Pamela Conrad, ASLA, at COP28 / Kotchakorn Voraakhom, International ASLA
New role advances research on nature-based solutions
By Lisa Hardaway
ASLA announced a two-year fellowship with Pamela Conrad, ASLA, PLA, LEED AP, founder of Climate Positive Design. As ASLA’s inaugural Biodiversity and Climate Action Fellow, Conrad will research landscape architecture strategies that are most effective in addressing the climate and biodiversity crisis, with a specific focus on underserved communities in the U.S. and worldwide.
“With Pamela’s expertise, we will be able to provide more in depth guidance and examples of successful nature-based solutions designed by landscape architects around the globe,” said Torey Carter-Conneen, CEO of ASLA. “To make the strongest case to decision-makers, it’s important we have the research to back up the solutions we know have a positive impact. Landscape architects have a vital role to play in addressing the twinned climate and biodiversity crises, because of their work with plants, land, water, and construction materials.”
“I am honored to participate in ASLA’s inaugural Biodiversity and Climate Action Fellowship. This builds upon our strong working relationship over the past several years. I am eager to advance more accessible nature-based guidance for all, particularly for underserved communities. It is my hope that this work elevates the awareness of the profession globally and scales-up our positive impacts around the world,” said Pamela Conrad.
Conrad is an internationally celebrated landscape architect. She founded Climate Positive Design to improve the carbon impacts of the exterior and natural environment projects while increasing social and ecological benefits. She is a faculty lecturer at Harvard Graduate School of Design, an Architecture 2030 Senior Fellow, the vice-chair of the IFLA Climate and Biodiversity Working Group, a member of the World Economic Forum Nature-Positive Cities Task Force, a 2023 Harvard Loeb Fellow, and was a Landscape Architecture Foundation Fellow for Innovation and Leadership. In addition, Conrad was principal at CMG Landscape Architecture in San Francisco, where her work included helping the Port of San Francisco plan for sea level rise along its downtown waterfront.
ASLA’s Climate Action Plan calls for all landscape architecture projects to accomplish the following goals by 2040:
Achieve zero embodied and operational emissions and increase carbon sequestration
Provide significant economic benefits in the form of measurable ecosystem services, health co-benefits, sequestration, and green jobs
Address climate injustices, empower communities, and increase equitable distribution of climate investments
Restore ecosystems and increase and protect biodiversity
Conrad will work in partnership with ASLA’s Senior Manager of Climate Action, a newly dedicated role for Jared Green, Hon. ASLA, a veteran of the profession with deep knowledge of nature-based solutions.
Conrad’s fellowship will build on the ASLA Fund’s research into landscape architecture solutions to extreme heat with Dr. Daniella Hirschfeld, ASLA, PhD, Assistant Professor of Climate Adaptation Planning in the Landscape Architecture and Environmental Planning Department at Utah State University; and landscape architecture strategies to reduce biodiversity loss with Dr. Sohyun Park, ASLA, PhD, Assistant Professor, Department of Plant Science and Landscape Architecture, University of Connecticut.
You have said the dangers of the biodiversity crisis are equal to or even greater than the climate crisis. Can you elaborate?
If we stop emitting carbon dioxide, climate change could be stopped or reversed. But if we lose species, they’re gone forever.
We’ve seen species extinction and the degradation of ecosystems proceed at a rapid pace. We’re losing species at a rate of about anywhere from 100 to 1,000 times faster than the background rate, based on previous extinctions. Addressing climate change will remove one threat to biodiversity, but it won’t stop its decline. If we fix climate change tomorrow, we still are dealing with a massive degradation of nature and biodiversity.
Nature is infinitely more complex than a molecule of carbon. We’re coming up with ways to deal with carbon. But nature is more complex, so we’re still learning a great deal.
