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Coastal Adaptations with the Shoalwater Bay Tribe: Centering Place and Community to Address Climate Change and Social Justice

The proposed community-based participatory action research project is a collaborative research, planning and design initiative that will enable a UW research team to work with the Shoalwater Bay Indian Tribe to explore sustainable and culturally relevant strategies for an upland expansion in response to climate change-driven sea level rise and other threats to their coastal ecosystems and community. The situation is urgent as the reservation is located in the most rapidly eroding stretch of Pacific coastline in the US, on near-sea-level land vulnerable also to catastrophic tsunamis. The project will advance the Tribe’s master plan and collaboratively develop a model of climate adaptive, culture-affirming and change-mitigating environmental strategies for creating new infrastructure, housing and open spaces in newly acquired higher elevation land adjacent to the reservation. Design and planning strategies will draw on culturally-based place meanings and attachments to support a sense of continuity, ease the transition, and create new possibilities for re-grounding. Sustainable strategies generated by the project will draw on both traditional ecological knowledge and scientific modeling of environmental change. The project will involve the following methods and activities:

  • The creation of a Tribal scientific and policy Advisory Board with representatives from the Tribal Council, elder, youth, state and county agencies, and indigenous architects and planners;
  • Student-led collaborative team-building and research activities that will also engage Tribal youth;
  • Systematic review of the Tribe’s and neighboring county plans;
  • Interviews, focus groups and community workshops to identify priority actions, needs and strategies;
  • Adaptation of existing research on sustainable master planning, design and carbon storing construction materials; and
  • The development of culturally meaningful and sustainable building prototypes.

Deliverables include a report of findings summarizing community assets and values, and priorities for the upland expansion vetted by Tribal leaders, documentation and evaluation of the UW-community partnership and engagement process, digitized web- based geo-narratives and story maps and technical recommendations for culturally-informed schematic designs, sustainable construction methods and low-embodied carbon storing materials. The project process and outcomes will have broad applicability for other vulnerable coastal communities and can be used to support their climate adaptation efforts as well.

Research Team
Principal Investigator: Daniel Abramson, College of Built Environments, Urban Design and Planning, University of Washington
Community Lead: Jamie Judkins, Shoalwater Bay Indian Tribe

University of Washington Partners:
Rob Corser, Associate Professor, Department of Architecture
Julie Kriegh, Affiliate Lecturer, Departments of Construction Management and Architecture and Principal, Kriegh Architecture Studios | Design + Research
Jackson Blalock, Community Engagement Specialist, Washington Sea Grant
Lynne Manzo, Professor, Department of Landscape Architecture
Kristiina Vogt, Professor, School of Environmental and Forest Sciences

Community Partners:
Daniel Glenn, AIA, NCARB, Principal, 7 Directions Architects/Planners 
John David “J.D.” Tovey III, Confederated Tribes of the Umatilla Indian Reservation
Timothy Archer Lehman, Design and Planning Consultant and Lecturer

Professional Real Estate Development – The ULI Guide to the Business, 4th Edition

Dermisi, S. (2023). Office Development. In R. Peiser & D. Hamilton (Eds.), Professional Real Estate Development: The ULI Guide to the Business. Urban Land Institute.

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Abstract

The office chapter, authored by Dr. Sofia Dermisi -Lyon and Wolff Endowed Professor in Real Estate and Professor of Urban Design & Planning, identifies ways the technological and structural sustainability boundaries are pushed and how the pandemic has shifted the office occupant expectations on health and well-being, while embracing alternative ways of working through flexibility and adaptability. Office case studies highlight creative ways of linking new with historic landmark structures, overcoming various development challenges, and integrating valuable features in a post-covid era. Additionally, the evolution and repositioning of retail due to the rise of e-commerce and its impact on brick-and-mortar stores provides insights on future trends. While consumer behavior trends, which accelerated during the pandemic, created the emergence of new types of industrial facilities.

Plywood on steroids: CBE experiments with building materials for a sustainable future

Complex structures jointed like origami. Office walls and ceilings that swoop and bend over enormous open spaces. Experimental pavilions made with robotic fabrication techniques. This is a world of architecture made possible by mass-timber framing. And, it’s a world that’s becoming more environmentally and acoustically sound through the work of UW College of Built Environments, Department of Architecture Assistant Professor Tomás Méndez Echenagucia, UW Master of Science in Architecture/Design Technology student Nathan Brown, and other collaborators. Mass timber is a…

Constructed Floating Wetlands: A “Safe‐to‐Fail” Study with Multi‐sector Participation

Rottle, Nancy, Bowles, Mason, Andrews, Leann, & Engelke, Jennifer (2023). Constructed Floating Wetlands: A “Safe‐to‐Fail” Study with Multi‐sector Participation. Restoration Ecology, 31(1).

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Abstract

The Duwamish River Floating Wetlands project designed, built, and deployed constructed floating wetlands in the estuary of the urban Duwamish River in Seattle, Washington, during the 2019 and 2020 outmigration seasons for juvenile salmon. Using a “safe‐to‐fail” methodology and adaptive management strategies, these innovative floating wetland prototypes were custom designed to provide the native plants, invertebrates and slow water habitat that juvenile salmon require during their transition from fresh to salt water, and were monitored for these outcomes. This paper will provide insight into the prototype designs, adaptive management strategies and plant performance, and unique public‐private‐academic‐community partnerships that supported 2 years of design and research.

