'녹색성장'과 지형학적 연구의 기여

'Green Growth' and the Possible Contribution of Geomorphologic Studies

  • 김종연 (충북대학교 사범대학 지리교육과)
  • Kim, Jong-Yeon (Department of Geography Education, Chungbuk National University)
  • 투고 : 2010.03.03
  • 심사 : 2010.03.16
  • 발행 : 2010.03.31

초록

녹색성장은 2005년 이후 논의가 집중적으로 이뤄진 환경과 경제의 조화를 통한 지속기능사회를 건설하기 위한 전략이다. 녹색성장의 개념은 유엔에 의하여 정립되었으며, 아시아 태평양 국가들과 OECD의 새로운 발전 패러다임으로 수용되었다. 이 개념은 2008년 발생한 지구적인 경제 위기의 와중에서 지속가능한 사회를 지향하는 경기 부양 정책을 의미하는 그린뉴딜로 다시 정의되었다. 이에 반하여 한국의 국가 정책 기조로 채택된 녹색성장은 에너지 효율성을 제고하고 관련 기술을 강화하는 경제 성장의 새로운성장 동력으로서의 녹색을 강조하는 한계점을 지니고 있다. 본 고에서는 해외에서 통용되는 녹색성장의 개념과 한국의 녹색성장의 개념을 비교검토하여 기후변화등 환경의 위기에 대응하고 사회적 환경적 지속가능성을 증진하여 지속가능한 사회를 지향하는 발전 정책으로 정의하였다. 지형학은 자연 재해 등에 대한 기후 변화의 영향에 대한 대비 부분에 상당한 기여를 할 수 있을 것으로 생각된다. 특히 재해에 대응하기 위한 지형학도의 작성, 산지 하천의 홍수 관련 연구, 고재해 연구, 해안의 위험성에 대한 연구 등은 시급히 이뤄져야 할 것이다.

'Green growth' is the development strategy for the sustainable society through the harmony between the environment and economy. The 'green growth' was defined and accepted by UNESCAP and countries in Asia-Pacific region. OECD also accepted it as their new development policy. 'Green New Deal' was also proposed as a new social/economic policy to response three global crisis: environmental, resources and economic. Social and environmental sustainability are the most important principles of this policy. In Korea, however, the 'green growth' is redefined and used by the government and politicians as an economic policy to support the new technology on energy efficiency and renewable energy. In here, the definitions of green growth in the world and in Korea are analysed and compared, and new term is proposed. Green growth is the development policy to response environmental crisis (ie. climate changes) to transform the society to environmentally and socially sustainable one. The possible contribution of geomorphologic researches to green growth was also proposed.