When we lose ecosystems or genetic diversity, that impacts our ability to survive as a human species, not to mention all the other more-than-human species that inhabit the planet with us. The food we eat, the air we breathe, the water we drink, the medicines we use are all directly related to nature. If we lose nature, we’re going to severely impact all the things that keep us alive and thriving.
While we look to the sky trying to figure out what to do with climate change, nature is being pulled out right from under us.
Conserving and managing at least 30 percent of the world’s lands, inland waters, and coastal areas is something we’re directly involved in and we take to heart every day.
The targets include four overarching goals, including: the “integrity and connectivity and resilience of all ecosystems are maintained, enhanced, or restored, sustainably increasing the area of natural ecosystems by 2050.” This is where landscape architects can have the greatest impact. We’re all involved and can help make sure this goal is met.
The 23 targets can be put into four categories. One is on-the-ground action targets. The other is policy initiatives. The third is financing and capacity building. The fourth deals with inclusion and equity.
At Biohabitats, we’re really focused on the on-the-ground actions. That’s conserving habitat and species. It’s restoring ecosystems, managing invasive species, and adapting and mitigating to climate change. We deal with these on all our projects. But you can’t think of any of these global targets independently. They’re all connected to one another.
Our work also falls into the inclusion and equity batch of targets. We think about Indigenous peoples, communities of color, and underserved communities and make sure these communities not only participate in the work we do, but have the ability to make decisions, deciding what’s going to happen in their neighborhood, communities, and on their land with their consent.
How can landscape architects better design projects to achieve the 2030 biodiversity targets? What are the top three actions landscape architects can take to increase biodiversity in their work?
First, protect and conserve the biodiversity within your sphere of influence.
Second, restore biodiversity, which can take many forms. Look at how the site is connected to the rest of the landscape from a landscape ecology perspective. Seek to understand how nutrients cycle and flow through the site, how water interacts with the site, how species move across the site or inhabit the site, and how that’s all connected to the regional landscape. It’s really hard to increase biodiversity on a site if we don’t understand these connections and relationships.
Third, once you have an idea of what you’re going to protect and what you’re going to conserve, then develop ideas and ways to restore and enhance biodiversity. This can take the form of many different strategies and measures.
Landscape architects have a tremendous influence and impact on the way biodiversity is protected, conserved, restored, and enhanced.
Biodiverse landscapes provide a range of ecosystem services, including carbon sequestration. But with growing climate impacts like wildfires, landscapes can also become major sources of emissions. Biohabitats analyzed the carbon storage capacity of a fire-prone landscape for the City of Boulder, Colorado. What did you learn?
We were commissioned by the City of Boulder to look at whether their annual carbon sequestration in their open spaces and mountain parks would help them offset the carbon they emit as a city. We inventoried the carbon stock, and annual flux of their landscape, and projected what the loss may be based on fire or another land disturbances, and what the landscape’s potential is in terms of sequestering carbon under a changing climate and with the application of nature-based solutions.
We looked at over 36,000 acres. We found these lands had a really large existing carbon stock. 2.8 million cubic tons of carbon were already being stored in those landscapes.
Map illustrates areas with the greatest carbon density based on soils and landcover. Biohabitats. City of Boulder Open Space and Mountain Parks. Sustainability Solutions Group / Biohabitats
The grasslands had the greatest existing carbon storage, mostly in their soils. Wetlands actually had a greater carbon density per acre, but they cover relatively small areas. While the forest and grasslands can store significant amount of carbon in the landscape, our modeling of fire scenarios found that they were also a potential source of carbon emissions due to the risk of loss under certain scenarios.
We found that nature-based solutions could help draw down carbon and reduce loss. For example, prescribed burning can be used to improve landscape resilience. Because when fire-evolved ecosystems aren’t burned, the fires burn with more intensity and typically burn the soil as well. With frequent fires, you get less intensity, and they produce less carbon emissions.
This fell in line with other studies around the world. It also emphasized why developing or tilling greenfields is destructive in terms of carbon emissions. Protecting and conserving wild lands and parks is really important in reducing carbon emissions.
