, R., Ducousso, A., Petit, R. J. and Kremer, A. 1996. Mating system and asymmetric hybridization in a mixed stand of European oaks. Evolution 50, 900-908.
Camus, A. 1936-1954. Les chenes. Monographie du genre Quercus (et Lithocarpus). Encyclopedie Economique de Sylviculture. Vols. 6-8, Paul Lechevalier: Paris. (in French).
Chang, C. S. 2007. Fagaceae, pp. 268-274. In: Park, C.-W. (ed.), The genera of vascular plants of Korea. Academy Publishing Co. : Seoul.
Chang, J. S. and Lee, T. 1984. A biosystematic study on natural populations of Quercus mongolica Fisch. in Korea and Japan. Korean J Pl Taxon 14, 71-85.
Chung, T. H. 1957. Korean Flora, Vol. 1. Woody Plants, pp. 87-106, Sinjisa: Seoul. (in Korean).
Chybicki, I. J. and Burczyk, J. 2010. Realized gene flow within mixed stands of Quercus robur L. and Q. petraea (Matt.) L. revealed at the stage of naturally established seedling. Mol Ecol 19, 2137-2151.
Ducousso, A., Michaud, H. and Lumaret, R. 1993. Reproduction and gene flow in the genus Quercus L. Ann For Sci 50, 91-106.
Gornall, R. J. and Bohm, B. A. 1978. Angiosperm flavonoid evolution: A reappraisal. Syst Bot 3, 353-368.
Grant, V. 1981. Plant Speciation, Ed. 2., Columbia Univ. Press:New York.
Hardin, J. W. 1975. Hybridization and introgression in Quercus alba. J Arnold Arbor 56, 336-363.
Huang, C., Zhang, Y. and Bartholomew, B. 1999. Fagaceae, pp. 314-400. In: Wu, Z. Y. and Raven, P. H. (eds.), Flora of China, Vol. 4. Cycadaceae through Fagaceae. Missouri Botanical Garden Press: St. Louis.
Hutchinson, J. 1967. The genera of flowering plants, vol. 2, pp. 126-132, Clarendon press: Oxford.
Ishida, T., Hattori, K., Sato, H. and Kimura, M. 2003. Differentiation and hybridization between Quercus crispula and Q. dentata (Fagaceae): insights from morphological traits, amplified fragment length polymorphism markers, and leafminer composition. Amer J Bot 90(5), 769-776.
Isobe, T., Ito, N. and Noda, Y. 1980. Minor flavonoids of Polygonum nodosum. Phytochemistry 19, 1987.
Kim, J. W. 1992. Vegetation of Northeast Asia: On the syntaxonomy and syngeography of the oak and beech forests. Ph.D. Dissertation, University of Vienna, Vienna. (in English with Korean, Japanese, Chinese, and German summary).
Kim, M. H., Park, J. H. and Park, C. W. 2000. Flavonoid chemistry of Fallopia sect. Fallopia (Polygonaceae). Biochem Syst Ecol 28, 433-441.
Kim, Y. H. 2013. Spatial distribution patterns of seven summer-green Quercus species in Korea. M.S. Thesis, Keimyung Univ., Daegu, Korea. (in Korean).
Kubitzki, K. 1993. Fagaceae, pp. 301-309. In: Kubitzki, K., Rohwer, J. G. and Bittrich, V. (eds.), The families and genera of vascular plants, Vol. II. Flowering plants. Dicotyledons: Mongoliid, Hamamelid and Caryophyllid families. Springer-Verlag: Berlin, Heidelberg, Germany.
Lee, J. H. and Hashizume, H. 2004. Currence of trees of the Quercus fabri type in open-pollinated families of Quercus dentata. J Korean Forest Soc 93, 471-476.
Lee, T. B. 1956. Chromosome numbers in Quercus. Commemoration Theses, Fiftieth Anniversary, College of Agriculture, Seoul Natl Univ 35-41.
Lee, T. B. 1961a. Phylogenetic study of the subgenus Lepidobalanus of the genus Quercus in Korea (1). Res Bull Korean Agr Soc 7, 87-108.
Lee, T. B. 1961b. Phylogenetic study of the subgenus Lepidobalanus of the genus Quercus in Korea (2). Seoul Univ J Biol Ser 10, 97-141.
