Implications of Climate Change for Strategic Conservation and Restoration of Tidal Wetlands in the U.S. Portion of the Salish Sea PDF Download
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Author: Brittany Robinson Jones
Publisher:
ISBN:
Category : Salt marshes
Languages : en
Pages : 148
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Book Description
Coastal ecosystems are potentially at risk of sea level rise and other accelerated changes in climate. The overall goal of this thesis was to explore the potential influences of spatially varied climate change impacts on tidal wetlands in the U.S. portion of the Salish Sea and discuss implications for strategic conservation and restoration of current and future wetland areas. Since sediment accretion is a vital mechanism for tidal wetland persistence under sea level rise, the overall objective of Chapter 1 was to determine the relationship between sediment accretion rate and surface elevation in a restored and a natural tidal wetland in the Stillaguamish River delta. In the restored zone, there was a negative linear relationship between sediment accretion rates and surface elevation but a quadratic relationship in the reference zone. Vegetation, including dominant vegetation species and vegetation height, also helped explain the pattern of sediment accretion rates. The objective of Chapter 2 was to conduct a spatial analysis of potential tidal wetland responses to future climate change in the U.S. portion of the Salish Sea in order to simulate the (1) overall change in wetland area, (2) potential for tidal wetlands to persist locally, and (3) opportunity for transgressive migration between initial conditions and 2025, 2050, 2075, and 2100 under a low (0.5 m between 2000 and 2100) and high (1.4 m between 2000 and 2100) sea level rise scenario. Total tidal wetland area was projected to decline under both sea level rise scenarios, but some wetland types (e.g., emergent marsh) were projected to expand. Projected local persistence was greater for tidal flat and emergent marsh compared to transitional scrub-shrub and tidal swamp. While the projected area for transgressive migration was small, this process may serve as a buffer for wetland loss by providing dry land for the establishment of new wetland areas. Identifying variability in the adaptive capacity and opportunity for transgressive migration of tidal wetlands to climate change impacts is an important tool for prioritizing sites in order to protect wetlands and enhance their persistence and health into the future along with the ecosystem services they provide. The objectives of Chapter 3 were to model the projected changes in tidal wetlands in the U.S. portion of the Salish Sea without levee protection and to apply the findings of Chapter 2 to a framework of strategic conservation and restoration of tidal wetlands. The projected change in total wetland area between initial conditions and 2100 switched from a decline with levee protection to an expansion without levee protection in the San Juan and Whidbey sub-basins and the Skagit and Stillaguamish River deltas under both sea level rise scenarios. The Skagit, Stillaguamish, and Snohomish river deltas were identified as high priority for conservation and restoration based on historical potential and degradation level under a climate change context, followed by the Nooksack and Samish. In order for conservation and restoration efforts of tidal wetlands to be successful and persist into the future, this study shows that climate change should be considered to identify current and future tidal wetland areas that are projected to exist under the influence of accelerated sea level rise. Identifying priority deltas for tidal wetland conservation and restoration under a climate change framework will be beneficial for the allocation of resources in the short- and long-term.
Author: Brittany Robinson Jones
Publisher:
ISBN:
Category : Salt marshes
Languages : en
Pages : 148
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Book Description
Coastal ecosystems are potentially at risk of sea level rise and other accelerated changes in climate. The overall goal of this thesis was to explore the potential influences of spatially varied climate change impacts on tidal wetlands in the U.S. portion of the Salish Sea and discuss implications for strategic conservation and restoration of current and future wetland areas. Since sediment accretion is a vital mechanism for tidal wetland persistence under sea level rise, the overall objective of Chapter 1 was to determine the relationship between sediment accretion rate and surface elevation in a restored and a natural tidal wetland in the Stillaguamish River delta. In the restored zone, there was a negative linear relationship between sediment accretion rates and surface elevation but a quadratic relationship in the reference zone. Vegetation, including dominant vegetation species and vegetation height, also helped explain the pattern of sediment accretion rates. The objective of Chapter 2 was to conduct a spatial analysis of potential tidal wetland responses to future climate change in the U.S. portion of the Salish Sea in order to simulate the (1) overall change in wetland area, (2) potential for tidal wetlands to persist locally, and (3) opportunity for transgressive migration between initial conditions and 2025, 2050, 2075, and 2100 under a low (0.5 m between 2000 and 2100) and high (1.4 m between 2000 and 2100) sea level rise scenario. Total tidal wetland area was projected to decline under both sea level rise scenarios, but some wetland types (e.g., emergent marsh) were projected to expand. Projected local persistence was greater for tidal flat and emergent marsh compared to transitional scrub-shrub and tidal swamp. While the projected area for transgressive migration was small, this process may serve as a buffer for wetland loss by providing dry land for the establishment of new wetland areas. Identifying variability in the adaptive capacity and opportunity for transgressive migration of tidal wetlands to climate change impacts is an important tool for prioritizing