SY
S. Yun
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1
This research investigates the Hortillonnages of Amiens, a protected wetland landscape shaped by historical peat extraction and irrigated agriculture. Although now recognized as a natural wetland, its spatial structure and water systems are largely the result of past productive activities that continue to influence the landscape.
The study argues that the Hortillonnages should not be understood as a static preserved environment, but as a dynamic spatial system shaped by post-extraction and post-agricultural conditions. While the original productive uses have disappeared, their material and spatial effects still determine interactions between land, water, and human activity.
Through mapping and spatial analysis, the research examines how these inherited structures continue to organize contemporary patterns of use and management. The project highlights the importance of focusing on ongoing processes rather than fixed end states, and explores how architecture can engage with landscapes that persist through continuous adaptation and change. ...
The study argues that the Hortillonnages should not be understood as a static preserved environment, but as a dynamic spatial system shaped by post-extraction and post-agricultural conditions. While the original productive uses have disappeared, their material and spatial effects still determine interactions between land, water, and human activity.
Through mapping and spatial analysis, the research examines how these inherited structures continue to organize contemporary patterns of use and management. The project highlights the importance of focusing on ongoing processes rather than fixed end states, and explores how architecture can engage with landscapes that persist through continuous adaptation and change. ...
This research investigates the Hortillonnages of Amiens, a protected wetland landscape shaped by historical peat extraction and irrigated agriculture. Although now recognized as a natural wetland, its spatial structure and water systems are largely the result of past productive activities that continue to influence the landscape.
The study argues that the Hortillonnages should not be understood as a static preserved environment, but as a dynamic spatial system shaped by post-extraction and post-agricultural conditions. While the original productive uses have disappeared, their material and spatial effects still determine interactions between land, water, and human activity.
Through mapping and spatial analysis, the research examines how these inherited structures continue to organize contemporary patterns of use and management. The project highlights the importance of focusing on ongoing processes rather than fixed end states, and explores how architecture can engage with landscapes that persist through continuous adaptation and change.
The study argues that the Hortillonnages should not be understood as a static preserved environment, but as a dynamic spatial system shaped by post-extraction and post-agricultural conditions. While the original productive uses have disappeared, their material and spatial effects still determine interactions between land, water, and human activity.
Through mapping and spatial analysis, the research examines how these inherited structures continue to organize contemporary patterns of use and management. The project highlights the importance of focusing on ongoing processes rather than fixed end states, and explores how architecture can engage with landscapes that persist through continuous adaptation and change.
Reintegrating urban waterways
A critical examination of Cheonggyecheon’s tributary restoration and the spatial transformation of Baekundongcheon
This research explores South Korea’s largest urban stream restoration project: the 2005 restoration of Cheonggyecheon. Once a natural stream, Cheonggyecheon was buried in 1977 during rapid modernization, and by the 1980s, most of Seoul’s tributaries had similarly been covered by roads or highways. Nearly 30 years after it was buried, the 2005 project reopened Cheonggyecheon to the public but focused primarily on macro-scale physical restoration, overlooking the micro-scale spatial connections that once integrated the stream with its urban surroundings. As a result, the restored stream remains visually prominent but spatially disconnected, raising questions about more meaningful forms of urban reintegration.
This study argues that urban stream restoration should go beyond reconstructing physical features to re-evaluating the streams’ historical and spatial roles in Seoul. Rather than restoring streams to a past state, it is crucial to examine how they functioned and interacted with surrounding architecture and infrastructure. ...
This study argues that urban stream restoration should go beyond reconstructing physical features to re-evaluating the streams’ historical and spatial roles in Seoul. Rather than restoring streams to a past state, it is crucial to examine how they functioned and interacted with surrounding architecture and infrastructure. ...
This research explores South Korea’s largest urban stream restoration project: the 2005 restoration of Cheonggyecheon. Once a natural stream, Cheonggyecheon was buried in 1977 during rapid modernization, and by the 1980s, most of Seoul’s tributaries had similarly been covered by roads or highways. Nearly 30 years after it was buried, the 2005 project reopened Cheonggyecheon to the public but focused primarily on macro-scale physical restoration, overlooking the micro-scale spatial connections that once integrated the stream with its urban surroundings. As a result, the restored stream remains visually prominent but spatially disconnected, raising questions about more meaningful forms of urban reintegration.
This study argues that urban stream restoration should go beyond reconstructing physical features to re-evaluating the streams’ historical and spatial roles in Seoul. Rather than restoring streams to a past state, it is crucial to examine how they functioned and interacted with surrounding architecture and infrastructure.
This study argues that urban stream restoration should go beyond reconstructing physical features to re-evaluating the streams’ historical and spatial roles in Seoul. Rather than restoring streams to a past state, it is crucial to examine how they functioned and interacted with surrounding architecture and infrastructure.