Led by a coalition of residents in the Caño Martín Peña District, the plan will increase access to safe drinking water, flood protection, economic opportunities, and safe housing and open space
The ASLA/IFLA Global Impact Award is presented to a project in the Analysis and Planning category of the annual ASLA Awards. The award is given to a work of landscape architecture that demonstrates excellence in addressing climate impacts through transformative action, scalable solutions, and adherence to ASLA’s and IFLA’s climate action commitments.
“This project is so deserving of the inaugural ASLA/IFLA Global Impact Award because it showcases the full range of expertise in landscape architecture,” said ASLA President Emily O’Mahoney, FASLA. “Community engagement and data-driven decision-making inform a design that will address chronic flooding in a way that creates healthy green spaces, improving both mental and physical wellbeing of the neighborhood.”
“As the impacts of climate change increase, so does the importance of the work of landscape architects,” said Torey Carter-Conneen, CEO of ASLA. “The residents of Caño Martín Peña have a long history of taking action to address needs in their community. For this plan, they knew they needed a visionary problem-solving partner and they found that in OLIN.”
“This project stands as an inspiring statement to the pivotal role of landscape architecture as the profession of the 21st century – a profession adeptly poised to navigate the challenges that will define new ways of living and designing for future generations,” said Dr. Bruno Marques, President of the International Federation of Landscape Architects.
“Anchored in a profound comprehension of the natural environment, the built environment, and the interface between them, this project not only protects the only tropical estuary in the United States but also provides a comprehensive infrastructure master plan that caters for the community’s health and wellbeing. Within this myriad of complexities, design solutions that address climate resilience, biodiversity, flooding, housing and nature-based solutions are meticulously explored. Projects like this one call upon landscape architects to raise their voices and share their insights so we keep raising the profile of the profession.”
“OLIN is delighted to see the Caño Martín Peña Comprehensive Infrastructure Master Plan recognized! If we are to respond to climate change justly, it has to be led by the voice of the community,” said Richard Roark, ASLA, Partner at OLIN. “The plan reimagines traditional infrastructure systems as a force for rebuilding social capital and environmental equity. Everything we planned for comes from understanding a community’s relationship to their neighbors, to the estuary they live beside and the shared resources between them.”
Corporación del Proyecto ENLACE del Caño Martín Peña’s reaction to the award news:
“This award is a recognition of the ongoing participatory planning process that for many years has been led and implemented by the G-8 Inc. in collaboration with the Proyecto ENLACE Corporation and the Caño Martín Peña Community Land Trust as a social and environmental justice project, addressing the community’s needs and aspirations as well as climate change challenges in a sustainable, inclusive and innovative manner,” said Mario Núñez Mercado, Executive Director of ENLACE.
Grupo de las Ocho Comunidades Aledañas al Caño Martín Peña or G-8 Inc.’s reaction to the award news:
“The creation and implementation of the plan culminates the hard work of a team who fought to transform this great community for current and future residents. Showing the country that when there’s passion, anything is possible. This award shows us we have done things right and we hope to be a beacon for other communities in pursuit of accomplishing their goals,” said Lucy Cruz Rivera, President of G-8 Inc.
The Global Impact Award was announced as part of the ASLA 2023 Professional Awards. This year, thirty-four winners in multiple categories showcase innovation and represent the highest level of achievement in the landscape architecture profession.
Award recipients and their clients will be honored in person at the awards presentation ceremony during the ASLA 2023 Conference on Landscape Architecture in Minneapolis, MN., October 27-30.
The 2023 Professional Awards Jury includes:
Jury 1- General Design, Residential Design, & Urban Design
Chair: Kimberly Garza, ASLA, ATLAS Lab Inc.
Michel Borg, AIA, Page Think
Shuyi Chang, ASLA, SWA
Chingwen Cheng, PhD, ASLA, Arizona State University
Jamie Maslyn Larson, FASLA, Tohono Chul
Garry Meus, National Capital Commission
Jennifer Nitzky, FASLA, Studio HIP
Jury 2 – Analysis & Planning ASLA / IFLA Global Impact Award, Research & Communications
Chair: Maura Rockcastle, ASLA, Ten x Ten
Camille Applewhite, ASLA, Site Design Group
Stephanie Grigsby, ASLA, Design Workshop, Inc
Mitchell Silver, Hon. ASLA, McAdams
Michael Stanley, FASLA, Dream Design International, Inc.
Michael Todoran, The Landscape Architecture Podcast
Yujia Wang, ASLA, University of Nebraska
Joining the professional awards jury for the selection of the Analysis & Planning – ASLA / IFLA Global Impact Award category will be a representative on behalf of the International Federation of Landscape Architects (IFLA).
Monica Pallares, IFLA Americas
Also, joining the professional jury for the selection of the Research Category will be representatives on behalf of the Landscape Architecture Foundation (LAF) and the Council of Educators in Landscape Architecture (CELA).
Jenn Engelke, ASLA, University of Washington, LAF Representative
Sohyun Park, ASLA, University of Connecticut, CELA Representative
Chris Hardy, ASLA, is senior associate at Sasaki and founder of Carbon Conscience. He is Co-chair of the ASLA Climate Action Committee Subcommittee on Carbon Drawdown and Biodiversity. He was a 2022-2023 Landscape Architecture Foundation Innovation and Leadership Fellow.
The purpose of Carbon Conscience is to make it easier to have an intuitive understanding of the climate impacts of design proposals. It’s designed for early-phase design work. It’s for landscape architects, architects, urban planners, and urban designers. It’s even for community advocates who may want to get a better grasp of the carbon potential of what’s being proposed.
For example, if there’s a multi-housing family development with multiple buildings and landscape, the designer of the project could sketch out architecture and landscape land uses and get a high-level understanding of the carbon impacts of building that project, focusing on the embodied carbon in construction.
Embodied carbon is what it takes to build the project; the carbon emitted to produce, ship to site, and install the construction materials. There’s also a way to tally biogenic stored carbon, which is the carbon locked up in things like wood materials, or sequestered carbon, which is the carbon drawn down out of the atmosphere by planting and restored ecosystems. We accounted for the probable carbon sequestered by living systems over a period of 60 years, to correlate with the typical lifecycle study period for buildings.
What we realized using Pathfinder, Tally, and other tools is you usually need detailed quantities of materials in a project before you can get a meaningful estimate of the global warming impacts of a given project. The problem with that is the biggest potential for change is in the earlier design phases, when maybe you’re fundamentally challenging or deciding what the framework of a project is.
What are some of the new features of Carbon Conscience v2 you’re excited about?
In version 2, we created an entirely new landscape baseline materials database. There are now over 140 different landscape materials with carbon factors that include mean values as well as low and high standard deviation. Carbon factors are how much carbon it takes to make a given material. For example, a carbon factor for concrete would be so many kilograms of carbon dioxide equivalent per kilogram of concrete. With version 2, we have a much more accurate and defensible tool.
We were also able to get user feedback from the version 1 beta testers. We realized we had two types of users. We have what I like to call the noodlers, who wanted to sketch something simple, test it, and see how things work. The second group were the deep dive users who wanted to gamify the tool. They wanted to use the tool more actively — to test, iterate, and get more sophisticated material options.
