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Author: Anahita Kianous Publisher: Dissertation.com ISBN: 1612334628 Category : Architecture Languages : en Pages : 79
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: Anahita Kianous Publisher: Dissertation.com ISBN: 1612334628 Category : Architecture Languages : en Pages : 79
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: Catherine Seavitt Nordenson Publisher: Island Press ISBN: 1610918584 Category : Architecture Languages : en Pages : 262
Book Description
Front Cover -- Title Page -- Half Title -- Copyright -- Contents -- Foreword by Michael Kimmelman, architecture critic, The New York Times -- Acknowledgments -- Chapter 1. Designing for Coastal Resiliency -- Chapter 2. Visualizing the Coast -- Chapter 3. Reimagining the Floodplain -- Chapter 4. Mapping Coastal Futures -- Chapter 5. Centennial Projections -- Afterword by Jeffrey P. Hebert, vice-president for adaptation and resilience, The Water Institute of the Gulf -- Endnotes -- Glossary -- Index
Author: Reinette Biggs Publisher: Cambridge University Press ISBN: 110708265X Category : Business & Economics Languages : en Pages : 317
Book Description
Reflecting the very latest research, this book provides an in-depth review of the role of resilience in the management of social-ecological systems and the ecosystem services they provide. Leaders in the field outline seven principles for building resilience in social-ecological systems, examining how these can be applied to advance sustainability.
Author: Brian Walker Publisher: Island Press ISBN: 1597266221 Category : Nature Languages : en Pages : 192
Book Description
Increasingly, cracks are appearing in the capacity of communities, ecosystems, and landscapes to provide the goods and services that sustain our planet's well-being. The response from most quarters has been for "more of the same" that created the situation in the first place: more control, more intensification, and greater efficiency. "Resilience thinking" offers a different way of understanding the world and a new approach to managing resources. It embraces human and natural systems as complex entities continually adapting through cycles of change, and seeks to understand the qualities of a system that must be maintained or enhanced in order to achieve sustainability. It explains why greater efficiency by itself cannot solve resource problems and offers a constructive alternative that opens up options rather than closing them down. In Resilience Thinking, scientist Brian Walker and science writer David Salt present an accessible introduction to the emerging paradigm of resilience. The book arose out of appeals from colleagues in science and industry for a plainly written account of what resilience is all about and how a resilience approach differs from current practices. Rather than complicated theory, the book offers a conceptual overview along with five case studies of resilience thinking in the real world. It is an engaging and important work for anyone interested in managing risk in a complex world.
Author: Travis Beck Publisher: Island Press ISBN: 1597267023 Category : Architecture Languages : en Pages : 297
Book Description
This groundbreaking work explains key ecological concepts and their application to the design and management of sustainable landscapes. It covers topics from biogeography and plant selection to global change. Beck draws on real world cases where professionals have put ecological principles to use in the built landscape.
Author: Michael A. Burayidi Publisher: Routledge ISBN: 0429015003 Category : Political Science Languages : en Pages : 534
Book Description
This volume provides a comprehensive discussion and overview of urban resilience, including socio-ecological and economic hazard and disaster resilience. It provides a summary of state of the art thinking on resilience, the different approaches, tools and methodologies for understanding the subject in urban contexts, and brings together related reflections and initiatives. Throughout the different chapters, the handbook critically examines and reviews the resilience concept from various disciplinary and professional perspectives. It also discusses major urban crises, past and recent, and the generic lessons they provide for resilience. In this context, the authors provide case studies from different places and times, including historical material and contemporary examples, and studies that offer concrete guidance on how to approach urban resilience. Other chapters focus on how current understanding of urban systems – such as shrinking cities, green infrastructure, disaster volunteerism, and urban energy systems – are affecting the capacity of urban citizens, settlements and nation-states to respond to different forms and levels of stressors and shocks. The handbook concludes with a synthesis of the state of the art knowledge on resilience and points the way forward in refining the conceptualization and application of urban resilience. The book is intended for scholars and graduate students in urban studies, environmental and sustainability studies, geography, planning, architecture, urban design, political science and sociology, for whom it will provide an invaluable and up-to-date guide to current approaches across these disciplines that converge in the study of urban resilience. The book also provides important direction to practitioners and civic leaders who are engaged in supporting cities and regions to position themselves for resilience in the face of climate change, unpredictable socioenvironmental shocks and incremental risk accumulation.