Keywords

community science; cross‐sector collaboration; designed ecosystems; Duwamish River; ecological restoration; green infrastructure

College of Built Environments’ Research Restart Fund Awards Four Grants in Second Cycle

The College of Built Environments launched a funding opportunity for those whose research has been affected by the ongoing pandemic. The Research Restart Fund, with awards up to $5,000, has awarded 4 grants in the second of its two cycles. A grant was awarded to Manish Chalana, faculty member with Urban Design and Planning to help support his efforts to carry out archival research and fieldwork in India for his new book exploring the history and memory of non-dominant groups…

Anthony Hickling

Anthony Hickling joins CLF with experience in environmental and social sustainability as well as nonprofit management and fundraising. His foundations in sustainable building are informed by experience at Presidio Graduate School where he received an MBA in Sustainable Solutions, as well as his work on the sustainability team at Webcor Builders in San Francisco. Through academic and professional experience he has learned to navigate the priorities of traditional business stakeholders while incorporating social and environmental externalities. From executing successful marketing plans to determining research priorities, Anthony believes that wide impact considerations and diversity of thought should be embedded into all decision-making.

Allison Hyatt

Allison Hyatt is a Researcher with the Carbon Leadership Forum at the University of Washington. Prior to joining the CLF, Allison oversaw the design development of various high performance buildings for public sector projects at Siegel & Strain Architects. With years of experience as an architect, she prioritizes forging links between architectural practice and research. As a graduate student, her research assessed metrics to compare among operational carbon savings, embodied carbon expenditures, and monetary costs of different decarbonization strategies over time. In the spring of 2022, she received her Masters degree in Design Studies with a concentration in Energy and Environment from the Harvard University Graduate School of Design.

Brad Benke

Brad Benke, AIA, is a Research Engineer at the Carbon Leadership Forum focused on developing data-driven resources to help practitioners and policymakers adopt and scale decarbonization strategies in the built environment. With a background in deep-green architecture and consulting, Brad works to synthesize and improve life cycle assessment practices and tools within the AEC industry and deliver practical solutions for low-carbon building design and construction. His recent work includes leading the CLF WBLCA Benchmark Study and developing the background data and methodologies for the CLF Embodied Carbon Policy Reduction Calculator. Brad is a former co-chair of AIA Seattle’s Committee on the Environment, and a former Senior Architect at McLennan Design, where he led diverse teams and stakeholders toward achieving decarbonization goals for buildings and organizations across the country.

Megan Kalsman

Megan Kalsman is a Policy Researcher with the Carbon Leadership Forum at the University of Washington. She specializes in advancing the procurement of low-carbon materials and informs the development and implementation of cross-sectoral climate policies targeting embodied carbon.

Before joining the CLF, Megan completed her Master of Science degree at Lund University in Sweden in Environmental Management and Policy with the International Institute for Industrial Environmental Economics. She published her thesis project in 2021, on the intersection of gender equality with different environmental issues like climate change, biodiversity, and chemicals on an international policy scale.

Prior to studying in Sweden, Megan coordinated environmental policies and programs for local government agencies in California with a focus on toxic chemical reduction and pollution prevention. She helped in developing the first in the nation ban on toxic flame retardant chemicals in San Francisco. This served as a model policy for the State of California and other states in the U.S. passing similar policies. Her undergraduate degree was in Environmental Studies at San Francisco State University with a minor in Urban Planning and the Built Environment.

Megan’s work at the CLF combines her environmental research experience and policy design background. She strives to frame her work with an intersectional lens each day – protecting the health of people and the environment in an equitable way. At the CLF, Megan enjoys interacting with a variety of stakeholders around embodied carbon policies and ultimately working together towards a more sustainable and just future.

Performative By-Products: The Emergence of Waste Reuse Strategies at the Blue Lagoon

De Almeida, Catherine. (2019). Performative By-Products: The Emergence of Waste Reuse Strategies at the Blue Lagoon. Journal of Landscape Architecture, 13(3), 64-77.

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Abstract

Materials and landscapes associated with waste are perceived as objectionable. By reactivating and embracing waste conditions as desirable opportunities for diverse programmes rooted in economy, ecology, and culture, designers can form hybrid assemblages on waste sites through the exchange of waste materials—a landscape lifecycles approach. This frame-work is applicable to not only design research, but also as a critical lens for evaluating the landscape performance of existing projects that engage with waste reuse. The Blue Lagoon in southwest Iceland materialized as a spa industry out of geothermal waste effluent from the adjacent Svartsengi Geothermal Power Station, reusing undesirable materials and transforming a waste landscape through diversified material recovery strategies. Featuring an industrial by-product turned economic generator, this case study reveals the opportunities for reusing geothermal ‘waste’ in these emergent landscape conditions, which hybridize economies with recreation, research, and ecology, and shift the conventional relationship with waste from passive to performative.

Keywords

Waste reuse; Blue Lagoon; material lifecycles; Iceland; landscape reclamation