키워드

참고문헌

  1. Baker, V. R., Webb, R. H., and House, P. K., 2002, The scientific and social value of paleoflood hydrology, in House, P. K, Webb, R. H., Baker, V. R., and Levish, D. R.(eds.), Ancient Floods Modern Hazards, American Geophysical Union, Washington, DC.
  2. Bambino, G., Gurnell, A. M., Tamburino, V., Zema, D. A., and Zimbone, S. M., 2009, Adjustments in channel form, sediment calibre and vegetation around check-dams in the headwater reaches of mountain torrents, Calabria, Italy, Earth Surface Processes and Landforms, 34, 1011-1021.
  3. Brierley, G. J., Fryirs, K. A., and Hillman, M., 2008, River futures, in Brierley, G. J. and Fryirs, K. A.(eds.), River Futures-An Integrative Scientific Approach to River Repair, Island Press, Washington, DC, 273-285.
  4. Bishop, P., 2006, Geomorphological approaches to flood management and catchment management, International Symposium on Sustainable Flood Management of Korea, PCSD & Ministry of Construction and Transportation, Korea.
  5. Cheon, D. Y., 2009, A study on strategies and purpose of green growth policy, Proceeding, 2009 Korea Policy Association Summer Meeting, 249-268 (in Korean).
  6. Cho, K. W., 2010, Evaluation of coastal erosion by rising sea level, Proceeding, Progress in Climate Change Research of KEI, Korea Environment Institute, 103-116.
  7. Cooke, R. U. and Doornkamp, J. C., 1990, Geomorphology in Environmental management, Oxford University Press.
  8. Dini, M., Mastronuzzi, G., and Sanso, P., 2000, The effects of relative sea level changes on the coastal morphology of Southern Apulia(Italy) during the Holocene, in Slaymaker, O.(ed.), Geomorphology, Human Activity and Global Environmental Change, John Wiley & Sons, 43- 65.
  9. Dubrovin, T., Keskisarja, V., Sane, M., and Silander, J., 2006, Flood management in Finland- Introduction of a new information system, 7th International Conference on Hydroinformatics, Nice, France.
  10. International Commission for the protection of the Rhine, 2001, Rhine 2020:Program on the Sustainable Development of the Rhine, Conference of Rhine Ministers 2001, 27p.
  11. Jeon, K. R. and Lee, J. W., 2009, A discussion on regional cooperation for green growth between Korea and China, China Study, 47, 497-519 (in Korean). https://doi.org/10.18077/chss.2009.47..026
  12. Keum, H. S., 2009, Direction of environmental technology industry policy for green growth, Journal of Environmental Engineering, 31(3), 173-176 (in Korean).
  13. Kim, J. Y., 2008, Climate change and legislation, in Choi, D. K.(ed.), Social Change and Legislation, Oreum, Seoul, 235-255 (in Korean).
  14. Kim, J. Y. and Park, C. S., 2008, A study on flood risk mapping and applications for sustainable flood management policy in Korea, Journal of the Korean Geomorphological Association, 15(1), 67-82 (in Korean).
  15. Kim, J. Y., 2009, A study on the policy and situation of sediment check dams- Case of Gangwon Province, Korea, Journal of the Korean Geomorphological Association, 16(4), 131-144 (in Korean).
  16. Kim, Y. H., 2009, A review on climate change law and green growth low, Euijeong Yungu, 15(1), 327-336 (in Korean).
  17. Lee, J. H., 2009, Economics of extreme climate, SERI Economy Focus, 278, 1-10 (in Korean).
  18. Lee, J. Y., Holzapfel, G., J. M., Kim, Y. I., Do, H. K., Park, Y. C., Seo, B. S., Ahn, J. W., Lee, C. G., Jang, G. Y., and Cho, W. C., 2009, Convergence technology and related environmental education for green growth, Presidential advisory council on education, science and technology (in Korean).
  19. Lee, Y. S., 2006, A report on damages caused by typoon and intensive rainfall in July, 2006, Ministy of Transport and Construction, A symposium on the cause and response policy on flooding, July, 2006, 76-96.
  20. Legislation Information Team, 2008, Obama at a glance, National Assembly Library (in Korean).
  21. Lenzi, M. A., 2002, Stream bed stabilization using boulder check dams that mimic step-pool morphology features in Northern Italy, Geomorpholgy, 45, 243-260. https://doi.org/10.1016/S0169-555X(01)00157-X
  22. Marutani, T., Kikuchi, S.-I., Yanai, S., and Kochi, K., 2008, The light and dark of sabo-dammed streams in steepland settings in Japan, in Brierley, G. J. and Fryirs, K. A.(eds.), River Futures-An Integrative Scientific Approach to River Repair, Island Press, Washington, DC, 220- 236.
  23. National Research Council, 2005, Flash Flood Forecasting over Complex Terrain, National Academy Press, Washington, DC.
  24. OECD, 2009, Declaration on Green Growth, C/MIN (2009) 5/ADDI/FINAL, 3p.
  25. Pasche, E., 2006, From fighting against flood to living with flood-the New EU policy and its consequences, International symposium on sustainable flood management of Korea, PCSD & Ministry of Construction and Transportation, Korea.
  26. Simms, A., Johnson, V., and Nissan, S., 2009, Green Stimulus or Simulus?, nef, 23p.
  27. Slaymaker, O., 2000, Global environmental change: The global agenda, in Slaymaker (ed.), Geomorphology, Human Activity and Global Environmental Change, John Wiley & Sons, England, 1-20.
  28. Spratt, S., Simms, A., Neizert, E., and Ryan-Collins, J., 2009, The Great Transition, nef, 128p.
  29. The Green New Deal Group, 2008, A Green New Deal: Joined-up policies to solve the triple crunch of the credit crisis, climate change and high oil prices, nef, 48p.
  30. The roundtable on climate change and poverty in the UK, 2008, Tackling Climate Change, Reducing Poverty, nef, 44p.
  31. Trudgill, S. and Richards, K., 1997, Environmental science and policy: generalizations and context sensitivity, Transactions of Institute of British Geographers, 22, 5-12.
  32. UNESCAP, 2005, Achiving environmentally sustainable economic growth in Asia and the Pacific, E/ ESCAP/SO/MCED(05)/7. 21p.
  33. UNESCAP, 2009, Green growth capacity development programme, 6p.
  34. Urban, M. and Rhoads, B., 2003, Conceptions for nature: Implications for an integrated geography, in Trudgill, S. and Roy, A.(eds.), Contemporary Meanings in Physical Geography, A Hodder Arnold Publication, London, 211-231.
  35. Woodward, D. and Simms, A., 2006, Growth isn't Working: The Unbalanced Distribution of Benefits and Costs from Economic Growth, nef, 32p.