Scientific Approach Principle For New Resilient Coastal Landscape Design

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Scientific Approach Principle for New Resilient Coastal Landscape Design

Anahita Kianous
Scientific Approach Principle for New Resilient Coastal Landscape Design Book PDF

Author : Anahita Kianous
Publisher : Dissertation.com
Page : 78 pages
File Size : 48,9 Mb
Release : 2017-06-25
Category : Architecture
ISBN : 9781612334622

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Scientific Approach Principle for New Resilient Coastal Landscape Design by Anahita Kianous Pdf

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.

Structures of Coastal Resilience

Catherine Seavitt Nordenson,Guy Nordenson,Julia Chapman
Structures of Coastal Resilience Book PDF

Author : Catherine Seavitt Nordenson,Guy Nordenson,Julia Chapman
Publisher : Island Press
Page : 262 pages
File Size : 48,6 Mb
Release : 2018-06-21
Category : Architecture
ISBN : 9781610918589

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Structures of Coastal Resilience by Catherine Seavitt Nordenson,Guy Nordenson,Julia Chapman Pdf

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

Principles of Ecological Landscape Design

Travis Beck
Principles of Ecological Landscape Design Book PDF

Author : Travis Beck
Publisher : Island Press
Page : 297 pages
File Size : 54,6 Mb
Release : 2013-02
Category : Architecture
ISBN : 9781597267021

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Principles of Ecological Landscape Design by Travis Beck Pdf

Today, there is a growing demand for designed landscapes—from public parks to backyards—to be not only beautiful and functional, but also sustainable. Sustainability means more than just saving energy and resources. It requires integrating the landscapes we design with ecological systems. With Principles of Ecological Landscape Design, Travis Beck gives professionals and students the first book to translate the science of ecology into design practice. This groundbreaking work explains key ecological concepts and their application to the design and management of sustainable landscapes. It covers biogeography and plant selection, assembling plant communities, competition and coexistence, designing ecosystems, materials cycling and soil ecology, plant-animal interactions, biodiversity and stability, disturbance and succession, landscape ecology, and global change. Beck draws on real world cases where professionals have put ecological principles to use in the built landscape. The demand for this information is rising as professional associations like the American Society of Landscape Architects adopt new sustainability guidelines (SITES). But the need goes beyond certifications and rules. For constructed landscapes to perform as we need them to, we must get their underlying ecology right. Principles of Ecological Landscape Design provides the tools to do just that.

The Routledge Handbook of Urban Resilience

Michael A. Burayidi,Adriana Allen,John Twigg,Christine Wamsler
The Routledge Handbook of Urban Resilience Book PDF

Author : Michael A. Burayidi,Adriana Allen,John Twigg,Christine Wamsler
Publisher : Routledge
Page : 534 pages
File Size : 40,8 Mb
Release : 2019-11-27
Category : Political Science
ISBN : 9780429015007

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The Routledge Handbook of Urban Resilience by Michael A. Burayidi,Adriana Allen,John Twigg,Christine Wamsler Pdf

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.

Design for Flooding

Donald Watson,Michele Adams
Design for Flooding Book PDF

Author : Donald Watson,Michele Adams
Publisher : John Wiley & Sons
Page : 338 pages
File Size : 46,8 Mb
Release : 2010-11-23
Category : Architecture
ISBN : 9780470475645

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Design for Flooding by Donald Watson,Michele Adams Pdf

“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

Adapting to Climate Change

Bruce C. Glavovic,Gavin P. Smith
Adapting to Climate Change Book PDF

Author : Bruce C. Glavovic,Gavin P. Smith
Publisher : Springer Science & Business
Page : 461 pages
File Size : 46,7 Mb
Release : 2014-04-18
Category : Nature
ISBN : 9789401786317

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Adapting to Climate Change by Bruce C. Glavovic,Gavin P. Smith Pdf

