scholarly journals Vulnerable Territories: The Perpetually Shifting Edge

2021 ◽  
Author(s):  
◽  
Joseph Wellwood
Keyword(s):  
At Risk ◽  
Sense Of Place ◽  
Architectural Design ◽  
Coastal Hazards ◽  
Adaptive Planning ◽  
Coastal Community ◽  
Sea Levels ◽  
Community Model ◽  
Rising Sea Levels ◽  
Imminent Threat

<p>New Zealand’s coastline is rapidly receding. The increased threat of rising sea levels continues to erode the shore line causing extensive and irreparable damage to thousands of coastal properties, often dismantling communities and the kiwi dream of living near the ocean. With global temperatures continuing to rise, all of our coastal communities are at risk. The current measure of response to this issue is through managed retreat, the removal and relocation of all ‘at risk’ buildings in coastal hazard zones. While this approach is successful in preserving the physical structures, it remains an undesirable solution that forces homeowners to abandon their community and the coastline for the safety of higher ground. The retreat is hampered among debate within the effected regions as the forced detachment of long standing communities often results in the loss of ‘sense of place’ that living within a coastal community enables.  This thesis proposes that Haumoana in Hawkes Bay offers the fitting location to introduce an alternative coastal community model that actively responds to the impending hazards whilst retaining the societal poetics. Situated just south of the nearby communities of Te Awanga and Haumoana, two of the most at-risk coastal regions in New Zealand that are currently facing the prospect of dismantlement. The site was specifically chosen due to the fact that erosion is predicted to diminish half its usable land over the next century, this thesis will investigate the potential risks to the respective coastline, the role that this would play in an adaptive community, and the possible design options that can respond and enhance a future sustainable landscape.  This thesis argues that a coastal community can be designed to actively adapt and respond to the threat of erosion rather than being dismantled through retreat; that by adopting design principles that protect the land on which they are placed, the coastal hazards of the region can be lessened; and that an adaptive community model can be achieved whilst retaining the ‘sense of place’ that coastal community’s exhibit.  The thesis proposes that this can be achieved by incorporating and reinforcing natural features of the coast into the architectural design at various scales; accommodating for, and adapting to the imminent threat of erosion; and by invoking principles of sustainable design in company with adaptive planning and resilient design, thereby pushing the standards of coastal planning beyond typical practice.</p>

scholarly journals Vulnerable Territories: The Perpetually Shifting Edge

2021 ◽  
Author(s):  
◽  
Joseph Wellwood
Keyword(s):  
At Risk ◽  
Sense Of Place ◽  
Architectural Design ◽  
Coastal Hazards ◽  
Adaptive Planning ◽  
Coastal Community ◽  
Sea Levels ◽  
Community Model ◽  
Rising Sea Levels ◽  
Imminent Threat

<p>New Zealand’s coastline is rapidly receding. The increased threat of rising sea levels continues to erode the shore line causing extensive and irreparable damage to thousands of coastal properties, often dismantling communities and the kiwi dream of living near the ocean. With global temperatures continuing to rise, all of our coastal communities are at risk. The current measure of response to this issue is through managed retreat, the removal and relocation of all ‘at risk’ buildings in coastal hazard zones. While this approach is successful in preserving the physical structures, it remains an undesirable solution that forces homeowners to abandon their community and the coastline for the safety of higher ground. The retreat is hampered among debate within the effected regions as the forced detachment of long standing communities often results in the loss of ‘sense of place’ that living within a coastal community enables.  This thesis proposes that Haumoana in Hawkes Bay offers the fitting location to introduce an alternative coastal community model that actively responds to the impending hazards whilst retaining the societal poetics. Situated just south of the nearby communities of Te Awanga and Haumoana, two of the most at-risk coastal regions in New Zealand that are currently facing the prospect of dismantlement. The site was specifically chosen due to the fact that erosion is predicted to diminish half its usable land over the next century, this thesis will investigate the potential risks to the respective coastline, the role that this would play in an adaptive community, and the possible design options that can respond and enhance a future sustainable landscape.  This thesis argues that a coastal community can be designed to actively adapt and respond to the threat of erosion rather than being dismantled through retreat; that by adopting design principles that protect the land on which they are placed, the coastal hazards of the region can be lessened; and that an adaptive community model can be achieved whilst retaining the ‘sense of place’ that coastal community’s exhibit.  The thesis proposes that this can be achieved by incorporating and reinforcing natural features of the coast into the architectural design at various scales; accommodating for, and adapting to the imminent threat of erosion; and by invoking principles of sustainable design in company with adaptive planning and resilient design, thereby pushing the standards of coastal planning beyond typical practice.</p>

scholarly journals Socioeconomic and environmental predictors of estuarine shoreline hard armoring

2019 ◽  
Vol 9 (1) ◽  
Author(s):  
Nicole E. Peterson ◽  
Craig E. Landry ◽  
Clark R. Alexander ◽  
Kevin Samples ◽  
Brian P. Bledsoe
Keyword(s):  
Sea Level Rise ◽  
Sea Level ◽  
Economic Consequences ◽  
Coastal Hazards ◽  
Environmental Predictors ◽  
Sea Levels ◽  
Shoreline Armoring ◽  
Rising Sea Levels ◽  
Estuarine Shoreline ◽  
The Individual