In Version 2, we’ve made things a lot easier for the noodlers. We’ve reconstructed the user experience to be more intuitive. We’re going to post new user tutorials. And we also made it more open to planners who might not be in technical drawing tools on a day-to-day basis. For the deep dive folks, we provided the ability to use a lot more materials and land use options, and the ability to edit assumptions for those land uses.
Carbon Conscience is a scale bigger than individual sites that might be put in the Pathfinder. And it’s a phase or two earlier.
In Pathfinder, you need to know how many square meters or square yards of different paving, furnishings, etc, and numbers of trees. You may not know that at a planning phase. You can use Carbon Conscience even before there’s a defined project to bid on, when you have a rough idea of what the project is or could be, and you want to evaluate options. Carbon Conscience is for planning and concept design phases only.
Once you go beyond those phases, it would be best, as a workflow, for landscape architects to transfer their project into Pathfinder. We’re working with Pamela to connect our APIs, so projects can graduate from Carbon Conscience into Pathfinder. And Pathfinder is going to refer to our dataset as they move forward with their updated version this coming year. We’re very closely linked with Pathfinder and collaborating with the Climate Positive Design team.
Carbon Conscience also has an architectural dataset sourced from the Carbon Leadership Forum. It’s at a whole building lifecycle analysis approach, averaged out by floor-level of resolution. And we’re going to be moving forward with collaborating with the Epic tool by EHDD in Version 3, which will be coming this fall.
You’ve used the Carbon Conscience platform to make smart planning and design decisions for the 600-acre Ellinikon Metropolitan Park in Athens, Greece, which will transform an abandoned airport into what will be the largest coastal park in Europe. You have stated the top three carbon reduction strategies of the project were: 1) swapping out imported soils for amended soils; 2) reducing the need for new concrete by using other materials; 3) reusing concrete found on site. How did you use the platform to figure this out?
When we started the Ellinikon, we had a high-level master plan for the park and public space authored by Foster Partners and their team. In the beginning of our engagement, we were asked to create a concept plan. We started by mapping out the Foster plan in Carbon Conscience, using that as a benchmark. We quickly realized that it was going to be very difficult, if not impossible, for us to be climate neutral before our restored ecosystems would hit their carbon carrying capacity.
I wanted to define that term, because I think it’s something that we all need to be aware of as landscape architects. The carbon carrying capacity for an ecosystem is how much carbon an ecosystem can reasonably store and sequester by the time it hits maturity. In most ecosystems, as they age and become fully mature, they store less and less carbon. They become relatively static carbon stores. But that’s not true of all ecosystems. Wetlands are different, and I can talk about that for a whole hour. But for Ellinikon, this was critical, as Mediterranean ecosystems generally store and sequester much less carbon than temperate or tropical humid forests.
What we realized in our early sketches of Ellinikon is that we needed to change business as usual. We started looking at different strategies in Carbon Conscience, which gave us a way to include the client in the discussion. We even had the client come into the tool themselves, so they could play with the assumptions and start tweaking them with us in workshops. They became personally invested in the development of the project carbon goals, and that gave our team the social capital to challenge business as usual assumptions in site design as we moved forward into technical documentation phases.
As we used the tool, we decided to hugely reduce the amount of paving and increase the area dedicated to restoration style planting, as opposed to gardenesque planting or lawns. Now in the final design, the only lawns in the project have to work for a living. They’re for active uses, sports events. Ornamental horticulture is almost entirely defined by aromatic gardens that are passively maintained in that climate. And about 70 percent of the site is now restoration-style ecology.
We also used it to challenge our material assumptions. If we were swapping out our concrete hardscapes for resin-bonded aggregate hardscape or a salvaged concrete hardscape, that gave us huge savings.
In the design guidelines released with Carbon Conscience, you outlined seven principles designers can follow to reduce the climate impacts of their projects. One is to prioritize reuse. How can landscape architects reuse materials they find on existing sites they may be redesigning? And what do you think is needed to make reuse more cost effective at smaller scales?
Cost efficiency is totally dependent on the quality and scale of the material. In some cases, it can be a lot cheaper if you’re just resurfacing asphalt pavement and not resetting it. If you’re just re-setting existing cobbles in a particular streetscape, that’s extremely cost effective. It gets trickier when you’re doing substantial amounts of work to the material itself. For example, if you want salvaged concrete — let’s say crushed salvaged concrete for riprap in a very small site — that might not be cost feasible.
If you have a site an acre or more, specialized equipment like concrete crushers can be viable. But in the United States, we’re already diverting over 50 percent of our construction waste to some kind of salvaged facility, and that includes lot of concrete work. There’s already some efficiency where you can salvage aggregates coming from demolition debris in most major metropolitan areas.
A big part of reuse is also thinking about the end-of-life of our designs and materials. It’s a lot easier to crush, salvage, and reuse, or up-cycle or down-cycle concrete if it doesn’t have steel reinforcing in it. Without steel reinforcement, you can start cutting it like stone. If we think about our concrete pavement profiles, maybe we make them a little thicker to avoid having steel in them, so that in the next generation of that concrete pavement, it’ll be a lot easier to salvage it for reuse.
In the guidelines you also call for using natural and locally-sourced materials wherever possible. What are the climate benefits of these approaches? And are there projects that have done this that inspire you?
When we can avoid emissions associated with the making of the material itself — like the emissions that go into making clinker for cement, smelting for metals, or complex hydro-chemical processes to make plastics — that dramatically reduces the carbon factors of the material itself.
When we specify natural materials, the material is there; it just needs to be cut, shaped, and moved. And those emissions can be a lot less. I’m talking about things like stone, aggregate, wood, bamboo, and rammed earth, which are naturally occurring and just need be manipulated to become construction products.
When we talk about locally-sourced materials, we’re avoiding the transportation carbon cost that regional or more distant materials can have. Unfortunately, in the United States almost all of our transportation for construction materials is generally truck, which can have the highest carbon factor of almost any typical transportation options. Local sourcing becomes a huge factor for landscapes in particular, because most of our materials are massive and come at a high carbon transportation cost.
Right now, I’m focused on our Ellinikon project in Greece where we are trying to locally source most of the materials on site. We have the benefit of having stone quarries less than 20 miles from the site. And we have the benefit of mining material on the site. There’s a wonderful opportunity when you think about sourcing local stone in particular, because usually you’re tapping into a vernacular, a material tradition. There are regional craftsmanship traditions people take pride in.
You also emphasize the value of nature-based solutions and promoting ecological preservation and restoration. How do healthy ecosystems and nature-based solutions create positive climate outcomes? Do biodiverse, ecologically-rich landscapes store more carbon?
Only in living systems do we have economically viable ways to draw carbon out of the atmosphere. Geoengineering solutions are speculative businesses. Trees and plants are very efficient at what they do. And it’s very hard for technology to replicate those processes in an economically viable way.
One of the great benefits of nature-based solutions is the co-benefits. Rain gardens not only contribute to stormwater management but reduce the fundamental need for grey infrastructure. They’re replacing the concrete pipes and catch basins. And in the right context, they’re a high-carbon sequestrating landscape. And when you start layering in biodiversity benefits, it becomes an even richer proposal.
