Author: OECD
Publisher: OECD Publishing
ISBN: 9264209131
Category :
Languages : en
Pages : 104
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Book Description
This report reviews the main linkages between climate change, water and agriculture as a means to identifying and discussing adaptation strategies for better use and conservation of water resources.
Author: Catrin Schmidt
Publisher: Springer Nature
ISBN: 366263998X
Category : Science
Languages : en
Pages : 246
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Book Description
This book explains what makes landscapes resilient. Why are some landscapes able to recover quickly from disruptive events or crises, while others are completely thrown off balance for the foreseeable future? The author sets out in search of the influencing factors and conditional structures of landscape resilience and not only evaluates the current state of the art, but also explores landscapes around the globe that could not be more contrasting: from arid agricultural landscapes to boreal forest landscapes, from atolls to saline landscapes, from terraced landscapes to cities. Just as diverse as the landscape types are the factors considered that can put landscapes under stress. However diverse the case studies are in detail, their fascinating mosaic shows at the same time that there are overarching principles that can be used to increase the resilience of landscapes in a targeted way, so that landscapes emerge from crises strengthened rather than weakened. This book is a translation of the original German 1st edition Landschaftliche Resilienz by Catrin Schmidt, published by Springer-Verlag GmbH Germany, part of Springer Nature in 2020. The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com). A subsequent human revision was done primarily in terms of content, so that the book will read stylistically differently from a conventional translation. Springer Nature works continuously to further the development of tools for the production of books and on the related technologies to support the authors.
Author: Kim Sorvig
Publisher: Island Press
ISBN: 161091810X
Category : Architecture
Languages : en
Pages : 505
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Book Description
Basic principles : "Sustainability" in context -- Principle 1 : Keep healthy sites healthy -- Principle 2 : Heal injured soils and sites -- Principle 3 : Favor living, flexible materials -- Principle 4 : Respect the waters of life -- Principle 5 : Pave less -- Principle 6 : Consider origin and fate of materials -- Principle 7 : Know the costs of energy over time -- Principle 8 : Celebrate light, respect darkness -- Principle 9 : Quietly defend silence -- Principle 10 : Maintain to sustain -- Principle 11 : Demonstrate performance, learn from failure -- Sustaining principles, evolving efforts.
Author: Martin Prominski
Publisher: Birkhäuser
ISBN: 3035610428
Category : Architecture
Languages : en
Pages : 328
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Book Description
Urban riverbanks are attractive locations and highly prized recreational environments. However, they must meet the requirements of flood control, open space design and ecology at the same time, often a challenging task for the designer. This book is the product of extensive research that identified some 60 best-practice examples and subjected them to a comparative analysis. The result is a systematic catalog of effective strategies and innovative design tools that provides readers with an inspiring overview of the broad spectrum of design possibilities for river spaces. Each project is illustrated with photographs taken especially for the book and each design strategy and tool is explained by diagrams. This revised edition introduces ten new case studies chiefly from North America.
Author: Johan Rockström
Publisher: Cambridge University Press
ISBN: 1139867601
Category : Science
Languages : en
Pages : 315
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Book Description
The world's human population now constitutes the largest driving force of changes to the biosphere. Emerging water challenges require new ideas for governance and management of water resources in the context of rapid global change. This book presents a new approach to water resources, addressing global sustainability and focusing on socio-ecological resilience to changes. Topics covered include the risks of unexpected change, human impacts and dependence on global water, the prospects for feeding the world's population by 2050, and a pathway for the future. The book's innovative and integrated approach links green and blue freshwater with terrestrial and aquatic ecosystem functions and use. It also links changes arising from land-use alteration with the impacts of those changes on social-ecological systems and ecosystem services. This is an important, state-of-the-art resource for academic researchers and water resource professionals, and a key reference for graduate students studying water resource governance and management.