To the untrained eye, some of your firm’s projects look natural, like nothing has been done. Your beautiful project at Teaneck Creek Park in Bergen County, New Jersey, restored 46 acres of freshwater wetlands. Big Marsh Park on the South Side of Chicago restored a dumping ground and treats wastewater, but looks pristine. Is that one of your measures of design success — for your work to read as nature?
A quick story: We worked on a stream and riparian restoration project in Columbia, Maryland, which sits between Baltimore and Washington, D.C. in the 1990s. A reporter contacted us and said “I want to go out and take some pictures of the site you restored.” We told them where it was, and they went out. We got a call the next day saying they couldn’t find it. They were standing exactly at the point where we did the restoration.
With a lot of our restoration work, we hope it blends back into the existing landscape. But it goes a little bit deeper than that. We think about how to restore ecological processes, like food webs, hydrologic or nutrient cycles, ecological succession or disturbance regimes like fire. That’s what we focus on, not necessarily what the landscape’s going to look like.
It’s really place dependent. Every place has these processes, but they operate at different levels, scales, complexities, and relationships. A long grass prairie, an eastern deciduous forest, or a Gulf Coast tidal wetland are different. We’re trying to first understand those processes and design to protect, restore, enhance them.
If we start doing that, then that manifests itself into what the landscape is going to look like; what the plant community is going to look like; how water flows through, over, under the site; how species interact with the landscape; and how the site evolves. We’re trying to mimic ecosystem processes within landscapes that are relatively stable and intact. Much like architects or landscape architects use precedent images, we use reference landscapes.
Sand seepage wetlands at Teaneck Creek Park provide stormwater attenuation and water quality filtration while enhancing local biodiversity. Biohabitats. Bergen County Dept. Of Parks. Teaneck Creek Conservancy. Rutgers’ Center for Urban Environmental Sustainability / David Ike PhotographyTeaneck Creek Park. Biohabitats. Bergen County Dept. Of Parks. Teaneck Creek Conservancy. Rutgers’ Center for Urban Environmental Sustainability / David Ike Photography
For us, there’s an inherent beauty in natural systems. We’re trying to create the building blocks that allow natural systems to regenerate. For a landscape to be sustainable, robust ecological processes need to be in place. Otherwise, the system is going to fall apart.
The Ford Calumet Environmental Center in Big Marsh Park, designed by Valerio Dewalt Train, is home to Chicago’s first decentralized wastewater treatment and disposal system. The system, designed by Biohabitats, includes constructed wetlands, which demonstrate environmental stewardship while serving and improving access to nature. Biohabitats. Chicago Park District Valero Dewalt Train Associates. DbHMS Engineering. Jacobs/Ryan Associates / Tom Harris
We also work in highly disturbed landscapes that are disconnected from natural processes — for example, brownfields or high-density urban areas. While our goal is to restore the full suite of ecosystem processes and functions, many times we are quite limited in what we can do.
Scientists are calling these novel ecosystems. It’s the idea that we can use these reference landscapes as an analog but knowing that we’ll never be able to replicate many of the ecological processes that sustain these landscapes. What can we restore that has a semblance of ecological integrity and provides value to the life of that landscape? That’s where we begin.
It goes back to our tagline: “We’re in the business of restoring the future, not the past.” We can’t go back to the past because there have been so many changes to our landscapes, ecosystems, and planetary systems. We need to look forward.
Your firm works with the Army Corps of Engineers, which has a large contingent of landscape architects. What do you think that the Corps needs to do to fully realize its vision of Engineering with Nature?
We’ve been working with the Corps of Engineers for almost 30 years. I will give a shout-out to Dr. Todd Bridges, who, with his cohort of researchers and other practitioners, developed the Engineering with Nature initiative while he was at the U.S Army Engineer Research and Development Center (ERDC). Todd is now with a team of researchers at the University of Georgia, working in collaboration with the Corps and others to advance the idea of nature-based solutions for infrastructure projects all over the world.
