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http://dx.doi.org/10.5141/JEFB.2004.27.1.049

Growth Properties of Carex kobomugi Ohwi  

Min, Byeong-Mi (단국대학교 사범대학 과학교육과)
Publication Information
The Korean Journal of Ecology / v.27, no.1, 2004 , pp. 49-55 More about this Journal
Abstract
To verify growth properties of Carex kobomugi, above and belowground parts of C. kobomugi were surveyed on coastal sand dune at Sinduri, Choongnam Province from April, 2001 to June 2003. The results were the same as follows. In coastal sand dune, C. kobomugi followed Elymus mollis from mean high tide line. Density of C. kobomugi was the highest at unstable sand dune and 150 plants/㎡. And rates of flowering plant were 70% at unstable area and 10% at stable area. C.kobomugi is thus plant that adapted to unstable sand dune. Shoot distributed irregularly. The rhizome of C. kobomugi gradually decreased with the soil depth in unstable area, but mainly distributed to 20 ㎝ depth. New rhizome could be generated from the rhizome which was below 150 ㎝ depth or 5 years old. The number and length of new rhizome were related to biomass of previous year's shoot. That was, shoots which were below 0.5 and over 3 g/shoot in dry weight generated 1 and 5 rhizomes, respectively. And the mean lengths of rhizome from small (below 0.5 g) and large (over 3.0 g) shoots were 13.0 ㎝ and 57.6 ㎝, respectively.
Keywords
개화율;밀도;생육특성;지하경;통보리사초;해안사구;
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연도 인용수 순위
  • Reference
1 Ishikawa, S.-I., T. Oikawa and A. Furukawa. 1991. Responses of photosynthesis, leaf conductance and growth to different salinities in three coastal dune plants. Ecol. Res. 6: 217-226.   DOI
2 이우철, 전상근, 김준민. 1982. 韓國海岸植物의 生態學的 硏究. - 東海岸의 砂丘植物群落의 種組成과 現存量에 關하여-. 강원대학교 논문집 16: 113-124.
3 Sasaki, Y. 1987. Relationship between wind drift and vegetation in a coastal sand dune, with special concern on Carex kobomugi. Masters Thesis, University of Tottori, Japan.
4 Barbour, M.G. 1978. Salt spray as a microenvironmental factor in the distribution of beach plants at Point Reyes, California. Oecologia 32: 213-224.   DOI
5 이우철, 전상근. 1983. 韓國 海岸植物의 生態學的 硏究.-西海岸의 砂丘植物群落의 種造成과 現存量. 한생태지 6: 177-186.   과학기술학회마을
6 서종철. 2001. 서해안 신두리 해안사구의 지형변화와 퇴적물 수지. 서울대학교 대학원 박사학위논문 96 p.
7 Ishikawa, S.-I., A. Furukawa, T. Okuda and T. Oikawa. 1993. Germination requirements in Carex kobomugi(Sea Isle). J. Plant Research 106: 240-244.
8 Kach, N. and T. Hirose. 1979. Multivariate approaches of the plant communities related with edaphic factors in the dune system at Azigaura, Ibaraki Pref. I. Association- analysis. Jap. J. Ecol. 29: 17-27.
9 Maun, M.A. 1984. Colonizing ability of Ammophila breviligulata through vegetative regeneration. J. Ecol. 72: 565-574.   DOI   ScienceOn
10 Godfrey, P.J. 1977. Climate, plant response and development of dunes on barrier beaches along the U.S. east coast. International J. Biometeorol. 21: 203-215.   DOI
11 Nobuhara, H. 1967. The influence of the cool temperature on the dune formation of Carex kobomugi. Observation of the growth form on coasts and dunes(3). Sand Dune Research 13(2): 23-26.
12 이창복. 1981. 대한식물도감. 향문사. 서울 990 p.
13 Watkinson, A.R. and A.J. Davy. 1985. Population biology of salt marsh and sand dune annuals. Vegetatio 62: 487-497.   DOI
14 Barbour, M.G. 1987. Beach vegetation and plant distribution patterns along the northern Gulf of Mexico. Phytocoenologia 15: 201-233.   DOI
15 Williams, A.T. 1998. Integrated management methods monitoring environmental changes in coastal dune ecosystem. In K.G. Barther, H. Barth, M. Bohle-Carbonell, C. Fragakis, E. Lipiatou, P. Martin, G. Ollier and M. Weydart (eds.), Proc. 3rd European Marine Science and Technology Conference, pp. 642-653, Brusells, European Commission 2.
16 Davy, A.J. and E. Fugueroa. 1993. The colonization of strandlines. In J. Miles and D.W.H. Walton (eds.), Primary Succession on Land, Blackwell, London. pp. 113-131.
17 Nakanish, H. and H. Fukumoto. 1987. Zonation of coastal vegetation and coastal topography in Southern Japan. Jap. J. Ecol. 37: 197-207.
18 Park, Y.M. 1982. An analysis for the adaptation of some coastal dune plants to water stress. Masters Thesis, University of Tokyo, Japan.
19 Garcia-Mora, M.R., J.B. Gallego-Fernandez and F. Garcia-Novo. 2000. Plant diversity as a suitable tool for coastal dune vulnerability assessment. J. Coastal Res. 16: 990-995.
20 Ishikawa, S.-I., A. Furukawa and T. Oikawa. 1995. Zonal plant distribution and edaphic and micrometeorological conditions on a coastal sand dune. Ecol. Res. 10: 259-266.   DOI
21 Nobuhara, H. and H. Miyazaki. 1974. Observations on the dune vegetation of the coast of Kuju-Kuri. Sand Dune Research 20(2): 28-35.
22 Park, B.K. and K.J. Lee. 1969. A phytosociological study of the sand dune plants on the Sung San-po Quelpart Island. J.K.R.I.B.L. 3: 161-174.
23 이우철, 전상근. 1984. 韓國 海岸植物의 生態學的 硏究.-西海岸의 砂丘植物에 關하여. 한생태지 7: 74-84.   과학기술학회마을
24 정용규, 김종원. 1998. 경북의 해안사구식생. 한생태지 21: 257-262.   과학기술학회마을
25 환경부. 2001. 우리 나라 해안사구 실태파악과 보전.관리 방안에 대하여. 환경부조사보고서 263 p.
26 Carter, R.W.G. 1991. Near future sea level impacts on coastal dunes landscapes. Landscape Ecol. 6: 29-39.   DOI
27 Costa, C.S.B., C.V. Cordazzo and U. Seeliger. 1996. Shore disturbance and dune plant distribution. J. Coastal Res. 12: 133-140.
28 Cordazzo, C.V. and U. Seeliger. 1993. Zoned habitats of southern Brazilian coastal foredunes. J. Coastal Res. 9: 317-323.
29 Ishikawa, S.-I. and N. Kachi. 1998. Shoot population dynamics of Carex kobomugi on a coastal sand dune in relation to its zonal distribution. Aust. J. Bot. 46: 111-121.   DOI   ScienceOn