Abstract Rising sea levels and growing coastal populations are intensifying interactions at the land-sea interface. To stabilize upland and protect human developments from coastal hazards, landowners commonly emplace hard armoring structures, such as bulkheads and revetments, along estuarine shorelines. The ecological and economic consequences of shoreline armoring have garnered significant attention; however, few studies have examined the extent of hard armoring or identified drivers of hard armoring patterns at the individual landowner level across large geographical areas. This study addresses this knowledge gap by using a fine-scale census of hard armoring along the entire Georgia U.S. estuarine coastline. We develop a parsimonious statistical model that accurately predicts the probability of armoring emplacement at the parcel level based on a set of environmental and socioeconomic variables. Several interacting influences contribute to patterns of shoreline armoring; in particular, shoreline slope and the presence of armoring on a neighboring parcel are strong predictors of armoring. The model also suggests that continued sea level rise and coastal population growth could trigger future increases in armoring, emphasizing the importance of considering dynamic patterns of armoring when evaluating the potential effects of sea level rise. For example, evolving distributions of armoring should be considered in predictions of future salt marsh migration. The modeling approach developed in this study is adaptable to assessing patterns of hard armoring in other regions. With improved understanding of hard armoring distributions, sea level rise response plans can be fully informed to design more efficient scenarios for both urban development and coastal ecosystems.

scholarly journals Tropical Cyclone-Induced Hazards Caused by Storm Surges and Large Waves on the Coast of China

Geosciences ◽  
2019 ◽  
Vol 9 (3) ◽  
pp. 131 ◽  
Author(s):  
Zai-Jin You
Keyword(s):  
Large Scale ◽  
Storm Surges ◽  
Chinese Economy ◽  
Coastal Hazards ◽  
Economic Losses ◽  
Sea Levels ◽  
The North ◽  
Coastal Waves ◽  
Storm Wave ◽  
Rising Sea Levels

The mainland coast of China is about 18,000 km long and houses about 70% of China’s largest cities and 50% of its population. For the last few decades, the rapid growth of the Chinese economy has resulted in extensive development of the coastal infrastructure and property, large-scale expansion of coastal ports, excessive reclamation of coastal land, and a significant increase in the coastal population. Previous studies have indicated that tropical cyclones (TCs) have struck the coast of China at a higher frequency and intensity, and TC-induced coastal hazards have resulted in heavy human losses and huge losses to the Chinese coastal economy. In analyzing the long-term and most recent coastal hazard data collected on the coast of China, this study has found that TC-induced storm surges are responsible for 88% of the direct coastal economic losses, while TC-induced large coastal waves have caused heavy loss of human lives, and that the hazard-caused losses are shown to increase spatially from the north to south, peak in the southern coastal sector, and well correlate to storm wave energy flux. The frequency and intensity of coastal hazards on the coast of China are expected to increase in response to future changing TC conditions and rising sea levels. A simple two-parameter conceptual model is also presented for the assessment of coastal inundation and erosion hazards on the coast of China.

scholarly journals Inhabiting the machine

2021 ◽  
Author(s):  
◽  
George Goodwin
Keyword(s):  
Financial Management ◽  
Urban Poor ◽  
Tamil Nadu ◽  
Architectural Design ◽  
Large Scale ◽  
Sea Levels ◽  
Civil Society Organisations ◽  
Slum Dwellers ◽  
Basic Services ◽  
Rising Sea Levels

<p>Like many cities across India, Chennai (capital of Tamil Nadu) has two tiers of slums — those with official government recognition and those without. Slums with official government recognition are then further categorised to either be objectionable or unobjectionable. Recognised slums receive government funding to provide new tenements and basic services on site. But recent studies have shown that 4.8 sq km of the Chennai metropolitan area are comprised of either unrecognised or objectionable slums. The current government strategy is to forcibly relocate families from unrecognised or objectionable slums to large-scale, high-rise settlement colonies on the distant outskirts of Chennai. Numerous civil society organisations, however, have documented that eviction and relocation results in extreme trauma for these families. The Transparent Chennai Project at the Institute for Financial Management and Research in Chennai argues that: “A far more reasonable strategy would be to once again implement the Tamil Nadu Slum Clearance Act in the spirit that it was written, and start to recognise slums and improve them in situ” (Raman and Narayan).  This thesis proposes that architectural design can improve conditions for Chennai’s urban poor without resorting to forced relocation. It argues that a new framework for slum housing can be designed that is capable of: protecting slum dwellers from environmental disasters such as rising sea levels, storm surge, and tsunamis; mitigating environmental pollution to improve hygiene; and providing economic sources of fresh water and energy through sustainable means. It further argues that this framework can be achieved in a culturally sensitive manner by acknowledging traditional and historically significant regional architectural typologies.</p>

scholarly journals Application of the Saffir-Simpson Hurricane Wind Scale to Assess Sand Dune Response to Tropical Storms