Lee, T. B. 1961c. Triple hybrid of the oak in Korea. Korean J Bot 4, 16-20.
Lee, T. B. 1964. Trichome types of Q. acutissima x Q. variabilis Nakai. J Suwon For Soc 5, 12-14.
Lee, T. B. 1980. Illustrated Flora of Korea, pp. 274-280, Hyangmunsa:Seoul.
Lee, W. T. 1996. Lineamenta florae Koreae, Vol. 1, pp. 172-181, Academy Publishing Co.: Seoul.
Lee, Y. N. 1996. Flora of Korea, pp. 66-70, Kyohak Publishing Co.: Seoul.
Levy, M. and Levin, D. A. 1971. The origin of novel flavonoids in Phlox allotetraploids. Proc Natl Acad Sci USA 68, 1627-1630.
Mabberley, D. J. 1987. The plant book, Cambridge Univ. Press:Cambridge.
Mabry, T. J., Markham, K. R. and Thomas, M. B. 1970. The systematic identification of flavonoids, Springer-Verlag: New York.
MacDougal, D. T. 1907. Hybridization of wild plants. Bot Gaz 43, 45-58.
Maleev, V. P. 1985. Genus 367. Quercus L., pp. 254-279. In: Komarov, V. L. (ed.), Flora of the U.S.S.R. Vol. 5. Koeltz Scientific Books: Koenigstein, Germany.
Markham, K. R. 1982. Techniques of Flavonoid Identification, Academic Press: New York.
Melchior, H. 1964. Reihe Fagales, pp. 44-51. In: Melchior, H. (ed.), A. Engler's Syllabus der Pflanzenfamilien, vol. 2. Angiospermen, 12th ed. Gebruder Borntraeger: Berlin (in German).
Mun, J. H. and Park, C. -W. 1995. Flavonoid chemistry of Polygonum sect. Tovara (Polygonaceae): A systematic survey. Pl Syst Evol 196, 153-159.
Nixon, K. C. 1993. Infrageneric classification of Quercus (Fagaceae) and typification of sectional names. Ann For Sci 50, 25-34.
Nixon, K. C. 1997. Fagaceae, pp. 436-506. In: Flora of North America Editorial Committee (ed.), Flora of North America, Vol. 3. Magnoliophyta: Magnoliidae and Hamamelidae. Oxford Univ. Press: New York.
Palmer, E. J. 1948. Hybrid oaks of North America. J Arnold Arbor 29, 1-48.
Park, C. -W. 1987. Flavonoid chemistry of Polygonum sect. Echinocaulon: A systematic survey. Syst Bot 12, 167-179.
Park, J. H. 2009. A systematic study of Quercus L. subgenus Quercus (Fagaceae) in Korea: Analyses of morphological variation and flavonoid chemistry. Ph.D. Dissertation, Seoul National University, Seoul.
Prantl, K. 1889. Fagaceae, pp. 47-58. In: Engler, A and Prantl, K. (eds.), Die naturlichen Pflanzenfamilien nebst ihren Gattungen und wichtigeren Arten insbesondere den Nutzpflanzen, bearbeitet unter Mitwirkung zahlreicher hervorragender Fachge lehrten, III. Teil. 1. Abteilung. Verlag von Wilhelm Engelmann: Leipzig. (in German).
Schneider, C. K. 1906. Illustriertes handbuch der Laubholzkunde, pp. 161-211, Verlag von Gustav Fischer: Jena, Germany. (in German).
Swain, T. 1975. Evolution of flavonoid compounds, pp. 1096-1129. In: Harborne, J. B., Mabry, T. J. and Mabry, H. (eds.), The Flavonoids Part 2. Academic Press: New York.
Trelease, W. 1917. Naming American hybrid oaks. Proc Am Philos Soc 56, 44-52.
Uyeki, H. 1932. Cupuliferae novae Koreanae. Acta Phytotax Geobot 1, 253-257.
Whittemore, A. T., and Schaal, B. A. 1991. Interspecific gene flow in sympatric oaks. Proc Natl Acad Sci USA 88, 2540-2544.
Wyatt, R. and Hunt, D. M. 1991. Hybridization in North American Asclepias. II. Flavonoid evidence. Syst Bot 16, 132-142.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.