This book identifies lessons learned from natural hazard experiences to help communities plan for and adapt to climate change. Written by leading experts, the case studies examine diverse experiences, from severe storms to sea-level related hazards, droughts, heat waves, wildfires, floods, earthquakes and tsunami, in North America, Europe, Australasia, Asia, Africa and Small Island Developing States. The lessons are grouped according to four imperatives: (i) Develop collaborative governance networks; (ii) build adaptive capabilities; (iii) invest in pre-event planning; and (iv) the moral imperative to undertake adaptive actions that advance resilience and sustainability. "A theoretically rich and empirically grounded analysis of the interface between disaster risk management and climate change adaptation, comprehensive yet accessible, and very timely." Mark Pelling, Department of Geography, King’s College London, UK. "This book represents a major contribution to the understanding of natural hazards planning as an urgent first step for reducing disaster risk and adapting to climate change to ensure sustainable and equitable development." Sálvano Briceño, Vice-Chair, Science Committee, Integrated Research on Disaster Risk IRDR, an ICSU/ISSC/ISDR programme. Former Director International Strategy for Disaster Reduction, UNISDR. “What a welcome addition to the young literature on climate adaptation and hazard mitigation! Bruc e Glavovic and Gavin Smith each bring to the editing task a rare blend of solid scholarly attainment and on-the-ground experience that shines through in this extensively-documented synthesis of theoretical ideas from the realms of climate and hazards and their validation in a rich set of diverse case studies pulled in from around the world. This book should remain a classic for many years.” William H. Hooke, American Meteorological Society.

Wildlife Management and Landscapes

William F. Porter,Chad J. Parent,Rosemary A. Stewart,David M. Williams
Wildlife Management and Landscapes Book PDF

Author : William F. Porter,Chad J. Parent,Rosemary A. Stewart,David M. Williams
Publisher : JHU Press
Page : 354 pages
File Size : 46,9 Mb
Release : 2021-05-11
Category : Science
ISBN : 9781421440200

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Wildlife Management and Landscapes by William F. Porter,Chad J. Parent,Rosemary A. Stewart,David M. Williams Pdf

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

Handbook on Resilience of Socio-Technical Systems

Matthias Ruth,Stefan Goessling-Reisemann
Handbook on Resilience of Socio Technical Systems Book PDF

Author : Matthias Ruth,Stefan Goessling-Reisemann
Publisher : Edward Elgar Publishing
Page : 424 pages
File Size : 49,5 Mb
Release : 2024-04-30
Category : Electronic
ISBN : 9781786439376

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Handbook on Resilience of Socio-Technical Systems by Matthias Ruth,Stefan Goessling-Reisemann Pdf

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.

Sustainable Coastal Design and Planning

Elizabeth Mossop
Sustainable Coastal Design and Planning Book PDF

Author : Elizabeth Mossop
Publisher : CRC Press
Page : 762 pages
File Size : 50,6 Mb
Release : 2018-09-27
Category : Nature
ISBN : 9780429856570

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Sustainable Coastal Design and Planning by Elizabeth Mossop Pdf

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.

Regenerative-Adaptive Design for Sustainable Development

Phillip B. Roös
Regenerative Adaptive Design for Sustainable Development Book PDF

Author : Phillip B. Roös
Publisher : Springer Nature
Page : 262 pages
File Size : 50,7 Mb
Release : 2020-09-15
Category : Science
ISBN : 9783030532345

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Regenerative-Adaptive Design for Sustainable Development by Phillip B. Roös Pdf

In this book, the author tests a regenerative-adaptive pattern language theory towards investigating the possibilities of a holistic, integrated design and planning method for sustainable development that incorporates the principles of regenerative design, as well as an adaptive pattern language that re-establishes our wholeness with nature, and considers the vulnerabilities of a changing landscape. The book examines an integral approach to contemporary theories of planning and design that explores the human-nature relationship patterns in social and spatial interconnections, between people and their natural environments. The interconnectedness of human and natural systems is used to scaffold possible solutions to address key environmental and sustainability issues that specifically address the need for patterns of behaviour that acknowledge the duality of ‘man and nature’. In 12 chapters, the book presents a holistic, regenerative-adaptive pattern language that encapsulates how communities can better appreciate landscape change under future climate effects, and acknowledges the importance to adapt to patterns of change of place and the environment and therefore inform the communities’ responses for sustainable development. The application of the regenerative-adaptive pattern language was tested along the Great Ocean Road region of the Victorian coast in Australia. The concluding chapters argues that for human settlements and cities to be resilient and sustainable, we must understand the interconnected patterns of human-built environments and natural systems, and how we function in a social-spatial dimension with these. The book is intended for practitioners and academic scholars with interest in sustainable development, regenerative design, pattern languages, biophilia, settlement planning, and climate change adaptation.

