• Title/Summary/Keyword: watershed governance

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Building an Integrated Governance Model and Finding Management Measures for Nonpoint Source Pollution in Watershed Management of Korea

  • Ban, Yong Un;Woo, Hye Mi;Han, Kyung Min;Baek, Jong In
    • Environmental Engineering Research
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    • v.18 no.3
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    • pp.199-208
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    • 2013
  • This study intended to develop an integrated governance model and find measures to manage nonpoint source (NPS) pollutions in watershed management. To reach this goal, this study has analyzed NPS pollution management policies in Korea and has employed statistical methods such as expert Delphi survey, analysis of variance, and factor analysis. As a result, this study has found that the favored basic organization form was a private-public cooperative council. The necessary governance-based NPS pollution management measures determined through this study are as follows: to build collaboration mechanisms including those related to motivation provision, trust building, capacity building, and making optimal regulations; to employ financial resources based on principles such as 'polluter-pays', 'recipient-pays', and 'general-tax-source'; and to develop several programs, including system improvement, pilot and management projects, and publicity.

Proposal for a conceptual framework and budgets for sediment management at the river basin scale (유역규모에서의 퇴적물 관리를 위한 퇴적물 수지와 개념적 틀 제안)

  • Jin Kwan Kim
    • The Korean Journal of Quaternary Research
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    • v.32 no.1_2
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    • pp.51-66
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    • 2018
  • Climate change and large-scale human interference increase flow instability due to changes in watershed flow and sediment transport patterns. There are local problems in solving problems related to sediments, namely the existence of specific problems at specific sites or areas, and the resolution of these problems is limited to short-term and regional, resulting in other temporal and spatial influences and impacts. Therefore, this study intends to introduce and propose a conceptual framework for comprehensive sediment management in terms of watershed scale for solving problems related to sediments in watersheds. In the watershed scale, comprehensive sediment management should be done, to do this, a comprehensive understanding of the movements of sediments accompanied by cooperation with science-policy-operation-residents should be given priority.

Future Agenda of the Four Major Rivers Restoration Project: Toward An Integrated Watershed Management System (4대강사업이 남긴 과제: 통합적 유역관리시스템의 구축)

  • Ahn, Hyung Ki
    • The Journal of the Korea Contents Association
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    • v.17 no.3
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    • pp.454-461
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    • 2017
  • The Four Major Rivers Restoration Project was the multi-purpose green growth project on the four major rivers in South Korea. However, the Four Major Rivers Project has attracted significant criticism from various social groups and wider international groups, e.g. Friends of the Earth. This study reviews the four river restoration project from the standpoint of an evolutionary process of water paradigms. It reveals that the project has achieved its intended purpose yet, suggesting to apply some valuable lessons in the consideration of the integrated watershed management system. Finally, it urges to introduce tentatively named "Basic law on Water Management" preceded by enacting ordinances at local level, because it'll help us find out ways ahead for the Integrated Water law.

Awareness of Urban Environment and LID for Expanding LID Application (LID 적용확대를 위한 시민의 도시환경 및 LID 인식)

  • Kim, Youngman;Kim, Lee-hyung
    • Journal of Wetlands Research
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    • v.21 no.1
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    • pp.27-33
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    • 2019
  • The future water management needs decentralization of facilities, diversity of technology and integration of management to overcome the waste of financial resources and increase in scale of facilities that occurred from centralized water management. In addition, citizen's environmental awareness and participation is important because all infrastructure installed in the watershed where citizens live should have the function of water management. Therefore, the research was performed by investigating the citizen's recognition about urban environment와 LID application to analyze citizen's perceptions and analyze the feasibility and possibility of LID application. The LID awareness of citizens was about 59%, but only about 46% of citizens agreed on the extension of application. However, after contacting LID photographs and information, 90% of respondents agreed on the application of LID, and 94% of respondents were able to distinguish between grey infrastructure and LID infrastructure. Citizens appeared to have a tendency to recognize green spaces as multi-functional LID infrastructure or green infrastructure. If citizens recognize multi-functional LIDs only as landscapjng area, it will be very difficult to extend the LID on the city areas. Therefore, for the extended application of the LID facilities, it is necessary to use public relations strategy to utilize the results and visual data on the actual effect verification. In addition, as every social infrastructure is formed in watershed where citizens live, it is necessary to plan and manage the infrastructure through governance with citizen participation.

Assessment of sediment profiles applying nuclear techniques: use of a nucleonic gauge in Panama Canal watershed

  • Xavier Sanchez;Henry Hoo;Patrick Brisset;Reinhardt Pinzon
    • Nuclear Engineering and Technology
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    • v.54 no.11
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    • pp.4236-4243
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    • 2022
  • An industrial nuclear technique based on the use of an X-ray profiler was implemented to estimate the densities or concentrations of sediments present in an Atlantic maritime zone in the areas subjected to dredging under the governance of the Panama Canal Authority (ACP). The sediment profiles show in most areas there is a concentration of between 1.00-1.15 g/cm3 except for one area in particular, the density starts at 1.20 g/cm3 and even reaches values greater than 1.50 g/cm3; therefore, an already consolidated sediment is present, which, depending on the depth found. Values of 1.265 g/cm3, 1.297 g/cm3, 1.185 g/cm3 obtained by ACP previous studies are within the range of 1.20-1.30 g/cm3 measured with the nucleonic gauge. However, it should be noted that during the tests with the X ray profiler, sediment densities values greater than the aforementioned limit were also obtained that varying according at depths close to 12 m and 18 m with values reached up to 1.513 g/cm3 and 1.60 g/cm3, respectively. This demonstrates that sediment accumulation depends on depth. This nucleonic gauge is feasible technique for the study of the sedimentation phenomenon in channel basins and even in other projects nationwide.