Browse > Article
http://dx.doi.org/10.17663/JWR.2013.15.4.501

Studies on β-diversity for high plant community turnover in flood plain restoration  

Han, Young-Sub (Department of Biology, Kongju National University)
Kim, Hae-Ran (Department of Biology, Kongju National University)
Han, Seung-Ju (Department of Biology, Kongju National University)
Jeong, Jung-Kyu (Department of Biology, Kongju National University)
Lee, Seung-Hyuk (Department of Biology, Kongju National University)
Jang, Rae-Ha (Department of Biology, Kongju National University)
Cho, Kyu-Tae (Department of Biology, Kongju National University)
Kang, Tay-Gyoon (Biotechnology laboratory, Kongju National University)
You, Young-Han (Department of Biology, Kongju National University)
Publication Information
Journal of Wetlands Research / v.15, no.4, 2013 , pp. 501-508 More about this Journal
Abstract
We have researched heterogeneity of naturalized river plant community by ${\beta}$-diversity for restoration of river community which has high diversity plant species. As a result the average of heterogeneity was 0.32(range 0.23~0.37) from the river to the inland. This value shows community turnover of species composition of plant communities 6 times. The ${\beta}$-diversity was no difference among water system of Seomjin river, Han river, Nakdong river and Geum river. The upper-river valley(0.36) was higher than lower-river valley(0.23) in each water system(p level<0.05). Multiple regressing analysis was used for look the relationship with Environmental factors as a result, it shows ${\beta}$-diversity significant on a slope. River mimetic diagram with dominant species that appear through Belt-transect painted. Dominant plant species turned 6 time in upper-river and turned about 5 time in lower-river. The result of this study suggested practical basis of planting species and planting pattern. To improve species diversity of river plant community, slope degree raise is the most important.
Keywords
Belt-transect; Heterogeneity; Naturalized river; River vegetation; River plant community;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Ann, GY and Lee, EH (2000). A study on the plan of plant state for improvement of stream-ecosystem-in case of chungrang stream, Journal of Korean Environmental Restoration & Revegetation Technology, 3(2), pp. 35-46. [Korean Literature]
2 Ann, SH (1995). River of South Korea, Minumsa, pp. 36-62. [Korean Literature]
3 Bae, JH, Lee, KJ and Han, BH (2008). Research on characteristics of vegetation subsequent to crossing structure of the urban streams, Korean Journal of Environment and Ecology, 22(3), pp. 268-279. [Korean Literature]
4 Cho, HJ and Yoon, JC (2009). Research on the method used to select an adequate rehabilitation plan for natural river based on the river's degree of naturalness, Journal of Wetlands Research, 11(3), pp. 71-80. [Korean Literature]
5 Gunkel, G (1996). Renaturierung Kleiner Fliessgewaesser, Gustav Fischer Verlag Jena, Stuttart.
6 Hauer, FR and Lamberti, GA (1996). Methods in Stream Ecology, Academic Press, pp. 579-589.
7 Heo, EB (2010). Studies on the Woody Vegetation in the edge of Natural River for Ecological Restoration in Korea, Master's Thesis, Kongju University. [Korean Literature]
8 Hupp, CR and Osterkamp, WR (1996). Riparian vegetation and fluvial geomorphic processes, Geomorphology, Vol. 14. pp. 277-295.   DOI   ScienceOn
9 Iowa State University (1997). Stewards of our Streams: Buffer Strips Design, Establishment and Maintenance, Leopold Center.
10 Jeon, YH, Kim, JK and Kim, CG (2007). Future prospects of aquatic ecosystem restoration project in korea, Journal of Environmental Research, 4, pp. 27-34. [Korean Literature]
11 Joo, GJ, Kim, HW and Ha, K (1997). The development of stream ecology and current status in korea, The Korean Journal of Ecology, 20(1), pp. 69-78. [Korean Literature]
12 Kim, HJ, Shin, BK, You, YH and Kim, CH (2008). A study on the vegetation of the present-day potential natural state of water for flood plain restoration in south korea, Korean Journal of Environment and Ecology, 22(5), pp. 564-594. [Korean Literature]
13 Kim, HJ, Shin, BK and You, YH (2011). A study on the planning of riparian forest in flood plain, korea, Korean Journal of Environment and Ecology, 25(2), pp. 189-210. [Korean Literature]
14 Kraus, W (1994). Uferstreifen-Unverzichtbare Bestandteile von Tallandschaften. In: Zeitschrift Fuer Kulturtechnik und Land-Entwicklung, Literaturangaben, 35(3), pp. 130-139.