sites in order to protect wetlands and enhance their persistence and health into the future along with the ecosystem services they provide. The objectives of Chapter 3 were to model the projected changes in tidal wetlands in the U.S. portion of the Salish Sea without levee protection and to apply the findings of Chapter 2 to a framework of strategic conservation and restoration of tidal wetlands. The projected change in total wetland area between initial conditions and 2100 switched from a decline with levee protection to an expansion without levee protection in the San Juan and Whidbey sub-basins and the Skagit and Stillaguamish River deltas under both sea level rise scenarios. The Skagit, Stillaguamish, and Snohomish river deltas were identified as high priority for conservation and restoration based on historical potential and degradation level under a climate change context, followed by the Nooksack and Samish. In order for conservation and restoration efforts of tidal wetlands to be successful and persist into the future, this study shows that climate change should be considered to identify current and future tidal wetland areas that are projected to exist under the influence of accelerated sea level rise. Identifying priority deltas for tidal wetland conservation and restoration under a climate change framework will be beneficial for the allocation of resources in the short- and long-term.
Author: Julie Koppel Maldonado
Publisher: Springer
ISBN: 3319052667
Category : Science
Languages : en
Pages : 178
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Book Description
With a long history and deep connection to the Earth’s resources, indigenous peoples have an intimate understanding and ability to observe the impacts linked to climate change. Traditional ecological knowledge and tribal experience play a key role in developing future scientific solutions for adaptation to the impacts. The book explores climate-related issues for indigenous communities in the United States, including loss of traditional knowledge, forests and ecosystems, food security and traditional foods, as well as water, Arctic sea ice loss, permafrost thaw and relocation. The book also highlights how tribal communities and programs are responding to the changing environments. Fifty authors from tribal communities, academia, government agencies and NGOs contributed to the book. Previously published in Climatic Change, Volume 120, Issue 3, 2013.
Author: Glenn R. Guntenspergen
Publisher:
ISBN:
Category : Climatic changes
Languages : en
Pages : 120
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Book Description
Author: Karen Maria Thorne
Publisher:
ISBN: 9781267663191
Category :
Languages : en
Pages :
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Book Description
The response of ecosystems to climate change is difficult to evaluate and predict, and often are constrained by anthropogenic modifications to the natural environment. Here, I assess the impacts of sea-level rise and extreme storm events on a tidal salt marsh ecosystem located in San Francisco Bay estuary (California, USA) that contains local endemic and endangered wildlife species. The San Francisco Bay estuary has been heavily impacted from human development resulting in the loss of over 80% of its historic tidal salt marshes. In this dissertation, I hypothesize that there will be short-term impacts from extreme storm events and long-term impacts from sea-level rise on the San Pablo Bay endemic marsh wildlife. The first chapter of this dissertation is a discussion about the current state of understanding about climate change impacts on salt marsh habitats and wildlife, using San Pablo Bay National Wildlife Refuge (SPBNWR) as a case study. The second chapter documents two extreme storm events in 2010 and 2011, and discusses impacts on available marsh habitats. At peak storm surge, over 65% (2010) and 93% (2011) of the marsh habitat for wildlife was under water, presumably increasing predation and drowning risk. In the third chapter, I evaluate if SPBNWR is currently keeping pace with sea-level rise and what biogeomorphic processes may be important. Subsidence and accretion was found to vary spatially, with only 37% of the marsh keeping pace with current sea-level rise rates. Surprisingly, I found widespread subsidence (55%) in areas adjacent to constructed levees. Using Akaike Information Criterion (AICc), I found that the distance from the sediment source (San Pablo Bay edge) was the most important covariate to determine accretion. In the fourth chapter, I develop a spatially-explicit, sea-level rise response model for SPBNWR to assess habitat resiliency to 2100. The model projected a loss of most high marsh habitat by 2050, and a loss of most mid marsh habitat by 2040 to 2060. Low marsh habitat showed a temporary increase in area between 2030 and 2050, with the peak (658 ha) in 2040. A large eastern portion of the marsh or 75% of the area (1,004 ha) converted to predominantly mudflat by 2060 with a 47 cm increase in sea-level. However, an almost complete conversion to mudflat occurred with a 75 cm sea-level rise by 2080, with
Author: Michael J. Furniss
Publisher: DIANE Publishing
ISBN: 1437939848
Category : Nature
Languages : en
Pages : 80
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Book Description
This is a print on demand edition of a hard to find publication. Water from forested watersheds provides irreplaceable habitat for aquatic and riparian species and supports our homes, farms, industries, and energy production. Yet population pressures, land uses, and rapid climate change combine to seriously threaten these waters and the resilience of watersheds in most places. Forest land managers are expected to anticipate and respond to these threats and steward forested watersheds to ensure the sustained protection and provision of water and the services it provides. Contents of this report: (1) Intro.; (2) Background: Forests and Water; Climate Change: Hydrologic Responses and Ecosystem Services; (3) Moving Forward: Think; Collaborate; Act; (4) Closing; (5) Examples of Watershed Stewardship. Illus.