Environmental Planning for Oceans and Coasts

Michelle Eva Portman
Environmental Planning for Oceans and Coasts Book PDF

Author : Michelle Eva Portman
Publisher : Springer
Page : 237 pages
File Size : 42,6 Mb
Release : 2016-05-09
Category : Science
ISBN : 9783319269719

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Environmental Planning for Oceans and Coasts by Michelle Eva Portman Pdf

This book informs environmental planning professionals, students and those interested in oceans and coasts from an environmental perspective about what is needed for planning and management of these unique environments. It is comprised of twelve chapters organized in three parts. Part I highlights the basics tenets of environmental planning for oceans and coasts including important concepts from the general field of planning and coastal and ocean management (e.g., hydrography, oceans policy and law, geomorphology). Environmental problems inherent within oceans and coasts (such as sea level rise, marine pollution, overdevelopment, etc.) are also addressed, especially those at the land–sea interface. Part II covers those methodological approaches regularly used by planners working to improve environmental quality and conditions of oceans and coasts among them: integrated planning and management, ecosystem services, pollution prevention, and marine spatial planning. Part III focuses specifically on state-of-the-art tools and technologies employed by planners for marine and coastal protection. These include systematic conservation planning for protected areas, decision support tools, coastal adaptation techniques and various types of communication, including visualization, narration and tools for stakeholder participation. The final chapter in the book reviews the most important concepts covered throughout book and emphasizes the important role that environmental planners have to play in the protection and well-being of oceans and coasts. Michael K. Orbach, of the Nicholas School of the Environment at Duke University, penned the book's foreword.

Enhancing Disaster Preparedness

A. Nuno Martins,Mahmood Fayazi,Faten Kikano,Liliane Hobeica
Enhancing Disaster Preparedness Book PDF

Author : A. Nuno Martins,Mahmood Fayazi,Faten Kikano,Liliane Hobeica
Publisher : Elsevier
Page : 298 pages
File Size : 53,6 Mb
Release : 2020-10-07
Category : Science
ISBN : 9780128190791

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Enhancing Disaster Preparedness by A. Nuno Martins,Mahmood Fayazi,Faten Kikano,Liliane Hobeica Pdf

Enhancing Disaster Preparedness: From Humanitarian Architecture to Community Resilience relates to the fourth priority of the UNDRR’s Sendai Framework for Disaster Risk Reduction 2015–2030. Taking a wide understanding of disaster preparedness, the book deals with resilient responses and building capacities related to hazardous events, bringing some practical experiences and theoretical insights in this regard. Mostly based on field research conducted in the Global South by architects and other built-environment professionals, the book covers both post-disaster interventions (rebuilding and recovery) and development-related processes. Its three parts address the interlinkages between humanitarian design, community resilience, and inclusive governance, which are crucial for fostering effective disaster preparedness. Part I discusses the changing roles of architects and urban designers involved in the humanitarian sphere. Part II concentrates on resilience as a socioecological capacity to enhance preparedness within community-based spatial processes. Focused on global dynamics, Part III covers topics emphasizing the link between the management of crises, whether political or economic, at different levels of governance, and the vulnerability of communities and structures on the national and local scales. As such, the book approaches rising global priorities and brings timely lessons to support building a more equitable, safe, and resilient environment in a rapidly urbanized world. Explores Sendai’s fourth priority through a spatial lens Examines the role of humanitarian design in building resilience Critically revisits concepts such as incremental housing and building back better Provides examples of methodological tools for community engagement in resilience-building processes

Coastal Sediments 2015

Ping Wang,Julie D Rosati,Jun Cheng
Coastal Sediments 2015 Book PDF

Author : Ping Wang,Julie D Rosati,Jun Cheng
Publisher : World Scientific
Page : 3000 pages
File Size : 43,7 Mb
Release : 2015-04-23
Category : Technology & Engineering
ISBN : 9789814689984

