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http://dx.doi.org/10.15681/KSWE.2018.34.5.447

Characteristics and Reference Information of Riparian Vegetation for Realizing Ecological Restoration Classified by Reach of the River in Korea  

Jung, Song Hie (Department of Bio & Environmental Technology, Graduate School Seoul Women's University)
Kim, Areum (Department of Bio & Environmental Technology, Graduate School Seoul Women's University)
Seol, Jaewon (Department of Bio & Environmental Technology, Graduate School Seoul Women's University)
Lim, Bong Soon (Department of Bio & Environmental Technology, Graduate School Seoul Women's University)
Lee, Chang Seok (Department of Bio & Environmental Technology, Seoul Women's University)
Publication Information
Journal of Korean Society on Water Environment / v.34, no.5, 2018 , pp. 447-461 More about this Journal
Abstract
To realize river restoration that ecological characteristics of the river are reflected, we classified the river into four reaches of valley stream, upstream, midstream, and downstream based on substrate as well as riverbed gradient obtained from the relationship between distance from the river mouth, and above sea level. Considering that the rivers of Korea have been dominated by various and intense artificial interferences over a lengthy period, we determined cross sectional range of the river based on the geological map and clarified transformation degree by reach. Vegetation profile diagram was prepared by depicting horizontal range and vertical stratification of major vegetation appearing in a belt transect of 10 m breadth installed between weirs constructed in both sides of the river. Restoration models by river reach were prepared based on breadth of waterway, bare ground, herb, shrub, and tree dominated vegetation zones on vegetation profiles wherein a flooding regime was reflected. Species composition information collected from vegetation established in each zone was systematized to use for restoring each reach ecologically. Further, background that longitudinal reaches and horizontal zones were divided, was discussed by comparing with case studies in foreign countries. In addition, necessity of ecological restoration of the river was discussed based on degree of integrity of Korean rivers, ecological significance of riparian vegetation, and importance of reference information for ecological restoration of the river.
Keywords
Integrity; Reference information; Riparian zone; River reach; River restoration;
Citations & Related Records
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1 Salinas, M. J. and Guirado, J. (2002). Riparian plant restoration in summer-dry riverbeds of southeastern Spain, Restoration Ecology, 10(4), 695-702.   DOI
2 Society for Ecological Restoration International, Science & Policy Working Group (SERI). (2004). The SER International Primer on Ecological Restoration. 15. https://cdn.ymaws.com/www.ser.org/resource/resmgr/custompages/publications/SER_Primer/ser_primer.pdf (accessed Aug. 2018)
3 Tamura, T. and Sakio, H. (2008). Ecology of riparian forests in Japan, Springer, 339.
4 Zevenbergen, C., Rijke, J. S., Van Herk, S., Ludy, J., and Ashley, R. (2013). Room for the river: International relevance, Water Governance, 3(2), 24-31.
5 Dister, E., Gomer, D., Obrdlik, P., Petermann, P., and Schneider, E. (1990). Water mangement and ecological perspectives of the upper rhine's floodplains, River Research and Applications, 5(1), 1-15.
6 Doll, B. A., Grabow, G. L., Hall, K. R., Halley, J., Harman, W. A., Jennings, G. D., and Wise, D. E. (2004). Stream restoration: A natural channel design handbook, NC Stream Restoration Institute, North Carolina State, 128.
7 Dorioz, J. M., Wang, D., Poulenard, J., and Trevisan, D. (2006). The effect of grass buffer strips on phosphorus dynamics - A critical review and synthesis as a basis for application in agricultural landscapes in France, Agriculture, Ecosystems and Environment, 117(1), 4-21.   DOI
8 Ellenberg, H. (1986). Vegetation Mitteleuropas mit den Alpen in okologischer Sicht, Eugen Ulmer Verlag, Stuttgart, 1334. [German Literature]
9 Fail, Jr. J. L., Haines, B. L., and Todd, R. L. (1987). Riparian forest communities and their role in nutrient conservation in an agricultural watershed, American Journal of Alternative Agriculture, 2(3), 114-121.   DOI
10 Fokkens, B. (2006). The Dutch strategy for safety and river flood prevention, In: Vasiliev, O., van Gelder, P., Plate, E., Bolgov, M. (eds) Extreme Hydrological Events: New Concepts for Security. NATO Science Series, 78. Springer, Dordrecht. 337-352.