In 2022, the ERDC contributed to The White House roadmap for accelerating nature-based solutions. This roadmap lays out five recommendations that the Corps and all federal agencies need to do. For the Corps, this will require Congress to change Corps policies, reallocate funding, and shift priorities. It’s not that the Corps is necessarily trying to make things more difficult or put-up roadblocks. Literally, they can’t do many of the changes we want to see or do until Congress gives them authorization. It’s up to all of us to advocate to our representatives in Congress to make these changes happen.
For example, the Corps has specific guidelines on how they evaluate project alternatives, which give overwhelming preference to damage reduction and business loss reductions. These are worthy benefits, but for the most part they completely ignore ecological and social benefits. It’s hard for the Corps to justify the use of nature-based solutions if the benefit is not quantifiable.
But just this past February, the Corps released a final rule to change that policy. If this rule is adopted, the Corps will be able to develop project alternatives that maximize environmental and public benefits. This allows both quantitative and qualitative data to be used in determining the highest benefit to lowest cost ratio. This alone will accelerate the application of nature-based solutions and aesthetic and context sensitive design considerations in infrastructure projects throughout the country. This could be a game-changer.
Your firm also integrates nature into dense urban environments, like a green street in downtown D.C. How do these small projects provide opportunities to increase biodiversity?
We’ve been working with the Golden Triangle Business Improvement District in D.C. for several years. We’re designing and retrofitting bioretention facilities into the streetscape. Obviously, as landscape architects, we are excited to see bioretention as a stormwater quantity and quality management system being designed and installed all over the world.
The idea of bioretention was developed by Larry Coffman in Prince George’s County, Maryland, a suburb just outside of Washington, D.C. in the early 1990s. Biohabitats was fortunate enough to have worked with Larry on that research, the design specifications, and proof of concept for the very first bioretention facilities in the world. So, this is sort of the homecoming for us.
Stair-stepping bioretention cells provide opportunities to showcase native diversity in the Golden Triangle neighborhood of Washington, DC. Biohabitats. Golden Triangle Business Improvement District. DC Department of Energy & Environment. Triangle Contracting. TCG Property Care. Timmons Group Insight LLC / Biohabitats
There are many benefits. They improve water quality by removing pollutants through soil microbes and uptake by plants. They infiltrate stormwater into the ground and help replenish groundwater. They reduce runoff off from impervious surfaces and designed with trees. They help reduce the heat island effect. They also provide micro-habitats for pollinator species and migratory song birds among other species. Bioretention facilities are wonderful ways to benefit nature and biodiversity in urban areas.
Lastly, in 2023, Biohabitats transitioned ownership from being a privately-held company to a perpetual purpose trust, much like Patagonia did. How did you decide this was the best way to achieve your long-term goals for your team and the planet?
Yes, on Earth Day, 2023, Biohabitats sold all its shares to the Biohabitats Purpose Trust (BPT), which is a non-charitable trust with the explicit purpose of “restoring nature, protecting and conserving biodiversity and inspiring love for wild places.”
I began looking a different options for ownership transition about seven years ago. I looked at selling Biohabitats to our team members, another firm, or private equity. I also considered an employee stock ownership plan, a co-op, and a variety of hybrid business models. Eventually, I came across the concept of a Perpetual Purpose Trust through a business group I belonged to. The idea of locking in our purpose and mission in perpetuity really appealed to me and our team.
With the BPT, Biohabitats’ purpose, mission, and values are locked in for the next 100 plus years and cannot be bought or sold. Under the BPT, Biohabitats operates as a for-profit company trading as C-corporation, with a Benefit Corporation overlay. We are also B-Corps certified, a JUST company, and 1% for the Planet Member. The profits Biohabitats earns are no longer extracted by shareholders, because the BPT is the only shareholder and doesn’t need profits. Instead, profits get reinvested back into our team members, stakeholders, and nature.