Author: Martin Thoms
Publisher: Elsevier
ISBN: 0323972055
Category : Technology & Engineering
Languages : en
Pages : 678
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Book Description
Resilience and Riverine Landscapes presents contributed chapters from global experts in Riverine Landscapes, making it the most comprehensive reference available on the topic. The book explores why rivers are ideal landscapes to study resilience and why studying rivers from a resilience perspective is important for our biophysical understanding of these landscapes and for society. The book focuses on the biophysical character of resilience in riverine landscapes, providing an interdisciplinary perspective of the structure, function, and interactions of riverine landscapes and the ecosystems they contain. The editors conclude by proposing a research agenda for the future, emphasizing the need for transdisciplinary research across a range of spatial and temporal scales and research domains. Presents the resilience of rivers with both a theoretical and applied focus Includes case studies from a wide geographical base, allowing for a full range of viewpoints Showcases how resilience is being incorporated into the study and management of riverine landscapes Includes a transdisciplinary focus on riverine landscapes, from theory to applied, and from biophysical to social-ecological systems
Author: Donald Watson
Publisher: John Wiley & Sons
ISBN: 0470890029
Category : Architecture
Languages : en
Pages : 451
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Book Description
“Design for Flooding contains considerable useful information for practitioners and students. Watson and Adams fill the void for new thinking...and they advance our ability to create more sustainable, regenerative, and resilient places.” —Landscape Architecture Magazine
Author: Anahita Kianous
Publisher: Dissertation.com
ISBN: 1612334628
Category : Architecture
Languages : en
Pages : 79
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Book Description
Due to recent climate change, the character of environmental regional planning has shifted to address the anticipated extreme increases in sea level rise. As such, this project, based on existing scientific research/data, proposes a spatial, habitable landscape architectural solution as a model for flood mitigation for the East coastal edge. This proposal tests the potential for resilient coastal landscapes through a particular site located on Revere Beach, along with the New England coast in Massachusetts. The study demonstrates how through new public spaces designed to renew and protect the beach and the broader offshores, residents and visitors will be able to engage with this 21st Century, resilient beachfront. Also, residents and visitors will experience sophisticated efficient flood alleviation strategies during natural successive storm events. The inherent goal of this proposal is to create an innovative design intervention, which applies new principles of resiliency to the coastal landscape through a technical and cultural solution, and which can be a replicable model for global coastal edges elsewhere. Revitalizing Revere Beach, Ma is a case study to mitigate floods based on Bernoulli 's principle. This proposal projects an idea of connecting puddles with fissures a set of "Flute Channels", which is my innovation design approach to transfer water from coast to wetland behind it. It helps to lower down the sea level in high tides and sudden tides. Retrofitting Revere Beach as a case study for flood Mitigate with a New Resilient Coastal Landscape approach started to study the watershed of the East Coast that includes three parts of North, Mid-Atlantic, and South Atlantic. Each has a flow that moves up and then inward to the east, in a concave pattern precipitated scale toward the north caused by the velocity of currents. In compare to the Pacific coast, this figuration came to appears as the convex pattern as the currents also are affected differently based on the climate and the land used materials. The project focused on how to manipulate waves and the currents to preserve the land figuration and creates the natural coastal landscape. Geo Technical research and scientific data is the fundamental study that I got the benefit of understanding the exact waves motion, density, velocity of water and how the different type of currents affect the land shape. My project is translating the science into landscape architecture. Earth and ocean are not sustainable- they’re dynamic, they’re shifting, they’re changing the landscape and coast components; land-used material as such salty sand beaches and ripple effects of waves affect the land in different ways. My hypothesis idea of retrofitting coastal landscape backs to its natural creation, which will be a combination of four components of barrier islands, bay or lagoon, thumb-lands or forelands and wetlands. These four figurations are shaped based on different wave motions and currents. I discovered two scales of the solution. Short and long term phasing. For the long term, I suggested floating island, which I examined it by the different objects adding to the coral reef at the Revere Beach. Objective, found a missing part of coastal components, the floating islands. And, Flute Channel was innovative design approached by science data of Bernoulli’s