Biodiversity is more of a correlation with carbon sequestration than a causation. For example, a Spartina salt marsh is not the most biodiverse planting design but it is super carbon sequestering. However, when you compare two different landscapes, the more structurally complex an ecosystem is — the more trophic levels, the more physical levels of living organisms, such an overstory, an understory, and rich mycorrhizal horizon in the soils — the more carbon it is going to store. And it will usually be more biodiverse than a structurally simplistic ecosystem. What we want is structural diversity and complexity; we want resilient, complex, adapted ecosystems.
Most kinds of forest have a carbon carrying capacity, but many wetlands and some prairie do not. Wetlands offer a linear rather than sigmoidal sequestration of carbon. Over the long-term, wetlands can be incredibly high performance from a carbon perspective. Maybe the solution isn’t always planting trees to offset a project. Maybe it is protecting or investing in the restoration of a wetland or a prairie.
Sanders highlighted the results of a five-year assessment of the LAF fellowship program and its efforts to grow the next generation of diverse landscape architecture leaders. The assessment shows that past fellows are shaping the future of the built environment in key public, non-profit, and private sector roles.
And she introduced the latest class of six fellows, who focused on climate, equity, technology, and storytelling:
Chris Hardy, ASLA, senior associate at Sasaki, used his fellowship to significantly advance the Carbon Conscience tool he has been developing over the past few years. The web-based tool is meant to help landscape architects, planners, urban designers, and architects make better land-use decisions in early design phases when the opportunity to reduce climate impacts is greatest.
Carbon Conscience is also designed to work in tandem with the Pathfinder tool, created by LAF Fellow Pamela Conrad, ASLA, as part of Climate Positive Design. Once the parameters of a site have been established, Pathfinder enables landscape architects to improve their designs and materials choices to reach a climate positive state faster.
Hardy examined more than 300 studies to develop robust evidence to support a fully revamped version of Carbon Conscience, which will launch in July 2023. He found that “landscape architecture projects can be just as carbon intensive as architecture projects per square foot.” He wondered whether the only climate responsible approach is to stop building new projects altogether. “Are new projects worth the climate cost?”
After months of research, he believes decarbonizing landscape architecture projects will be “very hard,” but not impossible. He called for a shift away from the carbon-intensive designs of the past. To reduce emissions, landscape architects need to take a “less is more” approach; use local and natural materials; and increase space in their projects for ecological restoration, which can boost carbon sequestration. He cited Sasaki’s 600-acre mega-project in Athens Greece — the Ellinikon Metropolitan Park — as a model for how to apply Carbon Conscience, make smart design decisions, and significantly improve carbon performance upfront. “There are exciting design opportunities — this is not just carbon accounting.”
Ellinikon Metropolitan Park / SasakiEllinikon Metropolitan Park / Sasaki
Landscape architect Erin Kelly, ASLA, based in Detroit, Michigan, sees enormous potential in using vacant land in cities for carbon sequestration. Her goal is to connect vacant lands with the growing global offset marketplace, which offered 155 million offsets in 2022 that earned $543 million. And she sees opportunities for landscape architects to work with carbon developers to improve offset projects.
Carbon offsets are purchased by organizations to reduce their climate impacts. One offset credit equals one ton of greenhouse gas emissions. Offsets are verified by third-party verification companies and then listed on carbon registries. Like other projects, there are carbon developers, who purchase or lease land to grow trees or protect natural carbon sinks, like wetlands. Projects are monitored, usually over a 25 to 100 year period. But there is no one price for an offset, and “the quality varies,” Kelly said.
There is a need for new approaches to offsets that generates more direct income for communities and incentivizes landscape health by factoring in biodiversity. Sequestering carbon in cities like Detroit provides an opportunity for urban communities to benefit, but to date urban offset programs like City Forest Credits have been limited and need to be scaled up.
The vision / Erin Kelly, ASLA
She estimates that 31 million people in the U.S. now live in vacant land communities. Using machine learning and satellites, Kelly is developing a national atlas of vacant land ripe for redevelopment as offsets by city governments, community groups, and companies. “Landscape architects haven’t been involved in setting up these offerings,” but can tell “compelling stories” and influence how they are developed. Locally-managed, small-scale offsets can provide greater financial benefits and community health and environmental co-benefits.
Local connections to offsets / Erin Kelly, ASLANational offsets that enhance biodiversity / Erin Kelly, ASLA
Robert Levinthal, a PhD student at the Weitzman School of Design at the University of Pennsylvania (UPenn), is focused on Mega-Eco Projects, or very large-scale nature-based solutions. Hundreds of these projects, like the Great Green Wall in Sub-Saharan Africa, are in development at different scales around the world. They are meant to combat desertification, protect biodiversity and connect habitat, and preserve and restore watersheds. They may be in urban or rural areas.
Mega-Eco Projects / Robert Levinthal and Richard Weller
Unfortunately, few landscape architects are involved in these projects. For Levinthal, this means the project leaders are “missing critical insights,” as landscape architects can help ensure these massive projects balance the needs of humans and non-human species. Landscape architects can plan and design the connections between large-scale natural systems and communities.
In Senegal, Levinthal explored the implications of the Great Green Wall himself. Initially proposed in the 1950s, the plan envisions a 50-kilometer-wide belt of trees from the east to west coasts in Sub-Saharan Africa as an anti-desertification measure that will prevent the Sahara Desert from further expanding south. The African Union, which supports the initiative, has scaled down the effort but it still remains ambitious — with the goal of restoring 100 million hectares of land and storing 250 million tons of greenhouse gas emissions by 2030. But Levinthal noted that out of $14 billion spent on the Great Green Wall to date, just $20 million has reached Senegal. And desertification is happening outside the Great Green Wall area.
Mega-Eco Projects / Robert Levinthal
Levinthal sees the need to better connect green belt planning with community master planning and eco-tourism development. Senegal, like other Sub-Saharan African countries, is “sadly missing landscape architects and urban designers” who can weave parks, community spaces, recreational areas, and transportation systems into ecological restoration efforts.
The need for regional planning around the Great Green Wall in Senegal / Robert Levinthal
And pastoralists remain deeply underserved. He called for a renewed focus on regional and land-use planning among landscape architects and deeper partnerships with indigenous peoples. To learn more, look out for an upcoming symposium at UPenn, October 13-14, 2023.
From the Ground Up: Local Efforts to Create Resilient Cities / Island Press
By Grace Mitchell Tada, ASLA
“This book is a call to action.”
It is that invocation from Alison Sant that propels the narratives in her book — From the Ground Up: Local Efforts to Create Resilient Cities. She presents how people in cities across the U.S. are creating equitable communities that can withstand the changes wrought by climate change. Sant features places and projects that depend on community-grounded efforts to realize their outcomes, though she notes strong grassroots activism and community involvement can’t affect change alone. The most successful examples she relates “bring together the energy of community activists, the organization of advocacy groups, the power of city government, and the reach of federal environmental policy.” And, importantly, they do so in ways suited to their city.
