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2024 Vol.11, Issue 4 Preview Page

Original Article

31 December 2024. pp. 145-152
Abstract
References
1

Cho, H.J., Jin, S.N., Cho, H.S., and Cho, K.H. 2017. Changes in Biomass of Salix subfragilis and S. chaenomeloides with Stand Ages in a Riparian Zone of a Sand-bed Stream. Ecology and Resilient Infrastructure 4(3): 149-155. (in Korean)

10.17820/eri.2017.4.1.044
2

Gorobets, A. and Silva, M. 2020. Willow communities, optimal absorption of carbon dioxide from the atmosphere, Earth and Environmental Science IOP Conf. Series : Earth and Environmental Science 595(2020): 012038 doi:10.1088/1755-1315/595/1/012038.

10.1088/1755-1315/595/1/012038
3

Han, S.J., Kim, H.W., Kim, H.R., Kim, H.J., Han, D.U., Park, S.K., and You, Y.H. 2010. Net primary production, annual accumulation of organic carbon and leaf decomposition in Salix plant community. Journal of Wetlands Research 12(1): 15-22. (in Korean)

4

Houghton, R.A., Hobbie, J.E., Melillo, J.M. Moore, B., Peterson, B.J., Shaver, G.R., and Woodwell, G.M. 1983. Changes in the Carbon Content of Terrestrial Biota and Soils between 1860 and 1980: A Net Release of CO2 to the Atmosphere. Ecological Monographs 53(3): 235-262.

10.2307/1942531
5

Huxley, J.S. 1932. Problems of relative growth. Lincoln Mac Veagh Dial - The Dial Press, New York, USA. p. 276.

6

Jung, H.R. and Kim, K.H. 2017. Monitoring of expansion and withering of Salix subfragilis communities in Namgang Dam reservoir. Journal of Coastal Research 79(10079): 70-74.

10.2112/SI79-015.1
7

Jung, H.R., Kim, K.H., Park, J.H., and Lee, S.B. 2013. Distribution and characteristics on water level change and Salix subfragilis community formation in Namgang-dam. Journal of the Korean Society of Environmental Restoration Technology 19(3): 1-15. (in Korean)

10.13087/kosert.2013.16.6.001
8

Kawaguchi, S., Saito, H., Kasuya, N., Ikeda, T., and Imamura, Y. 2005. Primary Production of a Young Salix subfragilis Community in Wet Abandoned Paddy Field. Journal of the Japanese Forest Society 87(5): 430-434.

10.4005/jjfs.87.430
9

Kim, C.S., Lee, P.H., and Oh, K.H. 1999. Productivity and production structure of Salix nipponica. Journal of Wetlands Research 1: 61-69. (in Korean)

10

Kim, K.H. 2022. Effects of Salix subfragilis communities on water quality in Namgang Dam reservoir. Journal of Korea Water Resources Association 55(12): 1065-1076. (in Korean)

11

Kim, T.G., Lee, P.H., and Oh, K.H. 2007. The actual vegetation map, standing crop biomass and primary productivity of Salix spp. in the Upo Wetland. Journal of Wetlands Research 9: 33-43. (in Korean)

12

Kira, T. and Shidei, T. 1967. Primary production and turnover of organic matter in different forest ecosystems of the Western Pacific. Japanese Journal of Ecology 17(2): 70-87.

13

Nowak, D.J. and Crane, D.E. 2002. Carbon storage and sequestration by urban trees in the USA. Environmental Pollution 116: 381-389.

10.1016/S0269-7491(01)00214-711822716
14

Park, J.H., Kim, K.H., and Lee, S.B. 2013. Analysis of Characteristics of Plant, Soil Physical and Chemical of Salix spp. on the Environment of Namgang Dam Reservoir. Journal of Korean Society of Forest Science 102(2): 161-160.

15

Pingrey, D.W. 1976. Forest products energy overview. In Energy and the Wood Products Industry. Forest Products Research Society Madison, Wisconsin, USA. pp. 1-14.

16

Whittaker, R.H. and Marks, P.L. 1975. Methods of assessing terrestrial productivity, in Primary Productivity of the Biosphere, edited by H. Lieth, and R.H. Whittaker, Springer-Verlag, New York, USA. pp. 55-11.

10.1007/978-3-642-80913-2_4
Information
  • 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 :4
  • Pages :145-152
  • Received Date : 2024-11-11
  • Revised Date : 2024-11-30
  • Accepted Date : 2024-12-02