All Issue

2024 Vol.11, Issue 2 Preview Page

Original Article

30 June 2024. pp. 43-54

Aga, K., Michioku, K., Kanda, K., and Uotani, T. 2012. Analysis on Forestation Mechanism of River Channel Base on Morphological Change for Sustainable River Management. Japan Society of Civil Engineering 68(4): 745-750. (in Japanese)


Ahn, H.K. and Lee, D.J. 2023. Current status and management plan of stream forestation in Jang-Hang Wetland. Society of Applied Ecological Engineering Academic conference paper. (in Korean)


Ahn, H.K., Kim, S.N., Chung, S.J., Lee, D.J., and Lee, S.H. 2012. Topographical change of sandbar and vegetation settlement in Jang-Hang wetlands for Han River Estuary Wetlands Restoration. Korean Wetlands Society 14(2): 277-288. (in Korean)


APAC (Animal Protection Association of the republic of China). 2019. The landization of the Guandu Natural Reserve Area in proposed to be disorganized by the North City Report. (


Baek, K.O. and Im, D.H. 2011. Flow Characteristics Induced by Shift and Modification of Submerged Weir at Han River Estuary. Journal of the Korean Society of Civil Engineers 31(2B): 109-119. (in Korean)


Choi, M.K., Lee, S.H., and Choi, J.K. 2010. A Study of the Geomorphological Process and Vegetation Distribution of Sand-bars on the Tan-cheon River. Journal of the Korean Instituet of Landscape Architecture 37(6): 96-105. (in Korean)


Fujita, K., Lee, S., Watanabe, S., Tsukahara, T., Yamamoto, K., and Mochizuki, T. 2003. Mechanism and Simulation of the Expansion and Extinction of Stable Vegetation Areas in a Gravel-Bed Alluvial Fan River. Japan Society of Civil Engineers Journal 2(747): 41-60. (in Japanese)


Han River Flood Control Office.


Hasegawa, T. and Kudou, N. 2022. Environmentally conscious river excavation in the lower reaches of the Tama River. Japan Ministry of Land, Infrastructure, Transport and Tourism Kantou Regional Development Bureau. skil-up seminal materials book. pp. 1-4. (in Japanese)


Ikeda, T., Maeda, R., Nakamura, T., and Yokoyama, H. 2004. A study on nature restoration of the Shinaano River changing natural environment. Riverfront Research Institute report No.15, pp. 1-8. (in Japanese)


Kayaba, Y. 1998. Current status and circumstances of river forestation. 32nd Japan Aquatic Environment Society Lecture collection. (in Japanese)


Kayaba, Y. and Shimatani, H. 1995. A study on long-term changes in river beds of alluvial fans and their causes. Japanese Society of Civil EngineErs Irrigation Division Report pp. 191-196. (in Japanese)


Keihin River Office(KRO). 2017. Tama River river environment. Presentation material for the 15th River Natural Regeneration Seminar. (in Japanese)


Kim, S.J. 2008. A Study on the Variation of Groundwater Level in the Han River Estuary (The Effect of the Removing of a Weir). Journal of Korean Society of Coastal and Ocean Engineers 20(6): 589-601. (in Korean)


Lee, S.H. and Hwang, S.R. 2006. Formation process of Jang-Hang Wetland at the mouth of the Han River. Construction Technology Information pp. 17-22. (in Korean)


Lee, S.H., Ock, G.Y., and Choi, M.K. 2008. A Study on the Expansion Process of Vegetation on Sand-bars in Fluvial Meandering Stream. Korean Journal of Environment and Ecology 22(6): 658-665. (in Korean)


Ministry of Environment(MoE). 1995-2020. Korea Annual Hydrological Report. (in Korean)


Ministry of Environment(MoE). 2021. The plan of Korean rivers Natural Restoration. (in Korean)


Ministry of Land, Infrastructure and Transport / Seoul Regional Land Management Agency(MLIT). 2020. A Basic Plan for the Han River(Paldang Dam ~ Estuary). (in Korean)


Ministry of Land, Infrastructure and Transport and Toruism (MLITS). 2013. Kushiro Wetland Nature Restoration Project Report pp. 49-61. (in Japanese)


Mori, T., Nagayama, S., Nakamura, K., and Kayaba, Y. 2018. Degradation Mechanisms and Restoration Methods for Lowland River Floodplains with High Biodiversity. Civil Engineering Data No.60-11, pp. 14-17. (in Japanese)


Okabe, T. 2003. Obserbation and simulation of stream water temperature affected by Masaki Dam operation. The First Annual Joint Seminar between Korea and Japan on Ecology and Civil Engineering. (in Japanese)


Oojaki, S. and Watanabe, K. 2008. Examination of topographical changes and water passage capabilities of the keys in the Kita Kawa Tekino district. Japanese Society of Civil Engineers Western Branch Research Presentation Materials pp. 247-248. (in Japanese)


Ozawa, K. and Shimizu, Y. 2016. Study on Forestation Suppressing by Using Flood Disturbance based on Dynamics of Young Riverine Trees After Felling.Japan Society of Civil Engineering 72(4): 1057-1062. (in Japanese)


Sugio, S. and Watanabe, K. 2004. Research on the Change of Topographical Eeatures and Vegetated Region on Floodplain in Kita River. Journal of the Japanese Society of Hydrological Engineering 48: 985-990. (in Japanese)


Tsujimoto, T. 1993. Characteristics of Main Vegetation Colony and River Channel in Tedori driver alluvial Fan Section. Report of the Japan Sea Research Institute at Kanajawa University 25: 83-99. (in Japanese)


Watanabe, T. 2018. Research on the phenomenon and continuous development of natural regeneration projects targeting wetlands. Tokyo University doctoral thesis. (in Japanese)


Wikipedia. 2023. Accessed 10 April 2023.


Woo, H.S., Julien, P.Y., and Richardson, E.V. 1986. Washload and Fine Sediment Load. Journal of Hydraulic Engineering 112(6): 541-545. (in Korean)


Yeom, J.H., Han, B.H., and Lee, K.J. 2010. A Study on the Possibility of Designating Ramsar Site in Large-scale Wetlands and Management Plan. Korean Journal of Environment and Ecology 24(3): 249-257. (in Korean)

  • Publisher :Korean Society of Ecology and Infrastructure Engineering
  • Publisher(Ko) :응용생태공학회
  • Journal Title :Ecology and Resilient Infrastructure
  • Journal Title(Ko) :응용생태공학회 논문집
  • Volume : 11
  • No :2
  • Pages :43-54
  • Received Date : 2024-05-30
  • Revised Date : 2024-06-17
  • Accepted Date : 2024-06-20