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Coastal Sediments 2015 by Ping Wang,Julie D Rosati,Jun Cheng Pdf

This Proceedings contains over 260 papers on cutting-edge research presented at the eighth international Symposium on Coastal Sediment Processes, held May 11 ? 15, 2015, in San Diego, California, USA. This technical specialty conference was devoted to promoting an interdisciplinary exchange of state-of-the-art knowledge among researchers in the fields of coastal engineering, geology, oceanography, and related disciplines, with the theme of Understanding and Working with Nature. Focusing on the physical aspects of the sediment processes in various coastal environments, this Proceedings provides findings from the latest research and newest engineering applications. Sessions covered a wide range of topics including barrier islands, beaches, climate and sea level, cohesive and noncohesive sediments, coastal bluffs, coastal marsh, dredged sediments, inlet and navigation channels, regional sediment management, river deltas, shore protection, tsunamis, and vegetation-sediment interaction. Several special sessions included: Relevant science for changing coastlines: A Tribute to Gary Griggs; North Atlantic Coast Comprehensive Study and post-super-storm Sandy work; long-term coastal evolution; barrier islands of Louisiana; sea-level rise and super storms in a warming world; predicting decadal coastal geomorphic evolution; and contrasting Pacific coastal behavior with El Ni¤o Southern Oscillation (ENSO), are also featured. Contents:Keynote Addresses:Coastal Evolution and Human-Induced Sea-Level Rise: History and Prognosis (Robert J Nicholls)Addressing Local and Global Sediment Imbalances: Coastal Sediments as Rare Minerals (Dano Roelvink)Barrier Islands:Complex Responses of Barriers to Sea-Level Rise Emerging from a Model of Alongshore-Coupled Dynamic Profile Evolution (Andrew D Ashton & Jorge Lorenzo-Trueba)Deformation of an Isolated Offshore Sand Bar on Tidal Flat and Mergence with Beach Due to Waves (Toshiro San-Nami, Takaaki Uda, Shiho Miyahara & Masumi Serizawa)Beaches:Modeling Gravel Barrier Resilience During Storms with XBeach-G: The Role of Infiltration (Robert Mccall, Gerhard Masselink, Timothy Poate & Dano Roelvink)Numerical Investigation of Beach Profile Evolution Using a New Sediment Concentration Model (R Rahman, R Jayaratne, A E Tejada-Martinez & P Wang)Beach Changes Triggered by Imbalance of Longshore Sand Transport and Ground Subsidence on South Kujukuri Beach (Takaaki Uda, Ryoji Yoshida & Takahiro Todoroki)Climate and Sea Level:What Do We Do Now? (J William Kamphuis)A New Profile Fitting Approach to Estimating Beach Recession by Sea Level Rise (Wonchul Cho, Jong Sung Yoon, Dong Soo Hur & Jung L Lee)Coastal Bluffs:Evaluating Changes to Arctic Coastal Bluffs Using Repeat Aerial Photography and Structure-From-Motion Elevation Models (Ann E Gibbs, Matt Nolan & Bruce M Richmond)Puget Sound Feeder Bluff Mapping: Compiling and Completing a Sound-Wide Geomorphic Dataset (Andrea Maclennan, Jim Johannessen & Hugh Shipman)Coastal Marsh and Vegetation:Hydrodynamics and Sediment Dynamics in an Ice Covered Tidal Flat (Urs Neumeier & Colette Cheng)Mechanics of Sediment Suspension and Transport Within a Fringing Reef (Andrew W M Pomeroy, Ryan J Lowe, Marco Ghisalberti, Curt D Storlazzi, Michael Cuttler & Graham Symonds)Cohesive and Noncohesive Sediments:In-Situ Measurement of Erosion of Mixed Sand-Mud Sediments (Kevin B Briggs & J Calantoni)Stochastic Model of Fluid Mud Transport Under Wave and Current (Yasuyuki Nakagawa, Kazuo Nadaoka, Hiroshi Yagi, Yasuo Nihei & Hiroshi Uchikawa)Dredged Sediment:Numerical Model Studies to Support the Sustainable Management of Dredge Spoil Deposition in a Complex Nearshore Environment (Simon Weppe, Peter Mccomb & Lincoln Coe)Life Cycle Assessment for Dredged Sediment Placement Strategies (Matthew E Bates, Cate Fox-Lent, Linda Seymour, Ben A Wender & Igor Linkov)Inlet and Navigation Channels:A Tale of Five Harbours: Fluvial vs. Longshore Sediment Sources in Great Lakes Harbours (J Doucette & C Pinilla)Comparing Two Numerical Models in Simulating Hydrodynamics and Sediment Transport at a Dual Inlet System, West-Central Florida (Ping Wang, Jun Cheng, Mark H Horwitz & Kelly R Legault)Regional Sediment