Landscape Architecture for Sea Level Rise
portes grátis
Landscape Architecture for Sea Level Rise
Innovative Global Solutions
Qiao, Zixu; Newman, Galen D.
Taylor & Francis Ltd
05/2022
316
Mole
Inglês
9781032024561
15 a 20 dias
860
Descrição não disponível.
Section 1: Landscape Architecture and Sea Level Rise
1. Sea Level Rise as a Design and Planning Issue
2. Global Strategies for Flood and Sea Level Rise Mitigation
Section 2: Global Design for Sea Level Rise
Structural Heavy Design
3. Jefferson Parish, New Orleans Region, Louisiana
4. Tampa, Florida
Non-structural Heavy Design
5. Busan, Korea
6. Moakley Park, Boston, Massachusetts.
7. Philadelphia, Pennsylvania
8. Fisherman's Bend, Victoria, Australia
9. Island Bay, Greater Wellington Region of Aotearoa-New Zealand
10. Wilmington, Delaware
Hybrid Heavy Design
11. Franks Tract Futures, Sacramento: San Joaquin Delta, California
12. Samut Sakhon, Bangkok Metropolitan Region, Thailand
13. Port Saint Joe, Florida
14. Miyagi Prefecture, Sendai, Japan
Balanced Design
15. Fleming Park, Baltimore, MD
16. Sanya Dong'an Wetland Park, Hainan, China
17. Houston-Galveston Metropolitan Statistical Area, League City, TX
Scenario-based Design
18. Amsterdam and Western Scheldt Regions, the Netherlands
19. Miami, Florida
20. Christchurch, Canterbury Region, Aotearoa New Zealand
Section 3: Innovative Solutions for Sea Level Rise
21. Structural Mechanisms
22. Non-structural Mechanisms
23. Hybrid Mechanisms
24. The Urban Periculum: A Landscape at Risk from Sea Level Rise
1. Sea Level Rise as a Design and Planning Issue
2. Global Strategies for Flood and Sea Level Rise Mitigation
Section 2: Global Design for Sea Level Rise
Structural Heavy Design
3. Jefferson Parish, New Orleans Region, Louisiana
4. Tampa, Florida
Non-structural Heavy Design
5. Busan, Korea
6. Moakley Park, Boston, Massachusetts.
7. Philadelphia, Pennsylvania
8. Fisherman's Bend, Victoria, Australia
9. Island Bay, Greater Wellington Region of Aotearoa-New Zealand
10. Wilmington, Delaware
Hybrid Heavy Design
11. Franks Tract Futures, Sacramento: San Joaquin Delta, California
12. Samut Sakhon, Bangkok Metropolitan Region, Thailand
13. Port Saint Joe, Florida
14. Miyagi Prefecture, Sendai, Japan
Balanced Design
15. Fleming Park, Baltimore, MD
16. Sanya Dong'an Wetland Park, Hainan, China
17. Houston-Galveston Metropolitan Statistical Area, League City, TX
Scenario-based Design
18. Amsterdam and Western Scheldt Regions, the Netherlands
19. Miami, Florida
20. Christchurch, Canterbury Region, Aotearoa New Zealand
Section 3: Innovative Solutions for Sea Level Rise
21. Structural Mechanisms
22. Non-structural Mechanisms
23. Hybrid Mechanisms
24. The Urban Periculum: A Landscape at Risk from Sea Level Rise
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Sea Level Rise;Green Infrastructure;Saltwater;Flood Risk;Sea Level Rise Scenarios;Dense;FEMA;Flood Insurance;Rain Gardens;Impervious Surfaces;Hybrid Mechanisms;Sea Level Rise Adaptation;Projected Sea Level Rise;Sponges;Chronic;USA;Relative SLR;Nuisance Flooding;Dredged Material;Sea Water;East Asian Australasian Flyway;High Flood Risk Areas;Sustainable Building;Sand Engine;Lake Pontchartrain
Section 1: Landscape Architecture and Sea Level Rise
1. Sea Level Rise as a Design and Planning Issue
2. Global Strategies for Flood and Sea Level Rise Mitigation
Section 2: Global Design for Sea Level Rise
Structural Heavy Design
3. Jefferson Parish, New Orleans Region, Louisiana
4. Tampa, Florida
Non-structural Heavy Design
5. Busan, Korea
6. Moakley Park, Boston, Massachusetts.
7. Philadelphia, Pennsylvania
8. Fisherman's Bend, Victoria, Australia
9. Island Bay, Greater Wellington Region of Aotearoa-New Zealand
10. Wilmington, Delaware
Hybrid Heavy Design
11. Franks Tract Futures, Sacramento: San Joaquin Delta, California
12. Samut Sakhon, Bangkok Metropolitan Region, Thailand
13. Port Saint Joe, Florida
14. Miyagi Prefecture, Sendai, Japan
Balanced Design
15. Fleming Park, Baltimore, MD
16. Sanya Dong'an Wetland Park, Hainan, China
17. Houston-Galveston Metropolitan Statistical Area, League City, TX
Scenario-based Design
18. Amsterdam and Western Scheldt Regions, the Netherlands
19. Miami, Florida
20. Christchurch, Canterbury Region, Aotearoa New Zealand
Section 3: Innovative Solutions for Sea Level Rise
21. Structural Mechanisms
22. Non-structural Mechanisms
23. Hybrid Mechanisms
24. The Urban Periculum: A Landscape at Risk from Sea Level Rise
1. Sea Level Rise as a Design and Planning Issue
2. Global Strategies for Flood and Sea Level Rise Mitigation
Section 2: Global Design for Sea Level Rise
Structural Heavy Design
3. Jefferson Parish, New Orleans Region, Louisiana
4. Tampa, Florida
Non-structural Heavy Design
5. Busan, Korea
6. Moakley Park, Boston, Massachusetts.
7. Philadelphia, Pennsylvania
8. Fisherman's Bend, Victoria, Australia
9. Island Bay, Greater Wellington Region of Aotearoa-New Zealand
10. Wilmington, Delaware
Hybrid Heavy Design
11. Franks Tract Futures, Sacramento: San Joaquin Delta, California
12. Samut Sakhon, Bangkok Metropolitan Region, Thailand
13. Port Saint Joe, Florida
14. Miyagi Prefecture, Sendai, Japan
Balanced Design
15. Fleming Park, Baltimore, MD
16. Sanya Dong'an Wetland Park, Hainan, China
17. Houston-Galveston Metropolitan Statistical Area, League City, TX
Scenario-based Design
18. Amsterdam and Western Scheldt Regions, the Netherlands
19. Miami, Florida
20. Christchurch, Canterbury Region, Aotearoa New Zealand
Section 3: Innovative Solutions for Sea Level Rise
21. Structural Mechanisms
22. Non-structural Mechanisms
23. Hybrid Mechanisms
24. The Urban Periculum: A Landscape at Risk from Sea Level Rise
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Sea Level Rise;Green Infrastructure;Saltwater;Flood Risk;Sea Level Rise Scenarios;Dense;FEMA;Flood Insurance;Rain Gardens;Impervious Surfaces;Hybrid Mechanisms;Sea Level Rise Adaptation;Projected Sea Level Rise;Sponges;Chronic;USA;Relative SLR;Nuisance Flooding;Dredged Material;Sea Water;East Asian Australasian Flyway;High Flood Risk Areas;Sustainable Building;Sand Engine;Lake Pontchartrain