principle. In this term, water transferred from coast to the wetlands behind it. The connected containers science data was a combination solution to this creation. Due to recent climate change, the character of environmental regional planning has shifted to address the anticipated extreme increases in sea level rise. As such, this project, based on existing scientific research/data, proposes a spatial, habitable landscape architectural solution as a model for flood mitigation for the East coastal edge. This proposal tests the potential for resilient coastal landscapes through a particular site located on Revere Beach, along with the New England coast in Massachusetts. The study demonstrates how through new public spaces designed to renew and protect the beach and the broader offshores, residents and visitors will be able to engage with this 21st Century, resilient beachfront. Also, residents and visitors will experience sophisticated efficient flood alleviation strategies during natural successive storm events. The inherent goal of this proposal is to create an innovative design intervention, which applies new principles of resiliency to the coastal landscape through a technical and cultural solution, and which can be a replicable model for global coastal edges elsewhere. Revitalizing Revere Beach, Ma is a case study to mitigate floods based on Bernoulli 's principle. This proposal projects an idea of connecting puddles with fissures a set of "Flute Channels", which is my innovation design approach to transfer water from coast to wetland behind it. It helps to lower down the sea level in high tides and sudden tides. Retrofitting Revere Beach as a case study for flood Mitigate with a New Resilient Coastal Landscape approach started to study the watershed of the East Coast that includes three parts of North, Mid-Atlantic, and South Atlantic. Each has a flow that moves up and then inward to the east, in a concave pattern precipitated scale toward the north caused by the velocity of currents. In compare to the Pacific coast, this figuration came to appears as the convex pattern as the currents also are affected differently based on the climate and the land used materials. The project focused on how to manipulate waves and the currents to preserve the land figuration and creates the natural coastal landscape. Geo Technical research and scientific data is the fundamental study that I got the benefit of understanding the exact waves motion, density, velocity of water and how the different type of currents affect the land shape. My project is translating the science into landscape architecture. Earth and ocean are not sustainable- they’re dynamic, they’re shifting, they’re changing the landscape and coast components; land-used material as such salty sand beaches and ripple effects of waves affect the land in different ways. My hypothesis idea of retrofitting coastal landscape backs to its natural creation, which will be a combination of four components of barrier islands, bay or lagoon, thumb-lands or forelands and wetlands. These four figurations are shaped based on different wave motions and currents. I discovered two scales of the solution. Short and long term phasing. For the long term, I suggested floating island, which I examined it by the different objects adding to the coral reef at the Revere Beach. Objective, found a missing part of coastal components, the floating islands. And, Flute Channel was innovative design approached by science data of Bernoulli’s principle. In this term, water transferred from coast to the wetlands behind it. The connected containers science data was a combination solution to this creation. Due to recent climate change, the character of environmental regional planning has shifted to address the anticipated extreme increases in sea level rise. As such, this project, based on existing scientific research/data, proposes a spatial, habitable landscape architectural solution as a model for flood mitigation for the East coastal edge. This proposal tests the potential for resilient coastal landscapes through a particular site located on Revere Beach, along with the New England coast in Massachusetts. The study demonstrates how through new public spaces designed to renew and protect the beach and the broader offshores, residents and visitors will be able to engage with this 21st Century, resilient beachfront. Also, residents and visitors will experience sophisticated efficient flood alleviation strategies during natural successive storm events. The inherent goal of this proposal is to create an innovative design intervention, which applies new principles of resiliency to the coastal landscape through a technical and cultural solution, and which can be a replicable model for global coastal edges elsewhere. Revitalizing Revere Beach, Ma is a case study to mitigate floods based on Bernoulli 's principle. This proposal projects an idea of connecting puddles with fissures a set of "Flute Channels", which is my innovation design approach to transfer water from coast to wetland behind it. It helps to lower down the sea level in high tides and sudden tides. Retrofitting Revere Beach as a case study for flood Mitigate with a New Resilient Coastal Landscape approach started to study the watershed of the East Coast that includes three parts of North, Mid-Atlantic, and South Atlantic. Each