15 Kim, JH, Koh, SD, Lee, HS, Oh, KH, Ihm, BS, Cho, KJ, Cho, DS, Min, BM, Seo, GH, Lee, JS, Jeong, YS, Lee, CS, Cho, KH, Ryu, TC, Lee, KS, You, YH and Kim, JY (2005). Modern-Ecology Experimental, Kyomunsa, pp. 29-31. [Korean Literature]
16 Korea Institute of Construction Technology (KICT) (2002). River Restoration Guideline, Ministry of Environment, pp. 255. [Korean Literature]
17 Korea Water Resources Corporation (KWRC) (1999). Water Resources Information of new Millennium, Korea Water Resources Corporation, pp. 1-28. [Korean Literature]
18 Krause, A (2000). Uber Motive fur die okologische Verbesserung von Wasserlaeufen, Angewandte Landschaftsoekologie, pp. 9-11.
19 Kwon, HJ (1999). Geomorphology, Bobmunsa, pp. 90-94. [Korean Literature]
20 Large, ARG, Prach, K, Bickerton, MA and Wade, PM (1994). Alteration of Patch Boundaries on the Floodplain of the Regulated River Trent, UK. Regulated Rivers: Research and Management, 9(1), pp. 71-78.   DOI   ScienceOn
21 Lee, CB (2003). Coloured Flora of Korea, Hyangmunsa. [Korean Literature]
22 Lee, HH, Han, Y, Kim, DI, Jeong, SJ and Kim, YS (1996). Geoenvironmental System 1: Topography.Meteorological Phenomena, Kyohaksa. [Korean Literature]
23 Lee, KS and Cho, DS (1999). Spatial distribution of herbal vegetation along microtopographic formed by disturbance in a temperate deciduous hardwood forest, Journal of Ecology and Field Biology, 22(4), pp. 211-217. [Korean Literature]
24 Lee, WC (1996). Coloured Standard Illustrations of Korean Plants, Academybook. [Korean Literature]
25 Ministry of Environment (MOE). (2002). Stream Restoration Guideline, Seoul City. [Korean Literature]
26 Ministry of Environment (MOE). (2007). Ministry of Environment Report, Seoul City. [Korean Literature]
27 Noh, HJ and Jeong, HY (2002). Understanding of Statisti cal Analysis by STATISTICA, Hyungseul Publishing, p p. 535-544. [Korean Literature]
28 Ministry of Land, Transport and Maritime Affairs (MLTM) (2002). Nature-Friendly River Management Guideline, Ministry of Construction & Transportation. [Korean Literature]
29 Ministry of Land, Transport and Maritime Affairs (MLTM) (2007). Landscape Design Standard, The Korean Institute of Landscape Architecture. [Korean Literature]
30 Ministry of Land, Transport and Maritime Affairs (MLTM) (2009). River Design Standard, Korea Water Resources Corporation. [Korean Literature]
31 Park, BK (2011). A Study on the Vegetation Restoration Model Depending on the Planting Foundation of Low-Water Revetment in Ecological River, Doctoral Dissertation, Dankook University, pp. 1-4. [Korean Literature]
32 Park, JS and Yoon, YS (2008). Modern-Statistics, Dasanbooks, p. 526. [Korean Literature]
33 Shields, FD, Bowie, AJ and Cooper, CM (1995). Control of streambank erosion due to bed degradation with vegetation and structure, Water Resource Bulletin, 31(3), pp. 75-488.
34 Splett, G (2000). Einfluss von Strukturverbesserungen auf Selbstreinigungskraft und Gutezustand von Fliessgewassern - Eine Ubersicht, WASSERWIRTSCHAFT, 90(7-8), pp. 380-383.
35 Vannote, RL, Minshall, GW, Cummins, KW, Sedell, JR and Cushing, CE (1980). The River Continuum Concept, Canadian Journal of Fisheries and Aquatic Sciences, 37(1), pp. 130-137.   DOI
36 Van Andel, J and Aronson, J (2006). Restoration Ecology, Blackwell Publishing, pp. 141-157.
37 Wilson, MV and Shmida, A (1984). Measuring beta diversity with presence-absence data, Journal of Ecology, 72(3), pp. 1056-1061.
38 Wilson, MV and Shmida, A (1985). Biological determination of species diversity, Journal of Biogeography, 12(1), pp. 3-12.
39 Magurran, AE (1988). Ecological Diversity and Its Measurement, Princeton University, New Jersey.
40 Yoo, YH, Gi., KJ, Han, DY, Kwak, YS and Kim, JH (1995). Succession and heterogeneity of plant community in Mt. yongam, kwangnung experimental forest, The Korean Journal of Ecology, 18(1), pp. 89-97. [Korean Literature]