Author: Mary Doyle
Publisher: Island Press
ISBN: 1610910893
Category : Science
Languages : en
Pages : 345
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Book Description
Large-Scale Ecosystem Restoration presents case studies of five of the most noteworthy large-scale restoration projects in the United States: Chesapeake Bay, the Everglades, California Bay Delta, the Platte River Basin, and the Upper Mississippi River System. These projects embody current efforts to address ecosystem restoration in an integrative and dynamic manner, at large spatial scale, involving whole (or even multiple) watersheds, and with complex stakeholder and public roles. Representing a variety of geographic regions and project structures, the cases shed light on the central controversies that have marked each project, outlining • the history of the project • the environmental challenges that generated it • the difficulties of approaching the project on an ecosystem-wide basis • techniques for conflict resolution and consensus building • the ongoing role of science in decision making • the means of dealing with uncertainties A concluding chapter offers a guide to assessing the progress of largescale restoration projects. Large-Scale Ecosystem Restoration examines some of the most difficult and important issues involved in restoring and protecting natural systems. It is a landmark publication for scientists, policymakers, and anyone working to protect or restore landscapes or watersheds.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 508
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Book Description
Author: Joseph K. Gaydos
Publisher: Sasquatch Books
ISBN: 1632173670
Category : Juvenile Nonfiction
Languages : en
Pages : 65
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Book Description
Filled with beautiful photography and engaging text, Explore the Salish Sea inspires children to explore the unique marine ecosystem that encompasses the coastal waters from Seattle's Puget Sound up to the Strait of Juan de Fuca and the Georgia Strait of British Columbia. Discover the Salish Sea and learn about its vibrant ecosystem in this engaging non-fiction narrative that inspires outdoor exploration. Filled with full-color photography, this book covers wildlife habitats, geodiversity, intertidal and subtidal sea life, and highlights what is unique to this Pacific Northwest ecosystem.
Author: Donna Marie Bilkovic
Publisher: CRC Press
ISBN: 1351647504
Category : Science
Languages : en
Pages : 956
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Book Description
Living Shorelines: The Science and Management of Nature-based Coastal Protection compiles, synthesizes and interprets the current state of the knowledge on the science and practice of nature-based shoreline protection. This book will serve as a valuable reference to guide scientists, students, managers, planners, regulators, environmental and engineering consultants, and others engaged in the design and implementation of living shorelines. This volume provides a background and history of living shorelines, understandings on management, policy, and project designs, technical synthesis of the science related to living shorelines including insights from new studies, and the identification of research needs, lessons learned, and perspectives on future guidance. Makes recommendations on the correct usage of the term living shorelines Offers guidance for shoreline management in the future Includes lessons learned from the practice of shoreline restoration/conservation Synthesizes regional perspectives to identify strategies for the successful design and implementation of living shorelines Reviews specific design criteria for successful implementation of living shorelines Provides detailed discussions of social, regulatory, scientific and technical considerations to justify and design living shoreline projects International perspectives are presented from leading researchers and managers in the East, West and Gulf coasts of the United States, Europe, Canada, and Australia that are working on natural approaches to shoreline management. The broad geographic scope and interdisciplinary nature of contributing authors will help to facilitate dialogue and transfer knowledge among different disciplines and across different regions. This book provides coastal communities with the scientific foundation and practical guidance necessary to implement effective shoreline management that enhances ecosystem services and coastal resilience now and into the future.
Author: Walter V. Reid
Publisher:
ISBN:
Category : Nature
Languages : en
Pages : 68
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Book Description