Sant is a partner and co-founder of the Studio for Urban Projects, and its interdisciplinary interests are apparent in the various project types, organizations, and individuals included in her book. From activists and community organizers, landscape architects and city planners, policy makers and city officials, Sant’s cast of characters demonstrate the complexity and nuance that go into creating urban change. It’s the details from her interviews that make this book a valuable tool. Seeing how change is made allows readers to understand how, in their own communities, they too might be able to forge fruitful relationships to dismantle racist histories in favor of equity while equipping their city to handle climate change.
The book is organized into four sections, each tackling a different domain of the built environment. “Reclaim the Streets” showcases cities that are re-imagining streets to accommodate more than vehicular traffic. “Tear up the Concrete” highlights places that are embracing their role in their watersheds, whether by removing concrete or installing green infrastructure. In “Plant the City,” Sant presents how cities are encouraging tree planting. And “Adapt the Shoreline” illustrates how rising sea levels are altering cities’ relationships to their waterfront. The common thread throughout the sections: the understanding that any change striving for equity within our urban environments must be rooted in its community.
In New York, that community rootedness was critical when introducing Citi Bike to Brooklyn’s Bedford-Stuyvesant neighborhood. The neighborhood, where the majority of residents are Black and have household incomes below NYC’s median, has few public transit options, yet most residents initially did not use the bike share program.
Then the Bedford Stuyvesant Restoration Corporation, a community-based organization, and other partners collaborated with Citi Bike, creating communications campaigns that spotlighted residents of colors who rode the bikes. Within a year, Citi Bike trips in the neighborhood ballooned, as did membership. “Bike share only became relevant to the community of Bedford-Stuyvesant once it was shaped by the community intended to use it,” Sant writes.
Bike share riders in Brooklyn’s Bedford-Stuyvesant neighborhood / Bedford Stuyvesant Restoration Corporation, courtesy of Island Press
The same can be said about green infrastructure. Sant recounts how various cities are shifting to become “sponges for stormwater.” In New Orleans, community leaders are teaching their neighborhoods to add green infrastructure—rain garden and bioswales, street trees and permeable paving. But there’s more to it: “What is most important to me is to make sure that people had tangible assets on their property and for them to understand its functionality…the pumps, the drains, and the canals,” said Angela Chalk, executive director of Healthy Community Services. “By understanding this, we can take charge of ourselves.”
Mami Hara, ASLA, CEO at U.S. Water Alliance, writes in a contributing essay that “without community support and effective supporting policies and practices, green infrastructure can be an agent of displacement.”
The boon of tree planting has long been a part of American history. Benefits of urban tree planting have become further understood over time. From creating beauty, reducing noise pollution, mitigating the urban heat island effect, and increasing groundwater infiltration, urban trees have myriad benefits. Yet, Sant points out, like other urban amenities, trees, too, do not have equitable dispersal. Less affluent neighborhoods and neighborhoods of color do not have as many trees.
Sant chronicles efforts in Washington, D.C., and New York City to increase their urban tree canopies, which span community activists’ efforts, public-private partnerships, and public investment in street trees and public parks. Baltimore, too, is working to grow the city’s canopy, but perhaps more novel, however, is Baltimore’s use of urban wood. “Utilizing dead trees is as important as tending live ones, especially in the context of climate change,” Sant writes. Trees are usually seen as waste and sent to landfills where they release carbon.
To alleviate this issue, the U.S. Forest Service and local partners have established the Baltimore Wood Project. The program offers living-wage jobs to residents—many formerly incarcerated—who work to deconstruct some of the thousands of abandoned buildings in the city while salvaging their materials. It’s met success, both in its extremely low recidivism rate, and in its environmental impact. As a result, Baltimore’s sustainability plan emphasizes workforce development programs like this one.
In East Baltimore, wood from abandoned row houses is being reclaimed / Doug Kapustin, courtesy of Island Press
In the book’s final section, Sant addresses three cities—San Francisco, New York, and New Orleans—built atop former wetlands. As sea levels rise, each must brace themselves for a much wetter future—especially because those buffering wetlands are no longer present to lessen incoming tides and storm surges. The projects Sant compiles here, too, are based in robustly leveraging community support.
In San Francisco, like in many other cities, the communities most at risk of flooding are low-income, and often neighborhoods of color. Sant details the community processes leading to Hunters Point Shoreline Park and India Basin Shoreline Park, which included landscape architects with RHAA Landscape Architects and Gustafson Guthrie Nichol, respectively. Both are in Bayview–Hunter’s Point, a historically Black waterfront neighborhood, and it was critical that their designs reflected its community while making space for rising waters. Jacqueline Flin, a Bayview native who now works for APRI, said involving the community throughout the process ensures that the park “is being grown from within and that the community takes ownership of it.”
In San Francisco, designers of waterfront parks prioritize working with communities. Here, at Candlestick Point Park, the Literacy for Environmental Justice youth group restores wetland habitat / Victor Leung/Literacy for Environmental Justice, courtesy of Island Press
On the opposite coast, the Billion Oyster Project, which strives to grow one billion water-filtering oysters in the New York–New Jersey Harbor Estuary, also necessarily demands the public’s assistance, from monitoring reef structures to putting them together. SCAPE’s post-Superstorm Sandy project, Living Breakwaters, which employs oyster restoration practices, has furthered public understanding about how nature-based strategies can mitigate the effects of sea-level rise.
Living Breakwaters model, Staten Island, NYC / SCAPE Landscape Architecture and Urban Design
“The only way to adapt, while keeping the biodiversity of estuaries and oceans intact, is by adopting radically anticipatory methods based on mimicking natural processes,” writes University of California at Berkeley professor Kristina Hill, Affil. ASLA, in a guest essay. “When that doesn’t work, managing retreat is a better strategy than building rigid defenses that create exacerbated risks of catastrophic failure.”
In Louisiana, efforts are being made to protect land through efforts such as marsh creation, like here at the Pelican Island dune and intertidal marsh restoration project in Plaquemines Parish / Coastal Protection and Restoration Authority, courtesy of Island Press
Sant wrote this book during the earlier days of the Covid-19 pandemic, and during the racial reckoning that arose following the murder of George Floyd. She writes of the changes that we witnessed in cities, such as the “new ways of making streets for people.” Despite all the awfulness of 2020, there was a moment when it seemed the world would be irrevocably different: certainly we would more equitably, and more sustainably, inhabit cities moving forward.
The Shared Spaces Program created public space in San Francisco’s Mission district during the Covid-19 pandemic / Alison Sant, courtesy of Island Press
National expert on the built environment and equity Tamika L. Butler speaks to that hope in her contributing essay: “It feels like we might be building something new, from the ground up.” Yet she also expresses the hesitancy that many of us likely feel now as we watch the world slip back into pre-2020 habits: “But what if it is all a façade? What if we build something up just to fortify the foundation of White supremacy that was already there?”
And this is the call to action: May the anger and the grief, the state of emergency of the pandemic, and the work that Sant so carefully describes prompt us to act—toward true change.
