All Issue

2019 Vol.6, Issue 2 Preview Page

June 2019. pp. 101-108
Abstract


References
1 

Bovee, K.D. 1982. A guide to stream habitat analysis using the instream flow incremental methodology, Instream Flow Information Paper No. 12, Fish and Wildlife Service, U.S. FWS/OBS-82/26, Fort Collins, CO.

2 

Chegal, S.D., Cho, G.J., Choi, and Kim, C.W. 2016. Development of Hydraulic Analysis and Assessment Models for the Restoration of Ecological Connectivity in Floodplains isolated by Levees, Ecology and Resilient Infrastructur 3: 307-314. (in Korean)

10.17820/eri.2016.3.4.307
3 

Hong, I., Kang, J.G., Kang, S.J. and Yeo, H.G. 2012. Functional Assessment for Preservation and Restoration of Wetland-type Old River Channel: Mangyoung River, Journal of the Korea Society of Civil Engineers 32: 213-220. (in Korean)

10.12652/Ksce.2012.32.4B.213
4 

Ji, U., Julien, P.Y., Kang, J.G. and Yeo, H.K. 2010. Stable Channel Analysis and Design for the Abandoned Channel Restoration Site of Cheongmi Stream using Regime Theory, Journal of the Korean Society of Civil Engineers 30: 305-313. (in Korean)

5 

Ji, U. Kang, J.G., Yeo, W.K. and Han, S.W. 2009. Evaluation of Channel-forming Discharge for the Abandoned Channel Restoration Design of Cheongmi Stream, 42: 1113-1124. (in Korean)

10.3741/JKWRA.2009.42.12.1113
6 

Kang, J.H., Lee, E.T., Lee, J.H. and Lee, D.H. 2004. Estimation of River Instream Flow Considering Fish Habitat Conditions, Journal of the Korea Water Resources Association 37: 915-927. (In Korean)

10.3741/JKWRA.2004.37.11.915
7 

KICT. 2009. Guideline for old river and abandoned channel restoration, Korea Institute of Construction and Technology, EcoRiver 21 Technical Report No. 27, pp 149. (in Korean)

8 

Kim, S.H., Kim, D. and Cho, K.H. 2015. Evaluation of habitat improvement using two-dimensional fish habitat modeling after the connectivity restoration in an isolated former channel, Ecology and Resilient Infrastructure 2: 137-146. (in Korean)

10.17820/eri.2015.2.2.137
9 

Kim, S.J. 2018. Prediction of morphological change in a stream with a restored untended reach using 2D hydrodynamic model. Master’s thesis, Yonsei University, Seoul. (in Korean)

10 

Kim, S.K. and Choi, S.U. 2017. Computation of composite suitability index for fish and macroinvertebrate species in the Gongneung River, Ecology and Resilient Infrastructure 4: 105-114. (in Korean)

11 

Kim, S.K. and Choi, S.U. 2018. Prediction of suitable feeding habitat for fishes in a stream using physical habitat simulations, Ecological Modelling 385: 65-77.

10.1016/j.ecolmodel.2018.07.014
12 

Kim, S.K. and Choi, S.U. 2019. Comparison of environmental flows from a habitat suitability perspective: A case study in the Naeseong-cheon Stream in Korea, Ecohydrology, e2119.

10.1002/eco.2119
13 

Lee, W.H. and Choi, H.S. 2016. Physical Disturbance Improvement Evaluation and Habitat Suitability Analysis by Stable Channel Design, Ecology and Resilient Infrastructure 3:285-293. (in Korean)

10.17820/eri.2016.3.4.285
14 

Milhous, R.T., Updike, M.A. and Schneider, D.M. 1989. Physical habitat simulation system reference manual-version II., Information Paper No. 26., U.S. Fish and Wildlife Service, FWS/OBS-89/16, Fort Collins, CO.

15 

MLTMA. 2011. Basic plan for the Cheongmi Stream, Ministry of Land, Transport and Maritime Affairs, Seoul Regional Construction & Management Administration. (in Korean)

16 

MOE. 2016. Research and investigation for the old river channel restoration, Ministry of Environment, Korea Institute of Construction Technology, p 125. (in Korean)

17 

MOLIT. 2013. A report on the abandoned channel restoration of the Cheongmi-cheon Stream, Ministry of Land, Infrastructure and Transport, Seoul Regional Construction & Management Administration, p 376. (in Korean)

Information
  • Publisher :Korean Society of Ecology and Infrastructure Engineering
  • Publisher(Ko) :응용생태공학회
  • Journal Title :Ecology and Resilient Infrastructure
  • Journal Title(Ko) :응용생태공학회 논문집
  • Volume : 6
  • No :2
  • Pages :101-108
  • Received Date :2019. 06. 21
  • Revised Date :2019. 06. 24
  • Accepted Date : 2019. 06. 24