The BPT is governed by a board of trustees within the Trust Earth Stewardship Committee, which is responsible for making sure that Biohabitats is meeting its purpose and objectives. There are five seats on this stewardship committee, and we have designated and legally codified one seat for nature. Nature, represented by a nature guardian, has a seat at the table and more importantly, agency in making sure that Biohabitats is meeting its purpose and objectives. We believe it’s the first time in the U.S. that nature has been legally assigned as Trustee. For the wild!
Lacasse outlined practical strategies landscape architects can apply to reduce the carbon footprint of parks, plazas, residential communities, and other landscapes.
A landscape’s footprint depends on how much concrete, steel, aluminum, and other carbon-intensive materials it incorporates. These materials create high amounts of embodied carbon in comparison with other materials, like wood, which store carbon.
“A highly active urban plaza will have lots of hardscape,” Lacasse said. But designers can still find ways to minimize hard surfaces and structures to reduce climate impacts.
One tool for figuring out how to cut these materials is Climate Positive Design’s Pathfinder. It shows landscape architects the carbon impacts of the materials they choose for a project.
To get there, Lacasse said landscape architects should cut unnecessary concrete surfaces and swap in decomposed granite, local stone or wood pavers, or recycled materials.
Conventional asphalt, which is commonly used in streets and trails, can be swapped for pervious asphalt, which is lower in carbon. Existing asphalt can also be cut and reused.
Reducing high-carbon materials overall provides benefits. “We can rethink our designs. Do you need a 10-foot-wide concrete or asphalt path, or can you make it 5-feet-wide and add decomposed granite to the edges?”
10-foot-wide path and a 5-foot-wide path alternative / LPA Design Studios
“Instead of a concrete seat wall, design a wood one. Instead of concrete retaining walls and terraces, slope the grade,” she said.
Reducing materials with high embodied carbon is one step for reducing emissions from landscape architecture projects. The other side is significantly increasing the amount of carbon stored in a landscape. If the amount of carbon sequestered is more than the amount emitted by its construction or operations, it’s climate positive — a net carbon sink.
Biodiverse landscapes, with layers of trees and understory plants, store more carbon. But maximizing carbon storage in a landscape is complex. “We look at the growth speed and life span of trees and plants, the planting strategy, how to weave in biodiversity,” Lacasse said.
Biodiverse landscapes store more carbon / GGLO
Trees, plants, and soils all store carbon but at different rates. “Evergreen trees have a faster carbon absorption rate. Deciduous trees have larger canopies and denser wood so they store more carbon, but their absorption rate is slower.”
Carbon storage in evergreen and deciduous trees / GGLO
Large trees store more carbon than smaller trees, so it’s important to keep existing trees whenever possible.
Carbon storage by tree age / GGLO
For a new two-acre community in Seattle, with community gathering places, playground, and a creek, GGLO first created a design using conventional concrete, asphalt, and metal play equipment (see images at top).
Using the Pathfinder tool, they found the site would take 92 years to become climate positive. That is how long it would take for the carbon stored in the trees, plants, and soils to be greater than the carbon emitted through the site’s materials and construction.
But with some changes to the design — including recycled asphalt and concrete; bamboo decking; and wood seatwalls, play structures, and surfaces — it could take 32 years to reach climate positive, a decrease of 60 years.
“We can’t manage carbon without measuring it. These tools can make designers feel empowered,” he said.
From his work with the tools, he found that “the decarbonization potential is higher with hardscapes. Reducing the use of these materials is better than pumping up planting. You can’t plant the heck out of a project to offset embodied carbon. Reduce first and sequester second.”
And Mariana Ricker, ASLA, an associate with SWA, explained how landscape architecture firms can weave carbon considerations into their internal design workflow. “It is just another layer in the process.”