ASLA 2022 Professional Analysis and Planning Honor Award. Moakley Park Resilience Plan. Boston, Massachusetts. Stoss Landscape Urbanism
At the UN Framework Convention on Climate Change (UNFCCC) COP27 in Sharm El Sheikh, Egypt, more than 200 governments reached a last minute deal to create a “loss and damages” fund that is expected to funnel billions from wealthy countries to the developing countries most impacted by climate change. The new fund, which will be developed over the coming year, will also focus on climate adaptation.
A 134-country coalition led by Pakistan argued that countries with the highest historic emissions, which include the U.S. and Europe, have an obligation to support developing countries experiencing increasingly severe climate flooding, drought, and heat impacts. This past summer in Pakistan, flooding exacerbated by climate change impacted more than a third of the country, affecting 33 million people and causing the loss of 1,700 lives and more than $40 billion in damages.
Kotchakorn Voraakhom, International ASLA, and Pamela Conrad, ASLA at COP27
“While attending the conference, I heard how developing countries are not only struggling with the effects of climate change but also with making ends meet. The U.S. has historically contributed the most global emissions, yet countries that have only emitted a mere fraction of this are being impacted the most,” said Conrad, who is chair of the ASLA Climate Action Plan Task Force.
Pamela Conrad, ASLA, at COP27 in Sharm El Sheikh, Egypt / Kotchakorn Voraakhom, ASLA
“As a landscape architect from the global south, I don’t want nature-based solutions to become the buzzwords we all use, but then we really just continue with our business-as-usual solutions. We landscape architects are established professionals and know how nature-based solutions work. We can tackle climate change with nature-centric design,” said Voraakhom.
The deal brokered at the UNFCCC calls for 24 countries to form a committee to determine how the fund will be formed, which countries will contribute, and how the funds will be distributed.
But there are still concerns that wealthy countries may fail to meet these future commitments, whatever amount is agreed to. Ten years ago, the United States, Europe, and other wealthy countries agreed to mobilize $100 billion in public and private climate finance, mostly for mitigation efforts, each year. According to The New York Times, that number still falls short by tens of billions every year.
The Biden administration sought $2.5 billion in climate support for developing countries, but only $1 billion was recently approved by a Democratic Congress. The European Union has committed another $300 million, which would also support access to insurance for countries like Pakistan, but that is much less than what is needed to achieve equitable climate action.
“We still aren’t achieving equity and justice. Loss and damage have been an important focus at this COP, but commitments for adaptation funds aren’t there yet,” said Voraakhom.
Other significant causes of concern at COP27: Countries failed to reach consensus on phasing out fossil fuels. In Glasgow, Scotland at COP26, more than 20 countries agreed to phase out coal use by 2030. However, notably, China and India, which are still heavily rely on coal power, didn’t join the pledge.
And this means the 1.5°C temperature increase limit is increasingly at risk: A recent report from the United Nations found the latest commitments from the 193 countries that signed on to the Paris Climate Accord in 2015 put the world on track to warm by 2.1 to 2.9°C by the end of the century.
Landscape architects are calling for more equitable finance and support for developing countries, which can improve access to renewable energy and resilience through ecosystem-based adaptation.
The Upper Los Angeles River and Tributaries Revitalization Plan, Los Angeles, California / Studio-MLA
“To create a more fair and just world, we must support those that have done the least to cause these problems. I still remain hopeful that once all countries are supported equitably, we can collectively reduce emissions to stave off the devastating effects of a 1.5° C (2.7° F) increase,” Conrad said.
“We asked ourselves — if we could move 1,200 trees through a city center for over 100 days, then imagine what else we could do,” said Bruno Doedens, a Dutch landscape architect and land artist, who created the wonderful Bosk public art installation in the city of Leeuwarden with his collaborator, the late Joop Mulder.
Over 100 days this summer, teams of volunteers pushed large and small trees along a 2.1-mile (3.5-kilometer) route as part of Arcadia, a triennial arts festival in Friesland.
Bosk route / Arcadia
The organizers explain that the installation moved in stages through neighborhoods on weekdays, led by traffic controllers and captains, “so the forest decreased in one place while growing somewhere else.”
Bosk / Lucas KemperBosk / Lucas Kemper
Streets that had few trees temporarily became lush forests, changing the character of communities, significantly cooling air temperatures, and slowing the pace of life. The Guardian reported hotels and businesses also benefited from the traveling forest, though some residents were upset by having to park elsewhere.
Bosk / Thomas Vaer PhotographyBosk / Lucas Kemper
The trees were planted in more than 800 wooden containers that were then loaded into wheeled carts. They included more than 60 native species, such as alder, ash, elm, maple, oak, and willow.
The Bosk team labeled each tree with a QR code, so residents could learn more about the species. Soil sensors also alerted the team when any tree needed more water.
Just planting 1,200 trees around the city would have perhaps been easier but “would have had less impact than a moving forest,” Doedens said. The logistical challenges of transporting trees through traffic in a coordinated way “forced citizens to really face the effect of a forest in the city center.”
“The success of Bosk lies in the combination of radical imagination and mobilizing large communities of people,” he argued. The residents of Leeuwarden can now imagine “a new relationship with nature — one based in the idea of enriching the planet rather than polluting and destroying.” With rising urban temperatures, a new relationship rooted in nature will become increasingly important.
Bosk / Lucas Kemper
The message of the interactive public art work was reinforced through a broader immersive program that included a “summer school for Leeuwarden neighbourhoods, a Bosk news program for primary school pupils, and a whispering garden full of inspiration,” the festival organizers write.
In his essay Planet Paradise, Doedens argues that collective art projects like the walking forest can change mindsets and spur on greater climate action. They inspire communities to re-imagine what is possible. Designers and artists therefore play a critical role.
Bosk final destination, the Oldehoofsterkerkhof, August 14 / Ruben van Vliet
“Allow all creative minds from all cultural disciplines – music, dance, theater, poetry, literature, film, architecture, visual arts – together with scientists and pioneers from the practice to dare to dream and think big and even bigger. Give them room for imagination and intuitive thinking to radically reassess our current values and our actions. Allow them to develop new languages that touch our hearts and create new stories and images that help us realize we are walking in the mist, that seductive illusions intoxicate us, and that we need to change radically.”
Landscape architects and artists everywhere can create “new stories that reassure us in a playful way that we can reverse the negative effects of our treatment of the Earth into something positive. They must also be optimistic, empathetic, hopeful, and challenging without being blind to the sizeable and far reaching task ahead of us.”
The Bosk installation ended August 14, and the organizers have since found permanent homes for the traveling trees throughout the city, with many planted in underserved communities.
ASLA 2019 Professional General Design Honor Award. Hunter’s Point South Waterfront Park Phase II: A New Urban Ecology. Long Island City, NY, USA. SWA/BALSLEY and WEISS/MANFREDI with ARUP / copyright Vecerka/ESTO, courtesy of SWA/BALSLEY and WEISS/MANFREDI
Led by climate leaders in the field of landscape architecture, ASLA is developing a profession-wide Climate Action Plan
ASLA has announced it is developing its first Climate Action Plan for the U.S. landscape architecture community. The ambitious plan seeks to transform the practice of landscape architecture by 2040 through actions taken by ASLA and its members focused on climate mitigation and adaptation, ecological restoration, biodiversity, equity, and economic development. The plan will be released at the ASLA Conference on Landscape Architecture, November 11-14, 2022, in San Francisco, CA.