Author: William F. Porter Publisher: JHU Press ISBN: 1421440202 Category : Science Languages : en Pages : 354
Book Description
Wildlife management specialists and landscape ecologists offer a new perspective on the important intersection of these fields in the twenty-first century. It's been clear for decades that landscape-level patterns and processes, along with the tenets and tools of landscape ecology, are vitally important in understanding wildlife-habitat relationships and sustaining wildlife populations. Today, significant shifts in the spatial scale of extractive, agricultural, ranching, and urban land uses are upon us, making it more important than ever before to connect wildlife management and landscape ecology. Landscape ecologists must understand the constraints that wildlife managers face and be able to use that knowledge to translate their work into more practical applications. Wildlife managers, for their part, can benefit greatly from becoming comfortable with the vocabulary, conceptual processes, and perspectives of landscape ecologists. In Wildlife Management and Landscapes, the foremost landscape ecology experts and wildlife management specialists come together to discuss the emerging role of landscape concepts in habitat management. Their contributions • make the case that a landscape perspective is necessary to address management questions • translate concepts in landscape ecology to wildlife management • explain why studying some important habitat-wildlife relationships is still inherently difficult • explore the dynamic and heterogeneous structure of natural systems • reveal why factors such as soil, hydrology, fire, grazing, and timber harvest lead to uncertainty in management decisions • explain matching scale between population processes and management • discuss limitations to management across jurisdictional boundaries and balancing objectives of private landowners and management agencies • offer practical ideas for improving communication between professionals • outline the impediments that limit a full union of landscape ecology and wildlife management Using concrete examples of modern conservation challenges that range from oil and gas development to agriculture and urbanization, the volume posits that shifts in conservation funding from a hunter constituent base to other sources will bring a dramatic change in the way we manage wildlife. Explicating the foundational similarity of wildlife management and landscape ecology, Wildlife and Landscapes builds crucial bridges between theoretical and practical applications. Contributors: Jocelyn L. Aycrigg, Guillaume Bastille-Rousseau, Jon P. Beckmann, Joseph R. Bennett, William M. Block, Todd R. Bogenschutz, Teresa C. Cohn, John W. Connelly, Courtney J. Conway, Bridgett E. Costanzo, David D. Diamond, Karl A. Didier, Lee F. Elliott, Michael E. Estey, Lenore Fahrig, Cameron J. Fiss, Jacqueline L. Frair, Elsa M. Haubold, Fidel Hernández, Jodi A. Hilty, Joseph D. Holbrook, Cynthia A. Jacobson, Kevin M. Johnson, Jeffrey K. Keller, Jeffery L. Larkin, Kimberly A. Lisgo, Casey A. Lott, Amanda E. Martin, James A. Martin, Darin J. McNeil, Michael L. Morrison, Betsy E. Neely, Neal D. Niemuth, Chad J. Parent, Humberto L. Perotto-Baldivieso, Ronald D. Pritchert, Fiona K. A. Schmiegelow, Amanda L. Sesser, Gregory J. Soulliere, Leona K. Svancara, Stephen C. Torbit, Joseph A. Veech, Kerri T. Vierling, Greg Wathen, David M. Williams, Mark J. Witecha, John M. Yeiser
Author: Publisher: Academic Press ISBN: 0080878857 Category : Science Languages : en Pages : 4604
Book Description
The study of estuaries and coasts has seen enormous growth in recent years, since changes in these areas have a large effect on the food chain, as well as on the physics and chemistry of the ocean. As the coasts and river banks around the world become more densely populated, the pressure on these ecosystems intensifies, putting a new focus on environmental, socio-economic and policy issues. Written by a team of international expert scientists, under the guidance of Chief Editors Eric Wolanski and Donald McClusky, the Treatise on Estuarine and Coastal Science, Ten Volume Set examines topics in depth, and aims to provide a comprehensive scientific resource for all professionals and students in the area of estuarine and coastal science Most up-to-date reference for system-based coastal and estuarine science and management, from the inland watershed to the ocean shelf Chief editors have assembled a world-class team of volume editors and contributing authors Approach focuses on the physical, biological, chemistry, ecosystem, human, ecological and economics processes, to show how to best use multidisciplinary science to ensure earth's sustainability Provides a comprehensive scientific resource for all professionals and students in the area of estuarine and coastal science Features up-to-date chapters covering a full range of topics
Author: Matthias Ruth Publisher: Edward Elgar Publishing ISBN: 1786439379 Category : Crisis management Languages : en Pages : 429
Book Description
The goal to improve the resilience of social systems – communities and their economies – is increasingly adopted by decision makers. This unique and comprehensive Handbook focuses on the interdependencies of these social systems and the technologies that support them. Special attention is given to the ways in which resilience is conceptualized by different disciplines, how resilience may be assessed, and how resilience strategies are implemented. Case illustrations are presented throughout to aid understanding.
Author: Elizabeth Mossop Publisher: CRC Press ISBN: 0429856571 Category : Nature Languages : en Pages : 762
Book Description
As different parts of the globe deal with the challenges of coastal settlements in the Anthropcene landscape of increasing uncertainty, the methods of design offer new strategies for developing and testing solutions. These complex problems require collaboration across disciplines, with scientists, planners, engineers, designers, and others able to work together in finding new ways of living in coastal and changing landscapes. Sustainable Coastal Design and Planning is an outstanding collection of essays by leading practitioners and academics from across the globe on design and planning for coastal resilience in the face of climate change. It thoroughly explores the questions of coastal change at different scales and provides international case studies that illustrate diverse strategies in different geographies and cultures. Taken as a whole, they canvas a broad palette of approaches and techniques for engaging these complex problems. Divided in two parts, this book focuses on how to develop solutions through multidisciplinary design thinking and informs all stakeholders on specific methods and practices that will be needed to work effectively in this dynamic space.
Author: Anahita Kianous
Author: Anahita Kianous
Author: Catherine Seavitt Nordenson
Author: Reinette Biggs
Author: Brian Walker
Author: Travis Beck
Author: Michael A. Burayidi
Author: William F. Porter
Author: 
Author: Matthias Ruth
Author: Elizabeth Mossop