has a flow that moves up and then inward to the east, in a concave pattern precipitated scale toward the north caused by the velocity of currents. In compare to the Pacific coast, this figuration came to appears as the convex pattern as the currents also are affected differently based on the climate and the land used materials. The project focused on how to manipulate waves and the currents to preserve the land figuration and creates the natural coastal landscape. Geo Technical research and scientific data is the fundamental study that I got the benefit of understanding the exact waves motion, density, velocity of water and how the different type of currents affect the land shape. My project is translating the science into landscape architecture. Earth and ocean are not sustainable- they’re dynamic, they’re shifting, they’re changing the landscape and coast components; land-used material as such salty sand beaches and ripple effects of waves affect the land in different ways. My hypothesis idea of retrofitting coastal landscape backs to its natural creation, which will be a combination of four components of barrier islands, bay or lagoon, thumb-lands or forelands and wetlands. These four figurations are shaped based on different wave motions and currents. I discovered two scales of the solution. Short and long term phasing. For the long term, I suggested floating island, which I examined it by the different objects adding to the coral reef at the Revere Beach. Objective, found a missing part of coastal components, the floating islands. And, Flute Channel was innovative design approached by science data of Bernoulli’s principle. In this term, water transferred from coast to the wetlands behind it. The connected containers science data was a combination solution to this creation.Due to recent climate change, the character of environmental regional planning has shifted to address the anticipated extreme increases in sea level rise. As such, this project, based on existing scientific research/data, proposes a spatial, habitable landscape architectural solution as a model for flood mitigation for the East coastal edge. This proposal tests the potential for resilient coastal landscapes through a particular site located on Revere Beach, along with the New England coast in Massachusetts. The study demonstrates how through new public spaces designed to renew and protect the beach and the broader offshores, residents and visitors will be able to engage with this 21st Century, resilient beachfront. Also, residents and visitors will experience sophisticated efficient flood alleviation strategies during natural successive storm events. The inherent goal of this proposal is to create an innovative design intervention, which applies new principles of resiliency to the coastal landscape through a technical and cultural solution, and which can be a replicable model for global coastal edges elsewhere. Revitalizing Revere Beach, Ma is a case study to mitigate floods based on Bernoulli 's principle. This proposal projects an idea of connecting puddles with fissures a set of "Flute Channels", which is my innovation design approach to transfer water from coast to wetland behind it. It helps to lower down the sea level in high tides and sudden tides. Retrofitting Revere Beach as a case study for flood Mitigate with a New Resilient Coastal Landscape approach started to study the watershed of the East Coast that includes three parts of North, Mid-Atlantic, and South Atlantic. Each has a flow that moves up and then inward to the east, in a concave pattern precipitated scale toward the north caused by the velocity of currents. In compare to the Pacific coast, this figuration came to appears as the convex pattern as the currents also are affected differently based on the climate and the land used materials. The project focused on how to manipulate waves and the currents to preserve the land figuration and creates the natural coastal landscape. Geo Technical research and scientific data is the fundamental study that I got the benefit of understanding the exact waves motion, density, velocity of water and how the different type of currents affect the land shape. My project is translating the science into landscape architecture. Earth and ocean are not sustainable- they’re dynamic, they’re shifting, they’re changing the landscape and coast components; land-used material as such salty sand beaches and ripple effects of waves affect the land in different ways. My hypothesis idea of retrofitting coastal landscape backs to its natural creation, which will be a combination of four components of barrier islands, bay or lagoon, thumb-lands or forelands and wetlands. These four figurations are shaped based on different wave motions and currents. I discovered two scales of the solution. Short and long term phasing. For the long term, I suggested floating island, which I examined it by the different objects adding to the coral reef at the Revere Beach. Objective, found a missing part of coastal components, the floating islands. And, Flute Channel was innovative design approached by science data of Bernoulli’s principle. In this term, water transferred from coast to the wetlands behind it. The connected containers science data was a combination solution to this creation.
Author: Oliver Parodi
Author: Oliver Parodi
Author: Patrick O'Farrell