11 Goodwin, C. N., Hawkins, C. P., and Kershner, J. L. (1997). Riparian restoration in the western United States: overview and perspective, Restoration Ecology, 5(4S), 4-14.   DOI
12 Goss, C. W., Goebel, P. C., and Sullivan, S. M. P. (2014). Shifts in attributes along agriculture-forest transitions of two streams in central Ohio, USA, Agriculture, Ecosystems and Environment, 197(1), 106-117.   DOI
13 Johnson, R. R. and Simpson, J. M. (1971). Important birds from blue point cottonwoods, Maricopa County, Arizona, The Condor, 73(3), 379-380.   DOI
14 Gregory, S. V., Swanson, F. J., McKee, W. A., and Cummins, K. W. (1991). An ecosystem perspective of riparian zones, BioScience, 41(8), 540-551.   DOI
15 Haycock, N. E. and Pinay, G. (1993). Groundwater nitrate dynamics in grass and poplar vegetated riparian buffer strips during the winter, Journal of Environmental Quality, 22(2), 273-278.   DOI
16 Hill, A. R. (1996). Nitrate removal in stream riparian zones, Journal of Environmental Quality, 25(4), 743-755.   DOI
17 Kelsey, K. A. and West, S. D. (1998). Riparian wildfire, river ecology and management, Naiman., R. J., and Bilby., R. E. (eds.), Springer-Verlag, New York, USA, 235-258.
18 Kim, H. J. (2010). Human and River 5. River restoration series 5 of foreign countries, Case studies on restoration of Isar river, Muenchen, Germany, River and Culture, 6(3), 93-103. [Korean Literature]
19 Kim, H. S. (2009). Diagnostic evaluation on the Korean rivers for restoration of vegetation, Master's Thesis, Seoul Women's University, 61. [Korean Literature]
20 Korea Institute of Geoscience and Mineral Resources (KIGAM). (2017). 250K Geology Map, https://mgeo.kigam.re.kr/ (accessed Dec. 2017). [Korean Literature]
21 Lee, C. S. (2016). Role and task of restoration ecology in changing environmen, Trends and issues in acedemic study, Biology, The National Academy of Sciences, 5, 481-527. [Korean Literature]
22 Lee, C. S., Ahn, J. H., Pee, J. H., Lee, S. M., and Lee, J. S. (2011). Futuristic direction of river restoration in Korea under changing climate change, Restoration Ecology, 2(2), 137-143.
23 Lee, C. S., Lee, G. S., Yi, H., You, Y. H., Kim, G. D., Park, J. H., Jeong, S. H., Kim, J. G., Cho, Y. C., Moon, H. T., Cho, K., J., and Rhyu, T. C. (2013). Restoration Ecology; Frontiers in Ecology, Life Science, Seoul, 246. [Korean Literature]
24 Lee, C. S., Cho, Y. C., Shin, H. C., Moon, J. S., Lee, B. C., Bae, Y. S., Bae, Y. S., and Yi, H. B. (2005). Ecological response of streams in Korea under different management regimes, Water Engineering Research, 6(3), 131-147.
25 Lee, C. S., Hong, S. K., and Oh, J. M. (1999). Technology for restoration of natural environment, Donghwagisul, 287. [Korean Literature]
26 Lee, C. S., Jeong, Y. M., and Kang, H. S. (2011). Concept, direction, and task of ecological restoration, Korean Journal of Restoration Ecology, 2, 59-70. [Korean Literature]
27 Lee, C. S., Moon, J. S., Woo, H. S., Ahn, H. G., Cho, G. H., Bae, Y. S., and Byun, H. G. (2006). An analysis on landscape structure and biodiversity of the Bokha river as a model to restore the degraded urban river, Journal of Ecology and Field Biology, 29, 113-124.
28 Lee, C. S., Oh, J. M.,, and Lee, N. J. (2002). Riverine environment and riparian plant, Donghwa Gisul, 296. [Korean Literature]
29 Mayer, P. M., Reynolds, S., Canfield, T., and McCutchen, M. (2005). Riparian buffer width, vegetation cover, and nitrogen removal effectiveness; A review of currrent science and regulations, United States Environmental Protection Agency, Washington, DC, EPA/600/R-05/118.
30 Ministry of Environment (ME). (2014). Survey and assessment of stream/river ecosystem health (VII), 11-1480523-002181-01, Ministry of Environment, 549. [Korean Literature]
31 Osborne, L. L. and Kovacic, D. A. (1993). Riparian vegetated buffer strips in water quality restoration and stream management, Freshwater Biology, 29(2), 243-258.   DOI
32 Agouridis, C. T., Workman, S. R., Warner, R. C., and Jennings, G. D. (2005). Livestock grazing management impacts on stream water quality: a review, Journal of American Water Resources Association, 41(3), 591-606.   DOI
33 Ministry of Environment (ME). (2017). Riverine life and human life 7. Case book of projects for ensuring connectivity of riverine ecosystem: improved installation of weir and fishway, Ministry of Environment, Seoul, 56. [Korean Literature]
34 Ministry of Environment (ME). (2017). Stream/River Ecosystem Survey and Health Assessment (X), 11-1480523-003284-01, Industry-Academia Collaboration Foundation of Konkuk University, 349. [Korean Literature]
35 Mikolaj, P., Pawel, M., Ignacy, K., Marek, G., Katarzyna, I., and Wojciech, F. (2015). Spatial quantification of non-point source pollution in a meso-scale catchment for an assessment of buffer zones efficiency, Water, 7, 1889-1920.   DOI
36 Montgomery, D. R. and Buffington, J. M. (1997). Channel-reach morphology in mountain drainage basins, Geological Society of America Bulletin, 109(5), 596-611.   DOI
37 Oteroa, J. D., Figueroa, A., Munoz, F. A., and Pena, M. R. (2011). Loss of soil and nutrients by surface runoff in two agro-ecosystems within an Andean paramo Area, Ecological Engineering, 37(12), 2035-2043.   DOI
38 Lee, K. H., Isenhart, T. M., and Schultz, R. C. (2003). Sediment and nutrient removal in an established multispecies riparian buffer, Journal of Soil Water Conservation, 58(1), 1-8.