To make that workflow clearer, SWA developed its own decarbonization guide. “We use it to advocate to clients, empower our designers, and prioritize. Not all projects have the same carbon potential.”
She urged landscape architects to carefully consider the materials they select for projects. “It’s important to be as low carbon as possible upfront.”
“When a material has been produced, those embodied carbon emissions are in the atmosphere. We have a limited time span with the climate crisis. Reducing emissions must be our priority. Sequestration happens later, over time.”
Protected bike lane in Buenos Aires, Argentina, Buenos Aires / FotografiaBasica, istockphoto.com
Transportation accounts for a third of global greenhouse gas emissions. Of those emissions, 90 percent is from road vehicles. And approximately half of those emissions are from passenger cars.
Infrastructure that gets people out of cars and provides a safe, accessible way to bike and walk is a key climate solution. But it’s still not high on the global climate agenda.
At Transforming Transportation in Washington, D.C., government and non-profit leaders explained how they are trying to elevate active transportation in climate discussions.
The Netherlands, one of the world’s biking superpowers, seeks to promote cycling and walking on a global level. At COP28 in Dubai, they launched the ACTIVE Program, creating a global financial fund to increase investment in bike and pedestrian infrastructure.
Kees van der Berg, vice minister of mobility and transport at the Dutch Ministry of Infrastructure and Water Management, said the program aims “to train 10,000 experts worldwide in biking and walking infrastructure in ten years.”
The Netherlands and other major donors and financial institutions are also trying to further demonstrate the economic benefits of bike and pedestrian infrastructure that landscape architects design.
“Biking is a cost-effective way to reduce greenhouse gas emissions. Active mobility programs make perfect economic sense if you look at their climate, health, and financial benefits,” said Nicholas Peltier, transport global director at the World Bank.
He pointed to research from the Institute for Transportation and Development Policy (ITDP). Their recent report found large-scale bike infrastructure, spanning hundreds of miles in cities, creates significant returns on investment. Looking at five leading cities — Tianjin, China: Buenos Aires, Argentina; Lima, Peru; Addis Ababa, Ethiopia; and Dar es Salaam, Tanzania — ITDP found returns range from 50 to 100 percent.
Building safe, accessible bike infrastructure also spurs on more bike use, said Rogier van der Berg, with the World Resources Institute (WRI).
Sometimes, in addition to providing the infrastructure, cycling can be boosted with public awareness campaigns. In Turkey, “riding a bicycle had a stigma — that you were poor. We worked with local non-profits to change that,” van der Berg said.
According to Filip Boelaert with the government of Belgium, making continuous investments in bike infrastructure over the long-term is important.
More than a decade ago, the Flanders region of Belgium invested €100 million in their bike infrastructure. Now, that is up to €380 million this year. All that investment has increased bike use and led to the growth of e-bikes for longer journeys. The bike system also complements their growing number of pedestrian-only zones.
Peltier argued that bike infrastructure supports local economies. In many cities, bikes are used to make last-mile deliveries, supporting businesses.
Bike infrastructure can also be packaged as carbon offsets, given they are proven to take cars off the road and reduce transportation emissions. They can be a greater part of carbon finance.
Cyclists in Bogota, Colombia / holgs, istockphoto.com
ITDP is scaling up this work worldwide through a cycling campaign it launched at COP27, with the goal of 25 million more people having access to nearby protected bike lanes by 2025. 34 major global cities have signed on, said Heather Thompson, CEO of ITDP.
“It has been proven over and over. We need designated bike lanes.” They are critical to increasing bike use among younger and older riders of all genders and abilities.
Protected bike lane, Germany / IGphotography, istockphoto.com
And Chiri Babu Maharjan, Mayor of Lalitpur Metropolitan City in Nepal, argued that growing a culture of biking may be just as important.
The Kathandu Valley once had a thriving cycling culture but that was diminished by the growth of motorbike riders in the 1980s. During his tenure, Mayor Maharjan has put in 37 miles (60 kilometers) of bike lanes and recently issued the city’s first tender for nearly 5 miles (8 kilometers) of protected bike lanes.
