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http://dx.doi.org/10.5338/KJEA.2014.33.2.86

Ecological Characteristics of Vascular Plants by Habitat Types of Dry Field in Jeolla-do, Korea  

Cho, Kwang-Jin (Climate Change and Agroecology Division, National Academy of Agricultural Science, RDA)
Kim, Myung-Hyun (Climate Change and Agroecology Division, National Academy of Agricultural Science, RDA)
Kim, Min-Kyeong (Climate Change and Agroecology Division, National Academy of Agricultural Science, RDA)
Na, Young-Eun (Climate Change and Agroecology Division, National Academy of Agricultural Science, RDA)
Oh, Young-Ju (Institute for Future Environmental Ecology Co., Ltd.)
Choe, Lak-Jung (Climate Change and Agroecology Division, National Academy of Agricultural Science, RDA)
Publication Information
Korean Journal of Environmental Agriculture / v.33, no.2, 2014 , pp. 86-102 More about this Journal
Abstract
BACKGROUND: According to the types of human interference, there are various plants that have strong vitality and ability to breed in the dry field. Recently, climate change alters the geographical distribution and phenology of the plant species. So, we need to understand present occurrence pattern and ecological characteristics of these plants. METHODS AND RESULTS: The plant species data were obtained from 8 regions in Jeolla-do. Flora investigation was done from May 2013 to September 2013. Habitat type of dry field in Jeolla-do was classified into 3 types (inside of dry field: IDF, embankment around the end of a dry field: EDF, levee slope of dry field: LS). The vascular plants of study area were listed 296 taxa which contain 68 families, 203 genera, 244 species, 43 varieties and 9 forms. The vascular plants of three different habitat types were IDF 174 taxa, EDF 249 taxa and LS 136 taxa. The occurrence rate of Therophyte was arranged by the order of IDF(67.6%), EDF(51.9%), LS(54.3%). Naturalized rate was analysed as IDF 27.9%, EDF 21.0%, LS 18.6%. Urbanization index was analysed as IDF 11.8%, EDF 13.7%, LS 10.0%. CONCLUSION: With these results, we found that three habitat types were ecological difference affected by the human impacts. Also, we found environmental indicators through the ecological characteristics of flora for the type of habitat of dry field. These indicators will help assess the agriculture environmental variability and the floral change according to the climate change in dry field.
Keywords
Dry field; Flora; Human impact; Life form; Naturalized rate; Urbanization Index;
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Times Cited By KSCI : 3  (Citation Analysis)
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1 Raunkiaer, C., 1934. The life forms of plants and statistical plant geography; being the collected papers of C. Raunkiaer, pp. 1-1,934, Clarendon Press, Oxford.
2 Ohkuro, T., Matsuo, K., Nemoto, M., 1996. Vegetation dynamics of abandoned paddy fields and their levee slopes in mountainous regions of central Japan, Japanese J. Ecol. 46, 245-256.
3 Park J.E., Lee I.Y., Park, T.S., Im, S.T., Mun, B.C., Kim, C.S., Jo, J.L., O, S.M., Im, I.B., Hwang, J.B., Gu, Y.C., 2003. Occurrence characteristics of weed flora in upland field in Korea, Korean. J. Weed Sci. 23, 277-284.   과학기술학회마을
4 Park, S.H., 2009. New illustrations and photographs of naturalized plants of Korea, pp. 1-575, Ilchokak, Korea.
5 Ryang, H.S., Chun, J.C., Hwang, I.T., 1984. Change in weed flora with season and cultivated crop and land, Korean. J. Weed Sci. 4, 4-10.   과학기술학회마을
6 Song, J.S., 1997. A phytosociological study on the weed communities in the cultivated and abandoned fields of Korea, Korean J. Ecol. 20, 191-200.   과학기술학회마을
7 Wilson, J.B., Lee, W.G., 1989. Infiltration invasion, Functional Ecology 3, 379-380.
8 Yim, Y.J., Jeon, E.S., 1980. Distribution of naturalized plants in the Korean Peninsula, Korean. Jour. Bot. 23, 69-88.   과학기술학회마을
9 Kim, J.W., Lee, Y.K., 2006. Classification and assessment of plant communities, pp. 1-240. Worldscience, Korea.
10 Chang, Y.H., Kim, C.S., Youn, K.B., 1990. Weed occurrence in upland crop fields of Korea, Korean J. Weed Sci. 10, 294-304.   과학기술학회마을
11 Cho, K.J., Oh, Y.J., Kang, K.K., Han, M.S., Na, Y.E., Kim, M., Choe, L.J., Kim, M.H., 2013. Occurrence and distribution of $C_4$ plants under diverse agricultural field types in Korea, Korean J Agric Forest Meteorol. 15, 85-101.   과학기술학회마을   DOI   ScienceOn
12 Kim, J.W., 2004. Vegetation ecology, pp. 1-308, Worldscience, Korea.
13 Kim, M.H., Han, M.S., Kang, K.K., Na, Y.E., Bang, H.S, 2011. Effects of climate change on C4 plant list and distribution in South Korea: A Review, Korean J Agric Forest Meteorol. 13, 123-139.   DOI   ScienceOn
14 Lee, Y.M., Park, S.H., Jung, S.Y., Oh, S.H., Yang, J.C., 2011. Study on the current status of naturalized plants in South Korea, Korean J. Pl. Taxon. 41, 87-101.
15 Lee, T.B., 2003. Illustrated flora of Korea, pp. 1-1,928, Hyangmunsa, Korea.
16 Lee, W.T., 1996a. Standard illustrations of Korean plants, pp. 1-624, Academy Press., Korea.
17 Lee, W.T., 1996b. Lineamenta florae Koreae, pp. 1-1,688, Academy Press., Korea.
18 Numata, M., 1975. Naturalized plants pp. 1-160, Japanese books, Japan.
19 Carroll, C.R., Vandermeer, J.H., Rosset, P.M., 1990. Agroecology, in: Weiner J. (Eds), Plant Population Ecology in agriculture, Mcgraw-Hill Inc., United States of America, p. 235.
20 Oh, Y.J., 2006, Phytosociological classification of semi-natural vegetation and environmental assessment of havitat in the agricultural area. doctoral dissertation, pp. 1-152, Kangwon National University, Korea.
21 Korea National Arboretum and The Plant Taxonomic Society of Korea. 2007. A synonymic list of vascular plants in Korea, pp. 1-534, Korea National Arboretum, Korea.