Management:Engineering with Nature: Nearshore Berm Placements At Fort Myers Beach And Perdido Key, Florida, USA (Katherine E Brutsch‚, Ping Wang, Julie D Rosati & Cheryl E Pollock)Preview Analysis to Sand Bypass System Design in the Port of Sisal, Yucat n (P E Reyes, P Salles, J L¢pez & E Casillas)River Deltas:Freshwater Vegetation Influence on Sediment Spatial Distribution in River Delta During Flood (W Nardin, D A Edmonds & S Fagherazzi)Observation of Sediment Processes of a Flood Event at the River Mouth of Tenryu, Japan with X-Band Radar and In Situ Measurements (Satoshi Takewaka, Takumi Okabe, Shigeru Kato & Shinichi Aoki)Shore Protection:Field Observations of Tidal Flow Separation at a Mega-Scale Beach Nourishment (Max Radermacher, Wilmar Zeelenberg, Matthieu De Schipper & Ad Reniers)Ecologically-Oriented Coastal Engineering: A New Approach for Bird Island Restoration and Avian Conservation at Sundown Island, Matagorada Bay, Texas (Cris Weber, Thomas Dixon, Dave Buzan, Juan Moya & Iliana Pe¤a)Tsunamis:Hindcast of Bathymetry Change in Oarai Port, Japan, Caused by the 2011 Tsunami (Yoshiaki Kuriyama, Yoshiyuki Uno & Kazuhiko Honda)Tsunami Sediment Analysis Based on Luminescence Measurement (Shinji Sato, Kanto Nishiguchi & Yusuke Yamanaka)Barrier Island of Louisiana:Mississippi River Delta Plain Barrier Island Sediment Dynamics and Implications for Managing Coastal Transgressionion (Michael D Miner, Ioannis Y Georgiou, Mark Kulp & Duncan Fitzgerald)Differential Sediment Consolidation Associated with Barrier Beach Restoration: Caminada Headland, South Louisiana (Mark R Byrnes, Chester Hedderman, Michael Hasen, P E, Harry Roberts, Syed Khalil & Steven G Underwood)Constrasting Pacific Coastal Behaviour with Enso:Constrasting Pacific Coastal Behaviour with Enso Modeling Interannual to Multi-Decadal Shoreline Rotations of Headland-Bounded Littoral Cells (Dylan Anderson & Peter Ruggiero)Wave Climate Change Associated with Enso Modoki and Tropical Expansion in Southeast Australia and Implications for Coastal Stability (Thomas R Mortlock & Ian D Goodwin)Long Term Coastal Evolution:Predicting Centuries of Morphodynamics in San Pablo Bay, California: Hindcast and Forecast Including Sea Level Rise (Mick van der Wegen, Bruce E Jaffe & Dano Roelvink)Modelling Long-Term Morphodynamics in Practice: Uncertainties and Compromises (J J Williams, T Conduch‚ & L S Esteves)North Atlantic Coast Comprehensive Study and Post Supper Storm Sandy Work:Modeling the Effects of Hard Structures on Dune Erosion and Overwash ? A Case Study of the Impact of Hurricane Sandy on the New Jersey Coast (C M Nederhoff, Q J Lodder, M Boers, J P Den Bieman & J K Miller)Conceptual Regional Sediment Budget for the US North Atlantic Coast (Julie Dean Rosati, Ashley E Frey, Alison S Grzegorzewski, Coraggio Maglio, Andrew Morang & Robert C Thomas)Predicting Decadal Coastal Geomorphic Evolution:Decadal Scale Shoreline Change Arises from Large-Scale Interactions, While Small-Scale Changes are Forgotten: Observational Evidence (A B Murray, E D Lazarus, L J Moore, J Lightfoot, A D Ashton, D E Mcnamara & K Ells)Equilibrium-Based Foreshore Beach Profile Change Model for Long-Term Data (Masayuki Banno, Yoshiaki Kuriyama & Noriaki Hashimoto)Relevant Science for Changing Coastline a Tribute to Gary Griggs:Quantifying the Geomorphic Resiliency of Barrier Island Beaches (Cheryl J Hapke, Owen T Brenner & Rachel E Henderson)Sedimentology of Intertidal Sediment Deposits After Dam Removal on a Coastal River (Ian M Miller, Andrea Ogston & Julia Dolan)Sea Level Rise and Super Storm in a Warming World:Multi-Annual Sand and Gravel Beach Response to Storms in the Southwest of England (Tim Scott, Gerd Masselink, Tim O'hare, Mark Davidson & Paul Russell)Regional Variability in Atlantic Storm Response Along the Southwest Coast of England (Gerd Masselink, Tim Scott, Daniel Conley, Mark Davidson & Paul Russell)and other papers Readership: Graduate students and research in coastal engineering. Key Features:Most up-to-date information and knowledgeBroad world-wide attendanceIn depth technical focus. These proceedings have and should continue to serve as widely used reference booksKeywords:Coastal Engineering;Coastal Geology;Coastal Processes;Shore Protection;Sediment Transport;Beach Processes;Coastal Morphology

