Soojin You scite author profile

The dynamics of land-use transitions decrease the coastal resilience of the social-ecological landscape (SEL), particularly in light of the fact that it is necessary to analyze the causal relationship between the two systems because operations of the social system and the ecological system are correlated. The purpose of this study is to analyze the dynamics of the coastal SEL and create a sustainable land-use planning (SLUP) strategy to enhance coastal resilience. The selected study site was Shindu-ri, South Korea, where land-use transitions are increasing and coastal resilience is therefore decreasing. Systems thinking was used to analyze the study, which was performed in four steps. First, the issues affecting the coastal area in Shindu-ri were defined as coastal landscape management, the agricultural structure, and the tourism industry structure. Second, the main variables for each issue were defined, and causal relationships between the main variables were created. Third, a holistic causal loop diagram was built based on both dynamic thinking and causal thinking. Fourth, five land-uses, including those of the coastal forest, the coastal grassland, the coastal dune, the agricultural area, and developed sites, were selected as leverage points for developing SLUP strategies to increase coastal resilience. The results show that "decrease in the size of the coastal forest", "decrease in the size of the coastal dune", and "increase in the size of the coastal grasslands" were considered parts of a land-use plan to enhance the resilience of the Shindu-ri SEL. This study developed integrated coastal land-use planning strategies that may provide effective solutions for complex and dynamic issues in the coastal SEL. Additionally, the results may be utilized as basic data to build and implement coastal land-use planning strategies.

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Simulation modeling for a resilience improvement plan for natural disasters in a coastal area

Song

You

Chon

2018

Environmental Pollution

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Management Plan of Whooper Swan(Cygnus cygnus) Habitat Using Causal Loop Analysis

Choi¹,

You²,

Kang³

et al. 2015

Korean J. Environ. Ecol.

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An Integrated Approach to Mitigation Wetland Site Selection: A Case Study in Gwacheon, Korea

et al. 2015

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This paper presents an integrated approach to mitigation wetland site selection using functional landscape connectivity and landscape structure. This approach enables landscape designers to evaluate the relative priorities of mitigation wetland areas based on functional landscape connectivity and wildlife mobility, as well as landscape structure, composition, and configuration. The least-cost path method is used to evaluate candidate sites for mitigation wetlands with regard to wildlife movement. A set of assessments for landscape indices using FRAGSTATS was applied to identify suitable mitigation wetland areas on the basis of landscape connectivity, composition, and configuration. The study was conducted in Gwacheon, Korea, where there are plans for regional development that will change the landscape. In the first step, a group of 14 candidate sites is identified via analysis of functional landscape connectivity using the least-cost path method. In the second step, candidate mitigation wetland areas are ranked according to landscape connectivity and composition. The five mitigation wetland areas that were found to be suitable were analyzed based on landscape configuration at the class level. This study demonstrates OPEN ACCESSSustainability 2015, 7 3387 that functional landscape connectivity and landscape structure are important aspects to consider when identifying suitable sites for mitigation wetland planning and restoration.

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Soojin You

Coastal landscape planning for improving the value of ecosystem services in coastal areas: Using system dynamics model

Sustainable Land-Use Planning to Improve the Coastal Resilience of the Social-Ecological Landscape

Simulation modeling for a resilience improvement plan for natural disasters in a coastal area

Management Plan of Whooper Swan(Cygnus cygnus) Habitat Using Causal Loop Analysis

An Integrated Approach to Mitigation Wetland Site Selection: A Case Study in Gwacheon, Korea

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