2020 ◽  
Vol 8 (9) ◽  
pp. 670
Author(s):  
Jean T. Ellis ◽  
Michelle E. Harris ◽  
Mayra A. Román-Rivera ◽  
J. Brianna Ferguson ◽  
Peter A. Tereszkiewicz ◽  
...  
Keyword(s):  
South Carolina ◽  
Storm Surge ◽  
Coastal Hazards ◽  
Tropical Storms ◽  
Aeolian Transport ◽  
Site Specific ◽  
Sea Levels ◽  
Dune Systems ◽  
Hurricane Wind ◽  
Rising Sea Levels

Over one-third of the Earth’s population resides or works within 200 km of the coast. The increasing threat of coastal hazards with predicted climate change will impact many global citizens. Coastal dune systems serve as a natural first line of defense against rising sea levels and coastal storms. This study investigated the volumetric changes of two dune systems on Isle of Palms, South Carolina, USA prior to and following Hurricanes Irma (2017) and Florence (2018), which impacted the island as tropical storms with different characteristics. Irma had relatively high significant wave heights and precipitation, resulting in an average 39% volumetric dune loss. During Florence, a storm where precipitation was low and winds were moderate, net volumetric dune loss averaged 3%. The primary driving force causing dune change during Irma was water (precipitation and storm surge), and during Florence, it was wind (aeolian transport). We suggest that the application of the Saffir-Simpson Hurricane Wind Scale classifications should be reconsidered because different geomorphic responses were measured, despite Irma and Florence both being designated as tropical storms. Site-specific pre- and post-storm studies of the dune morphology and site-specific meteorological measurements of the storm (wind characteristics, storm surge, precipitation) are critically needed.

scholarly journals Inhabiting the machine

2021 ◽  
Author(s):  
◽  
George Goodwin
Keyword(s):  
Financial Management ◽  
Urban Poor ◽  
Tamil Nadu ◽  
Architectural Design ◽  
Large Scale ◽  
Sea Levels ◽  
Civil Society Organisations ◽  
Slum Dwellers ◽  
Basic Services ◽  
Rising Sea Levels

<p>Like many cities across India, Chennai (capital of Tamil Nadu) has two tiers of slums — those with official government recognition and those without. Slums with official government recognition are then further categorised to either be objectionable or unobjectionable. Recognised slums receive government funding to provide new tenements and basic services on site. But recent studies have shown that 4.8 sq km of the Chennai metropolitan area are comprised of either unrecognised or objectionable slums. The current government strategy is to forcibly relocate families from unrecognised or objectionable slums to large-scale, high-rise settlement colonies on the distant outskirts of Chennai. Numerous civil society organisations, however, have documented that eviction and relocation results in extreme trauma for these families. The Transparent Chennai Project at the Institute for Financial Management and Research in Chennai argues that: “A far more reasonable strategy would be to once again implement the Tamil Nadu Slum Clearance Act in the spirit that it was written, and start to recognise slums and improve them in situ” (Raman and Narayan).  This thesis proposes that architectural design can improve conditions for Chennai’s urban poor without resorting to forced relocation. It argues that a new framework for slum housing can be designed that is capable of: protecting slum dwellers from environmental disasters such as rising sea levels, storm surge, and tsunamis; mitigating environmental pollution to improve hygiene; and providing economic sources of fresh water and energy through sustainable means. It further argues that this framework can be achieved in a culturally sensitive manner by acknowledging traditional and historically significant regional architectural typologies.</p>

African Heritage Sites threatened by coastal flooding and erosion as sea-level rise accelerates

2021 ◽  
Author(s):  
Michalis Vousdoukas ◽  
Joanne Clarke ◽  
Roshanka Ranasinghe ◽  
Lena Reimann ◽  
Nadia Khalaf ◽  
...  
Keyword(s):  
At Risk ◽  
Cultural Heritage ◽  
Sea Level ◽  
Coastal Flooding ◽  
Exposed Area ◽  
Sea Levels ◽  
Heritage Sites ◽  
African Heritage ◽  
Western Africa ◽  
Rising Sea Levels

Abstract Important heritage sites along the African coast are at risk from the threats associated with rising sea levels. Here, we quantify the exposure of natural and cultural heritage sites in Africa to coastal flooding and erosion in the 21st century. We develop a comprehensive database of 284 coastal African Heritage Sites (AHS), composed of 213 natural and 71 cultural heritage sites, which is then combined with coastal flooding and erosion projections to assess exposure to coastal extreme events for a moderate (RCP4.5) and high (RCP8.5) greenhouse gas emissions scenario. We find that 56 AHS are presently at risk from a 100-year extreme sea-level event, with a total exposed heritage area of 2,222 km2. Most of the currently exposed AHS are located in Northern and Western Africa. By mid-century, the number of exposed AHS is projected to increase more than 3 times to reach 191 and 198 under moderate and high emissions respectively. In the second half of the century, the number of exposed sites stabilizes, but the median exposed area increases to 6.6 to 8.5 times the present-day value, under moderate and high emissions, respectively. Mitigation from high to moderate emissions will reduce the end-century median exposed area and number of very highly exposed sites by 20% and 25% respectively.

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