39 Pan, C. Z., Ma, L., and Shangguan, Z. P. (2008). Influence of sediment concentration on deposition of silt and runoff hydraulics on grassland, Advances in Water Science, 19(6), 857-862.
40 Pan, C. Z., Ma, L., and Shangguan, Z. P. (2010). Effectiveness of grass strips in trapping suspended sediments from runoff, Earth Surface Processes and Landforms, 35(9), 1006-1013.   DOI
41 Bravard, J. P., Amoros, C., and Pautou, G. (1986). Impact of civil engineering works on the successions of communities in a fluvial system: a methodological and predictive approach applied to a section of the Upper Rhone River, France, Oikos, 47(1), 92-111.   DOI
42 An, J. H., Lim, C. H., Lim, Y. L., Nam, K. B., and Lee, C. S. (2014). A review of restoration project evaluation and post management for ecological restoration of the river, Journal of Restoration Ecology, 15-34. [Korean Literature]
43 Binder, W., Gottle, A., and Shuhuai, D. (2015). Ecological restoration of small water courses, experiences from Germany and from projects in Beijing, International Soil and Water Conservation Research, 3(2), 141-153.   DOI
44 Braun-Blanquet, J. (1964). Pflanzensoziologie-Grundzuge der Vegetationskunde, Springer-Verlag, Berlin, Germany, Wien, 865. [German Literature]
45 Brunet, R. C. and Astin, K. B. (1997). Spatio-temporal variations in sediment nutrient levels: the River Adour, Landscape Ecology, 12(3), 171-184.   DOI
46 Carothers, S. W., Roy Johnson, R., and Aitchison, S. W. (1974). Population structure and social organization of southwestern riparian birds, American Zoologist, 14(1), 97-108.   DOI
47 Chun, Y. M., Park, S. A., and Lee, C. S. (2007). Structure and dynamics of Korean red pine stands established as riparian vegetation at the Tsang stream in Mt. Seorak National Park, eastern Korea, Journal of Ecology and Field Biology, 30(4), 347-356.
48 Cowan, W. L. (1956). Estimating hydraulic roughness coefficients, Agricultural Engineering, 37(7), 473-475.
49 Dahlin, A. S., Emanuelsson, U., and McAdam, J. H. (2005). Nutrient management in low input grazing-based systems of meat production, Soil Use Manage, 21, 122-131.   DOI
50 Park, S., Kim, G. S., Pee, J. H., Oh, W. S., Kim, H. S., and Lee, C. S. (2013). Reference information for realizing ecological restoration of river: A case study in the Bongseonsa stream, Journal of Ecology and Environment, 36(4), 235-243.   DOI
51 Petts, G. E. (1990). Forested river corridors - a lost resource?, Cosgrove, D., and Petts, G. E., (eds.), Water Engineering and Landscape, Belhaven, London, 12-34.
52 Petts, G. E. and Calow, P. (1996). River restoration, Blackwell Science, London, England, 231.
53 Petts, G. E., Moller, H., and Roux, A. L. (1989). Historical changes of Large alluvial rivers: Western Europe, John Wiley & Sons, Chichester, England, 355.
54 Pi, J. H. (2010). Construction of vegetation information of reference river to restore the degraded river in Korean, Master's Thesis, Seoul Women's University, 142. [Korean Literature]
55 Pi, J. H. (2014). The evaluation of impact of dam construction and different levels of restoration on the naturalness of riparian vegetation and adaptive management plans for improving the naturalness of the influenced rivers of restoration, Doctor's Thesis, Seoul Women's University, 172-187. [Korean Literature]
56 Pollock, M. M. (1998). Biodiversity, Naiman., R. J., and Bilby., R. E. (eds.), Springer-Verlag, New York, USA, 430-452.
57 Rosgen, D. L. (1994). A classification of natural rivers, Catena, 22(3), 169-199.   DOI