The ASLA Climate Action Plan is led by a five-member Task Force and 16-member Advisory Group of climate leaders from the landscape architecture profession.
The diverse, intergenerational Task Force includes climate leaders at different stages of their professional life.
“Landscape architects are leaders in designing solutions to the climate and biodiversity crises that also provide multiple environmental, economic, social, and health co-benefits. ASLA purposefully included both established and emerging climate leaders in this critical Task Force, which will shape the profession far into the future,” said Eugenia Martin, FASLA, ASLA President.
Task Force members include:
Chair: Pamela Conrad, ASLA, PLA, LEED AP, Principal, CMG Landscape Architecture, and Founder, Climate Positive Design, San Francisco, California
Conrad built Climate Positive Design into a global movement with the goal of ensuring all designed landscapes store more carbon than they emit while providing environmental, social, cultural, and economic co-benefits.
Diane Jones Allen, FASLA, D. Eng., PLA, Director, Program in Landscape Architecture, University of Texas at Arlington (UTA), and Principal Landscape Architect, DesignJones, LLC, Arlington, Texas and New Orleans, Louisiana
José M. Almiñana, FASLA, SITES AP, LEED AP, Principal, Andropogon Associates, Ltd., Philadelphia, Pennsylvania
Sarah Fitzgerald, ASLA, Designer, SWA Group, Dallas, Texas
Vaughn Rinner, FASLA, PLA, Former ASLA President, Seattle, Washington
ASLA Climate Action Plan Task Force / ASLA
The goals, objectives, and action items of the plan are also shaped by a Climate Action Plan Advisory Group of 16 diverse climate leaders, who are based in 12 U.S. states and two countries and in private and public practice and academia. The Group consists of nine members who identify as women, seven as men, two as Black, four as Asian and Asian American, one as Latina, and one as Native American.
“ASLA believes equity needs to be at the center of climate action, because we know climate change will disproportionately impact underserved and historically marginalized communities. It is important that the group guiding the Climate Action Plan and the future of the profession mirrors the diversity of the landscape architecture community and its breadth of educational and practice areas,” said Torey Carter-Conneen, ASLA CEO.
Advisory Group members include:
Monique Bassey, ASLA, Marie Bickham Chair, Louisiana State University, Baton Rouge, Louisiana
Scott Bishop, ASLA, RLA, Principal, BLD | Bishop Land Design, Quincy, Massachusetts
Keith Bowers, FASLA, RLA, PWS, Founding Principal, Biohabitats, Charleston, South Carolina
Pippa Brashear, ASLA, RLA, Resilience Principal, SCAPE Landscape Architecture & Urban Design, New York, New York
Meg Calkins, FASLA, FCELA, Professor of Landscape Architecture, North Carolina State University, Raleigh, North Carolina
Chingwen Cheng, ASLA, PhD, PLA, LEED AP, Program Head and Associate Professor of Landscape Architecture, Urban Design, and Environmental Design, The Design School, Arizona State University, and President-Elect, Council of Educators in Landscape Architecture (CELA), Tempe, Arizona
Jose de Jesus Leal, ASLA, PLA, IA, Native Nation Building Studio Director, MIG, Inc., Sacramento, California
Kate Orff, FASLA, Professor, Columbia University GSAPP & Columbia Climate School, and Founder, SCAPE Landscape Architecture & Urban Design, New York, New York
Jean Senechal Biggs, ASLA, Transportation Planning Manager, City of Beaverton, Portland, Oregon
Adrian Smith, FASLA, Staten Island Team Leader, New York City Department of Parks & Recreation, New York, New York
Matt Williams, ASLA, Planner, City of Detroit Planning & Development Department (PDD), Detroit, Michigan
Dou Zhang, FASLA, SITES AP, LEED AP BD+C, Director of Shanghai Office, Sasaki, Shanghai, China
ASLA Climate Action Plan Advisory Group / ASLA
In 2021, ASLA joined with Architecture 2030 to call for the landscape architecture, planning, architecture, development, and construction professions to reduce greenhouse gas emissions in their projects and operations by 50-65 percent by 2030 and achieve zero emissions by 2040.
In 2020, ASLA and its members formed a Climate Action Committee, which has guided climate action priorities and laid the groundwork for the Climate Action Plan.
Working Water: Reinventing the Storm Drain / ORO Editions
By Lori Catalano, ASLA, and Kelly Curl
The need to rapidly adapt to climate change has rightfully taken center stage. But the connections between climate change and stormwater management are often overlooked. Climate change impacts the hydrological cycle by increasing water scarcity and the frequency and intensity of flooding while contaminating waterways. Better managing stormwater is key to managing water resources and protecting our safety and the health of our environment.
Unfortunately, stormwater management is usually portrayed as a purely technical issue to be solved at the site. Instead, stormwater management systems should be valued as critical green infrastructure that provides design opportunities and are foundational to giving form to the broader built environment.
While stormwater management may not be sexy, it is vital to understand and integrate as part of larger efforts to protect our ecosystems and environment. The book Working Water: Reinventing the Storm Drain by landscape architecture and planning firm Wenk Associates argues challenges to “any city’s water supply and urban stormwater management can be addressed, in part, by changing how we manage our urban water resources as part of systems that employ the widespread use of natural technologies.” The firm, founded by landscape architect William Wenk, FASLA, has incorporated stormwater into the design of built environments and landscapes in the West and Midwest for over 35 years.
Burgess Creek Promenade, Steamboat Springs, Colorado / Wenk Associates
Projects in the book exemplify how stormwater, generally considered a nuisance, can be managed and integrated as a resource in the design of landscapes, making communities more livable as well as restoring ecological function and health. The selected projects range from built work early in the office’s practice to contemporary projects that explore the integration of function and beauty in managing stormwater at various project scales — from a small rain garden outside their early office in Denver to restoring the natural functioning of the Los Angeles River. In addition to cataloging projects, the author thoughtfully reflects on lessons learned, revealing both successes and failures as they suggest new approaches to create “the next generation of stormwater infrastructure, resulting in healthier urban and natural systems, making our cities better places in which to live.”
Confluence Park, Denver, Colorado / Wenk Associates
Wenk himself outlines his trajectory from a boy growing up on a farm in Michigan, to his foundational undergraduate studies in landscape architecture at Michigan State University, his observations about arid environments revealed while traveling across Europe and North Africa, and the influential work of artists, writers, and thinkers he explored during graduate studies at the University of Oregon. These experiences combine to inform the theoretical foundations for his life’s work.
He also shares his early career lessons regarding the value of urban green infrastructure that were strengthened while working closely with civil engineers. These professional experiences ultimately led to the founding of his practice in Denver, Colorado. Wenk desires to “reinvent the storm drain,” a metaphor for “expanding — down to the most basic details — the components of stormwater systems to invent new strategies for effective stormwater controls, and to promote the restoration of the natural functions of urban waterways in ways that add beauty and value to the urban landscape.”