Urban Ecology

Richard T. T. Forman
Urban Ecology Book PDF

Author : Richard T. T. Forman
Publisher : Cambridge University Press
Page : 477 pages
File Size : 46,9 Mb
Release : 2014-02-13
Category : Nature
ISBN : 9781107007000

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Urban Ecology by Richard T. T. Forman Pdf

The first richly illustrated worldwide portrayal of urban ecology, tying together organisms, built structures, and the physical environment around cities.

Coastal Flood Risk Reduction

Samuel Brody,Yoonjeong Lee,Baukje Kothuis
Coastal Flood Risk Reduction Book PDF

Author : Samuel Brody,Yoonjeong Lee,Baukje Kothuis
Publisher : Elsevier
Page : 450 pages
File Size : 43,8 Mb
Release : 2022-04-27
Category : Science
ISBN : 9780323852524

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Coastal Flood Risk Reduction by Samuel Brody,Yoonjeong Lee,Baukje Kothuis Pdf

Coastal Flood Risk Reduction: The Netherlands and the U.S. Upper Texas Coast represents the culmination of a 5-year international research and education partnership funded by the US National Science Foundation (NSF) and more than 10 years of collaboration between Dutch and U.S. flood experts on the basic issue of how to protect society from growing flood risks. Multiple case studies integrating the fields of engineering, hydrology, landscape architecture, economics, and planning address the underlying characteristics of physical flood risks and their prediction; human communities and the associated built environment; physical, social, and built-environment variables; and mitigation techniques. In recognition of the lack of systematic research and the growing societal need to better understand flood impacts, this edited book provides an in-depth, comparative evaluation of flood problems and solutions in two key places: the Netherlands and the U.S. Upper Texas Coast. Both regions are extremely flood-prone and have experienced continual adverse impacts throughout their histories. For researchers in flood management, geographers, hydrologists, environmental studies, and social science as well as policymakers and decision-makers in flood management authorities and related industries, this book provides an essential resource. Introduces integrated comparative work on flood risk reduction and management across disciplines and international boundaries Presents chapters written by dozens of experts across six U.S. and Dutch universities that have formally participated in the international research and education program funded by the U.S. National Science Foundation (NSF) Provides a basis for understanding and mitigating flood risk over a range of necessary perspectives, from modeling inputs to design solutions Integrates cutting-edge scientific methods and state-of-the-art knowledge with examples of specific solutions and how they are being implemented in each national case study