Development of a Low-flow Hazard Model for the Fraser Basin, British Columbia


Book Description

The epicentre of the mountain pine beetle (MPB) outbreak at this time is in the Fraser River drainage basin in British Columbia. Due to the infestation's area and associated salvage harvest options, the potential exists for widespread and significant local and regional hydrologic impacts within the basin. This paper discusses a low-flow hazard model that was developed for third-order catchments within the Fraser River watershed. Baseline and mountain pine beetle-infestation and harvest scenarios were modeled for seven catchments for direct comparison with the Variable Infiltration Capacity modeling results. The model is to be used in risk-based hydrology modeling to produce a comprehensive knowledge of mountain pine beetle-infestation effects on the hydrology of the Fraser River watershed and its major sub-basins in British Columbia, Canada.--Document.




Development and Application of a Peak-flow Hazard Model for the Fraser Basin (British Columbia)


Book Description

The epicentre of the mountain pine beetle (MPB) outbreak at this time is in the Fraser River drainage basin in British Columbia. Due to the infestation's area and associated salvage harvest options, the potential exists for widespread and significant local and regional hydrologic impacts within the basin. The main objective of this paper is to estimate impacts from land-cover change on average peak flows for all third-order (1:50,000) watersheds in British Columbia because peak flows are a major concern for flood hazard, erosion and sedimentation impacts, and other hydrologic consequences. The goal is to provide a model that can be applied to all watersheds and, in particular, ungauged basins throughout the province.--Includes text from document and publisher's website.




Information Forestry


Book Description




Rivers of North America


Book Description

AWARDS:2006 Outstanding Academic Title, by CHOICEThe 2005 Award for Excellence in Professional and Scholarly Publishing by the Association of American Publishers (AAP) Best Reference 2005, by the Library JournalRivers of North America is an important reference for scientists, ecologists, and students studying rivers and their ecosystems. It brings together information from several regional specialists on the major river basins of North America, presented in a large-format, full-color book. The introduction covers general aspects of geology, hydrology, ecology and human impacts on rivers. This is followed by 22 chapters on the major river basins. Each chapter begins with a full-page color photograph and includes several additional photographs within the text. These chapters feature three to five rivers of the basin/region, and cover several other rivers with one-page summaries. Rivers selected for coverage include the largest, the most natural, and the most affected by human impact. This one-of-a-kind resource is professionally illustrated with maps and color photographs of the key river basins. Readers can compare one river system to another in terms of its physiography, hydrology, ecology, biodiversity, and human impacts.* Extensive treatment provides a single source of information for North America's major rivers* Regional specialists provide authoritative information on more than 200 rivers* Full-color photographs and topographical maps demonstrate the beauty, major features, and uniqueness of each river system* One-page summaries help readers quickly find key statistics and make comparisons among rivers







Risk Governance


Book Description

This book explores the common language of politics, ecology and risk, and crosses their conceptual divides. It seeks to shed light on the underlying structural factors, processes, players and interactions in the risk scenario, all of which influence decision-making that both increases and reduces disaster risk. The first section explores risk governance under conditions of increasing complexity, diversity and change. The discussion includes chapters on The problem of governance in the risk society; Making sense of decentralization; Understanding and conceptualizing risk in large-scale social-ecological systems; The disaster epidemic and Structure, process, and agency in the evaluation of risk governance. Part II, focused on governance in regions and domains of risk, includes nine chapters with discussion of Climate governance and climate change and society; Climate change and the politics of uncertainty; Risk complexity and governance in mountain environments; On the edge: Coastal governance and risk and Governance of megacity disaster risks, among other important topics. Part III discusses directions for further advancement in risk governance, with ten chapters on such topics as the transition From risk society to security society; Governing risk tolerability; Risk and adaptive planning for coastal cities; Profiling risk governance in natural hazards contexts; Confronting the risk of large disasters in nature and Transitions into and out of a crisis mode of socio-ecological systems. The book presents a comprehensive examination of the complexity of both risk and environmental policy-making and of their multiple—and not always visible—interactions in the context of social–ecological systems. Just as important, it also addresses unseen and neglected complementarities between regulatory policy-making and ordinary individual decision-making through the actions of nongovernmental actors. A range of distinguished scholars from a diverse set of disciplines have contributed to the book with their expertise in many areas, including disaster studies, emergency planning and management, ecology, sustainability, environmental planning and management, climate change, geography, spatial planning, development studies, economy, political sciences, public administration, communication, as well as physics and geology.







Integrated River Basin Management through Decentralization


Book Description

Drawing upon a worldwide survey of river basin organizations and in-depth studies of eight river basins in a variety of locations around the globe, this book examines how institutional arrangements for managing water resources at the river-basin level have been designed and implemented, the impetus for these arrangements, and what institutional features appear to be associated with greater or lesser success in river basin management.




Planning on the Edge


Book Description

Vancouver is heralded around the world as a model for sustainable development. In Planning on the Edge, nationally and internationally renowned planning scholars, activists, and Indigenous leaders assess whether the city’s reputation is warranted. While recognizing the many successes of the “Vancouverism” model, the contributors acknowledge that the forces of globalization and speculative property development have increased social inequality and housing insecurity since the 1980s in the city and the region. To determine the city’s prospects for overcoming these problems, they look at city planning from all angles, including planning for the Indigenous population, environmental and disaster planning, housing and migration, and transportation and water management. By looking at policies at the local, provincial, and federal levels and taking reconciliation with Indigenous peoples into account, Planning on the Edge highlights the kinds of policies and practices needed to reorient Vancouver’s development trajectory along a more environmentally sound and equitable path.




Debris-flow Hazards and Related Phenomena


Book Description

With climate change and deforestation, debris flows and debris avalanches have become the most significant landslide hazards in many countries. In recent years there have been numerous debris flow avalanches in Southern Europe, South America and the Indian Subcontinent, resulting in major catastrophes and large loss of life. This is therefore a major high-profile problem for the world's governments and for the engineers and scientists concerned. Matthias Jakob and Oldrich Hungr are ideally suited to edit this book. Matthias Jakob has worked on debris flow for over a decade and has had numerous papers published on the topic, as well as working as a consultant on debris flow for municipal and provincial governments. Oldrich Hungr has worked on site investigations on debris flow, avalanches and rockfall, with emphasis on slope stability analysis and evaluation of risks to roads in built-up areas. He has also developed mathematical models for landslide dynamic analysis. They have invited world-renowned experts to joint them in this book.