The first part of the book explains the close relationship of water resource management to culture and technology and clearly describes the impacts of urbanization on the water cycle and the land. Explaining how positive aspects of both ancient and contemporary water management systems can be integrated to address contemporary issues of water scarcity and improve water quality, the book sets the stage to examine how urban water resources can be better planned and designed. Ultimately, successful projects restore the function of ecological systems while creating meaningful places for people to gather.
Diagrams illustrating the impacts of urbanization. (Top to bottom) Agricultural irrigation system, conventional stormwater system, and contemporary solutions / Wenk Associates
Then, the book provides a carefully curated selection of Wenk Associates’ projects that exemplify what is meant by “working water.” The scale, type, and complexity of the highlighted projects vary greatly from small site design to large river corridors. Each of the case studies, which cover sites, districts, and corridors, demonstrate the rigor of the designers’ intent. Each projects’ context, vision, design strategies, constraints, and results are thoughtfully communicated with clear jargon-free narratives, diagrams, renderings, and attractive photographs of the built work.
The third part of the book reviews the critical factors leading to the success of Wenk Associates’ built works, along with lessons learned about legal, financial, and other challenges involved in implementing natural technologies, and the profession of landscape architecture’s involvement in integrating “multiple values and functions into the city’s infrastructure” and communicating “those values to affected communities.” The lessons go further than most books on stormwater do by calling for incentivizing district-scale stormwater control systems, identifying barriers to implementations of natural technologies, and calling on practicing professionals and the public to be advocates for change.
Lowry Parks and Open Space, Denver, Colorado / Wenk AssociatesLowry Parks and Open Space, Denver, Colorado / Brad Nicol Photography
Simultaneously, the scope of the book has limitations. Because this is a monograph, Working Water thoughtfully represents the experiences and philosophy of just one firm.
Missing from Working Water is also a stronger acknowledgement that underserved, historically marginalized communities are disproportionately hurt by the mismanagement of stormwater and that residents of these communities can play a greater role in designing a healthier and more livable environment.
The Menomonee Valley Redevelopment is an example that intentionally enriched underserved neighborhoods in Milwaukee by creating over 1,400 jobs, connecting neighborhoods with a new network of streets and green spaces, and providing access to a healthier and a cleaner river. Surely, this project included community input during the design processes to achieve these beneficial results. However, the residents and the role they played in this process are not given the prominence they deserve.
Menomonee Valley Redevelopment, Milwaukee, Wisconsin / Wenk Associates
Working Water is a needed addition to the body of literature on how to integrate designed green infrastructure with stormwater management to create more livable cities for a couple of reasons. It addresses issues specific to the temperate Midwestern climate of the savanna and steppe ecosystems, while most books focus on the more humid environments of the East and West coasts. It also contributes examples of beautiful projects that demonstrate regionally appropriate responses from the drumlin-inspired landscapes of Wisconsin to the semi-arid grasslands of the Colorado Rocky Mountain Front Range.
Working Water is intentionally written as an educational resource for students, decision-makers, regulators, municipal staff, designers, developers, and community advocates. A pleasant surprise included at the end of the book is a “working water glossary” that provides the reader with a general understanding of the definitions of terms and concepts used in the book.
Wenk Associates were early leaders in the integration of stormwater design. Their work has been so successful, it is now considered common in the practice of landscape architecture. The functional requirements of successful stormwater management are so well integrated in each project that the unprecedented nature of the designs may be overlooked.
The monograph is written similarly. It is humble; it is not flashy and does not use fancy words. It offers straightforward yet beautiful graphics and diagrams with no enigmatic collages; just solid, well-crafted, thoughtful work.
Like Ian McHarg’s layering process, the incorporation of stormwater management has been so integrated into landscape architecture that it is unrecognized when done well. This collection of completed projects when assembled as a monograph, may seem simple, as though anyone could do it. But don’t be deceived, Working Water: Reinventing the Storm Drain demonstrates how Wenk Associates makes the messy and difficult work of envisioning and implementing a complex project look simple, clean, and elegant, with a vision for the future.
Lori Catalano, ASLA, and Kelly Curl are associate professors in landscape architecture at Colorado State University.
Grounding the Green New Deal / Allison Shelley/Landscape Architecture Foundation
“It’s not good enough to just be active designers, we also need to be influencing policy upstream,” said Barbara Deutsch, FASLA, CEO of the Landscape Architecture Foundation (LAF), during the kick-off of Grounding the Green New Deal, a day-long summit held at the National Building Museum (NBM) in Washington, D.C. Landscape architects can “create a feedback loop in which we test designs and overcome barriers,” advancing climate, water, and infrastructure policy through innovative projects.
In 2020, LAF, the University of Pennsylvania, Columbia University, ASLA, and the Council of Educators in Landscape Architecture (CELA) launched a collective, open source Green New Deal Superstudio focusing on how to plan and design the key goals of the Congressional legislative proposal H.R. 109, which are jobs, justice, and decarbonization. Some 180 universities, 3,000 students, and hundreds of practitioners submitted 670 projects. Of these, 55 projects have been highlighted by Superstudio curators, and many were featured in an exhibition at the NBM during the summit.
Grounding the Green New Deal / Allison Shelley/Landscape Architecture FoundationGrounding the Green New Deal / Allison Shelley/Landscape Architecture FoundationGrounding the Green New Deal / Allison Shelley/Landscape Architecture Foundation
In a lecture to introduce the first panel, Billy Fleming, ASLA, the Wilks Family Director at the McHarg Center at the University of Pennsylvania, gave an introduction to the broad Green New Deal agenda, which was introduced in Congress in 2019. The agenda was seen as a criticism of the economic recovery package passed under the Obama administration, which was viewed as “too targeted, too Wall Street, and only one-time funding,” Fleming said. The economic havoc wrecked by the market collapse of 2008 was viewed by many liberals as a “crisis wasted.” The Green New Deal outlined an ambitious vision for addressing climate change while also tackling deep-rooted inequities in American society.
Like the original New Deal from the 1930s, which was a response to the Dust Bowl and Great Depression, the Green New Deal would yield thousands of public projects that would reshape communities. But in contrast to the original New Deal, which was not equitable in its distribution of public funds and reinforced the racist Jim Crow-era patterns of disinvestment in Black communities, the Green New Deal would be “more collaborative” and focused on lifting up long marginalized communities.
At the start of a wide-ranging panel discussion, Fleming argued that “carbon is mostly a technical problem.” Landscape architects, planners, and architects can’t focus solely on decarbonization, with “life the same afterwards.” Instead, he and other supporters of the Green New Deal argue that decarbonization should serve a broader economic and social transformation. Solving climate change can be connected to improving the quality of housing, creating new local jobs, and forging a more equitable society.
Grounding the Green New Deal / Allison Shelley/Landscape Architecture Foundation
Nikil Saval, a Pennsylvania State Senator who represents Center City, Philadelphia, said the intersections of all these issues can be found when you “turn on your lights or stove.” Because of “historical redlining and disinvestment in Black and brown communities, many homes in these communities lack insulation and are in disrepair. As a result, the energy needed for lighting, heating, cooling is much more expensive.” Saval said this inequality in the end-use of energy mirrors an unjust “political economy of gas infrastructure” that also disproportionately impacts communities of color.
