Browse > Article
http://dx.doi.org/10.17663/JWR.2014.16.4.327

Study on Flooding Tolerance of Salix Species for Ecological Restoration of the River  

Kim, Eun Jin (River Experiment Center, Korea Institute of Civil Engineering and Building Technology)
Kang, Joon Gu (River Experiment Center, Korea Institute of Civil Engineering and Building Technology)
Yeo, Hong Koo (River Experiment Center, Korea Institute of Civil Engineering and Building Technology)
Kim, Jong Tae (River Experiment Center, Korea Institute of Civil Engineering and Building Technology)
Publication Information
Journal of Wetlands Research / v.16, no.4, 2014 , pp. 327-333 More about this Journal
Abstract
The vegetation composition for river restoration requires the introduction of plants which have strong flooding tolerance. A study of the growth characteristics of river plants according to the period of flooding is essential. Accordingly, this study measured shoots, leaf number, leaf greenness, dry weight of the plants of Salix species, analyzed their growth rate according to flooding tolerance and the period of flooding, and contrasted the results with those of a flooding experiment in turbid water. The results of this experiment showed that Koreensis is the plant which has the strongest flooding tolerance and flooding in fresh water leads to a much lower risk of the plants being withered than in high turbid water. In addition, the results showed that the condition of the period of flooding of twenty days and under contributes to more growth and development of the plants of Salix species than the condition of non-flooding.
Keywords
Flooding Tolerance; Stream Plants; Salix Species; River Restoration;
Citations & Related Records
Times Cited By KSCI : 5  (Citation Analysis)
연도 인용수 순위
1 Kim, JT, Kim, EJ, Kang, JG and Yeo, HK (2013a). Impact of turbidity on protected plants along river levees, J. of Engineering Geology, 23(2), pp. 161-170. [Korean Literature]   DOI   ScienceOn
2 Kim, JT, Kim, EJ, Kang, JG and Yeo, HK (2013b). Variation on the growth rate of plants by submersion of high turbidity -A case study on Salix species-, J. Korea Water Resources Association, 46(9), pp. 959-969. [Korean Literature]
3 Kim, WS, Kwak, JI, Lee, KJ and Han, BH (2011). A study on characteristics of vegetation distribution according to revetment techniques of riverbank in Han river, Korea, J. of Environment & Ecology, 25(1), pp. 17-30. [Korean Literature]
4 Lee, SD, Kang, HK and Jang, HS (2010). Monitoring of vegetation changes after constructing the vegetation-mat measures for greening in embankment-A case study of tancheon, J. Environment & Ecology, 24(3), pp. 302-317. [Korean Literature]
5 Shin, BK, Kim, HJ, Choi, GW and Han, MS (2012). A study on the effect of water level and inundation period on the plant coverage of revegetation methods of stream bank in the coastal reclaimed land, J. of Environment & Ecology, 26(3), pp. 437-445. [Korean Literature]
6 Park, SH, Park, CM and Oh, HK (2008). Growth characteristics of 4 IRIS species by flooding periods for revegetation plants selection in water level changing slopes, J. of Environment & Ecology, 22(6), pp. 640-647. [Korean Literature]
7 Park, JM (2002). Comparing of flooding tolerance of herbaceous plants for selecting useful revegetation plants in shoreline slopes of lake, J. of Korean Environmental Restoration Technology, 5(2), pp. 25-33. [Korean Literature]
8 Piekielek, WP, Fox, RH, Toth, JD and Macneal, KE (1995). Use of a chlorophyll meter at the early dent stage of corn to evaluate nitrogen sufficiency, J. of Agronomy, 87, pp. 403-408.   DOI   ScienceOn
9 Shin, JI (1999). Analysis of vegetation variation after the rehabilitation treatment of stream, J. of Korean Environmental Restoration Technology, 2(3), pp. 10-17. [Korean Literature]
10 Song, JS (2001). A phytosiciological study of the shrubby and herbaceous vegetation of the riverside in the upper stream of Nak-dong river, Korea, J. of Environment & Ecology, 15(2), pp. 104-117. [Korean Literature]
11 Domingo, R, Perez-Paster, A and Ruiz-Sanchez, MC (2002). Physiological responses of apricot plant grafted on two different rootstocks to flooding conditions, J. of Plant Physiological ecology, 159, pp. 725-732.   DOI   ScienceOn
12 US Fish and Wildlife Service (2008). Effects of long duration flooding on riparian plant Sspecies in restoration plantings, San Joaquin River National Wildlife Refuge, Stanislaus County, California.
13 Woo, HS and Kim, ST (2000). A review and understanding of stream corridor restoration, J. of Korean Environmental Restoration Technology, 3(3), pp. 126-144. [Korean Literature]
14 Anderson, PH and Pezeshki, SR (1999). The effect of intermittent flooding on seedling of three forest species, J. of Photosynthetica, 37, pp. 543-522.
15 Han, YS, Kim, HR, Han, SJ, Jeon, JK, Lee, SH, Jang, RH, Cho, KT, Kang, TK and You, YH (2013). Studies on ${\beta}$-diversity for high plant community turnover in flood plain restoration, J. of Wetlands Research, 15(4), pp. 501-508. [Korean Literature]   DOI
16 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]
17 Kang, SB, Jang, HI, Lee, IB, Park, JM and Moon, DK (2007). Change in photosynthesis and chlorophyll fluorescence of 'Campbell Early' and 'Kyoho' grapevine under long-term waterlogging Condition, J. of Horticultural Science & Technology, 25(4), pp. 400-407. [Korean Literature]
18 Kim, MH, Shin, JC and Lee, BW (2005). Applicability of vegetation index and SPAD reading to nondestructive diagnosis of rice growth and nitrogen nutrition status, J. of Crop Science, 50(6), pp. 369-377. [Korean Literature]
19 Park, JM and Choi, GH (2001). Study on the flooding tolerance of some woody plants for selecting useful revegetation plants in lake and marsh slopes, J. of Korean Environmental Restoration Technology, 4(2), pp. 45-51. [Korean Literature]
20 Liao, CT and Lin, CH (1994). Effect of flooding stress on photosynthetic activities of Momordica charantia. Plant Physiological Biochemistry, 32, pp. 1-5.
21 Kercher, SM and Zedler, JB (2004). Flood tolerance in wetland angiosperms: a comparison of invasive and non-invasive species, J. of Aquatic Botany, 80, pp. 89-102.   DOI   ScienceOn
22 Kim, TG, Chae, SK, Chun, SH and Jeong, JC (2012). A study of pull-out strength increasement by root of grasses, J. of Wetlands Research, 14(2), pp. 199-210. [Korean Literature]