He argued that communities need to instead “attack the role of racism and inequality” in the current energy infrastructure while investing in energy efficiency in low-income communities and affordable renewable energy. Otherwise, a new clean energy system may simply reinforce many of the injustices of the current fossil fuel-based approach.
Colette Pichon Battle with the Gulf Coast Center for Law & Policy was displaced by Hurricane Katrina. The disaster changed the trajectory of her legal career, and since then she has focused on environmental and climate justice in Louisiana, Mississippi, and other southern states.
Her organization and others in 13 southern states launched the Red, Black, and Green New Deal, an initiative that aims to tackle the drivers of climate change — economic and social inequality — and their impacts on communities, rather than focusing on “invisible atmospheric changes.”
Red, Black, and Green New Deal
The current economic system that leads to environmental and climate damages and injustices must be the focus of climate action efforts, Pichon Battle argued. For example, post-Hurricane Katrina, many cities in Louisiana were submerged under water for years. An incredible amount of trash accumulated and was eventually moved into landfills. Those landfills now form the foundation of new housing subdivisions marketed to low-income Black residents. “Those landfills are going to go under water again at some point and become toxic. Those Black folks marketed to weren’t just happened upon but targeted.”
“We need to be careful about talking about climate justice at a high level; it’s easy to decouple the issues from humanity,” argued Bryan Lee, another speaker on the panel, an architect and founder of Colloqate Design. “If you are talking about it at a high level, it means you don’t know your community. You need to know the people to know the climate impacts.”
Linda Shi, a professor of urban planning at Cornell University, asked everyone in the audience the question: “Who is part of the resilient future? Who makes space for others’ resilience dreams?” She argued that in any discussion about climate change, “we must center equity or it’s not about equity.”
She added that one challenge is that many engineering professions involved in building new climate infrastructure “have never been trained to deal with social issues.” Furthermore, governments and the private sector are more focused on reducing risk and legal liabilities with new infrastructure. “These legal concerns are different from justice, equity, and creating a sense of place.” This is where planners and landscape architects, who are skilled in equitable community planning and design, can help.
The Infrastructure Investment & Jobs Act created enormous opportunities for communities to improve their park, water, and transportation infrastructure. $50 billion has been allocated for improving water infrastructure alone, with 20 percent of that for water efficiency and reuse.
For Katherine Baer with River Network, the bill is a “transformative moment” and creates opportunities to design green infrastructure to achieve greater water equity. “We believe in connecting communities to their rivers, centering rivers in their life. In the built environment, there are too many buried rivers, creeks, and culverts. And these buried rivers impact some communities more than others.”
Anne Whiston Spirn, FASLA, professor of landscape architecture and planning at MIT, highlighted the ways landscape architects can empower underserved communities, address injustices, and increase climate resilience.
When her father took her to the March on Washington in 1963, “her life was transformed.” The march helped hone her life-long passion for “civil rights, environmental action, and beauty.” However, studying ecological design with Ian McHarg at the University of Pennsylvania, she found design academia at the time was “deaf to civil rights.”
Beginning 40 years ago, Spirn began partnering with communities through the West Philadelphia Landscape Project. White flight had led to disinvestment, but Spirn sought to keep people in cities by improving their environmental health and beauty. Realizing that “no one was going to pay me for this work,” she left private practice and took a job in academia. Using her salary she helped “communities who didn’t know they needed a landscape architect.” Through her “action research” approach, Spirn helped communities improve their landscape literacy. With the founding of her project, her goal was to “improve the natural environment and racial justice.”
ASLA 2021 Professional Analysis and Planning Honor Award. West Philadelphia Landscape Project. Philadelphia, Pennsylvania. Anne Whiston Spirn, FASLA
She found that in low-income Philadelphia communities there is a lot of vacant land, which is almost always in the floodplain and often on buried streams. While she couldn’t convince the city government in the 1970s and 80s, she called for transforming those vacant lots into green infrastructure to manage water. She started partnering with middle school students to discover the communities’ environmental history. “I learned that landscape literacy could change the future. We need to empower youth. These kids are brilliant.”
ASLA 2021 Professional Analysis and Planning Honor Award. West Philadelphia Landscape Project. Philadelphia, Pennsylvania. Anne Whiston Spirn, FASLA / Melissa Isador, West Philadelphia Landscape Project
Spirn and the West Philadelphia communities were eventually vindicated when the city reached more than a decade ago out to discuss its then-nascent Green City, Clean Waters plan. But she is now concerned all the green infrastructure improvements that have occurred in West Philadelphia as a part of her advocacy efforts are “catalyzing speculation and gentrification.”
ASLA 2021 Professional Analysis and Planning Honor Award. West Philadelphia Landscape Project. Philadelphia, Pennsylvania. Anne Whiston Spirn, FASLA / Melissa Isador, West Philadelphia Landscape Project
She urged the audience to “think five to ten years ahead to the possible displacement impacts of your vision.” Any improvements in community green infrastructure should be coupled with “education, jobs training, affordable housing, and community land trusts.”
This 16-acre Atlanta Park Was Built to Flood — 01/28/22, Fast Company Design
“[Atlanta] didn’t just want to replace low-lying flooded homes with a low-lying flooded park. They worked with HDR on a design that would turn the empty acreage into a thriving public space that could also serve as an engineered drain, safely taking in the water during heavy storms and gradually releasing it underground. The park is designed to flood—and protect the surrounding neighborhood.”
Transportation Dept. Outlines Plan to Address Rising Traffic Deaths — 01/27/22, The New York Times
“‘Fatalities among pedestrians and bicyclists have been increasing faster than roadway fatalities overall in the past decade, which has a chilling effect on climate-friendly transportation options such as walking, biking or taking public transportation,” the report said. ‘To unlock the climate benefits of those modes, we need road and street systems that feel safe and are safe for all road users.'”
This Map Shows the Dozens of U.S. Cities That Will Get New Public Transit in 2022 — 01/26/22, Fast Company Design
“For public transit, 2022 could be a huge year. Across the U.S. and around the world, dozens of new train, bus, and streetcar lines are scheduled to begin operations, according to a newly released overview of transit projects compiled by urban researcher Yonah Freemark.”
5 U.S. Cities Where Bike Commuting Is Booming — 01/26/22, Bloomberg CityLab
“A new report from the League of American Bicyclists traces how long-term planning and infrastructure investments allowed some cities to grow their share of bicycle commuters.”
Australia Just Opened the Climate Change-focused Museum of the Future—And It’s Beautiful — 01/25/22, Architectural Digest
“For the highly specific landscaping, the Bundanon visionaries turned to landscape architects Wraight Associates and Craig Burton, who rather than place the primary focus on the aesthetic, made ecology the centerpiece of the grounds.”
Landscape Architect Wannaporn Pui Phornprapha Masters Her Craft — 01/21/22, Hospitality Design
“Many who experience landscape architect Wannaporn Pui Phornprapha’s projects may never notice her creative fingerprints. Stone paths, lush foliage, and a sense of harmony are the major takeaways.”