Biking has spread beyond wealthy European countries to cities across the developing world. But to address the climate crisis, the shift needs to happen more rapidly and more funding is needed.
“The Mindfulness City will be a sustainable city. To be mindful is to be aware — to perform best,” said Giulia Frittoli, partner and head of landscape at Bjarke Ingels Group (BIG).
The Kingdom of Bhutan is a landlocked Buddhist country in the eastern Himalayas, nestled between China and India. It covers 14,000 square miles and has a population of nearly 800,000.
The Royal Office of Bhutan asked BIG, Arup, and Cistri to develop a plan for a new Mindfulness City in Gelephu in southern Bhutan, near the border with India.
The city will span 386 square miles and include a new international airport, railway connections, hydroelectric dam, university, spiritual center, and public spaces.
“This site was selected because it is one of the flatest areas of Bhutan.” The site was also chosen to minimize impact on the forest, which covers 70 percent of the country, making the country a biodiversity hotspot.
“Bhutan has this extra respect for nature. Forests are protected in its constitution,” Frittoli said.
And the site’s flat character enables Bhutan to build a new airport. “As an international gateway, it is an ideal location.”
The planning and design team’s novel plan aims to not only preserve the forest but also make room for rivers and elephants.
“We started with a landscape point of view before an urban point of view. We started from the environment,” Frittoli said.
The Mindfulness City, Bhutan / BIG
The site of the future city is laced with 35 rivers. When glaciers in the Himalayas melt, the rivers widen and deepen. Bhutan also has a monsoon season. And with climate change, more water is expected.
BIG proposed designing the city around these variable river flows. “We examined how the rivers expand and contract. The landscape is not fixed; it is a living organism. We will make space for the water.”
Bhutan also has nearly 700 elephants. They move from the highlands down to the rivers and then south to India. So Frittoli and her team proposed natural corridors around the rivers, which can be up to half a mile wide.
“The corridors are nature getaways. This creates space the water and elephants need.”
Spreading from the corridors will be a series of bioswales that will help channel stormwater.
And the plan will create space for water to support urban rice paddies and agricultural fields. “This will create local jobs and increase economic growth,” Frittoli said.
The Mindfulness City, Bhutan / BIG
Parts of Gelephu are somewhat economically depressed. There are abandoned rice paddies and farms, Frittoli said. This is due to labor shortages.
“His Majesty is concerned that young people are leaving the country for Southeast Asia and Australia. They don’t see a future path in Bhutan due to the lack of educational and job opportunities. His Majesty wants to bring them back.”
“The Mindfulness City will provide white-collar jobs in research and innovation. It will open up Bhutan and bring opportunities, so young people stay,” Frittoli said.
In addition, Bhutan is a carbon-positive country, absorbing more carbon than it emits. Its commitment to sustainability guided the planning of the new city, which will maintain a carbon-positive standard and use locally sourced, natural materials. Buildings will be approximately six stories high and made of stone, mass timber, and bamboo.
The Mindfulness City, Bhutan / BIG
The upper part of the new city will be mostly rice paddies and agricultural fields. Much of the urban density will be found in the southern portion of the new city, closer to India.
A series of bridges spanning the rivers will serve as major hubs and east-west connectors. There will be nine types of bridges, reflecting the tenets of Bhutan’s GNP Index.
The Mindfulness City, Bhutan / Brickvisual
The bridges will provide transportation connections, produce energy, and serve as key gathering spaces. One will be a Vajrayana spiritual center, which will give visitors a chance to experience the daily practice of monks. Other bridges will house a healthcare center, a university, a cultural center, and a market.
The Mindfulness City, Bhutan / BrickvisualThe Mindfulness City, Bhutan / BrickvisualThe Mindfulness City, Bhutan / Brickvisual
The plan proposes a new dam for generating hydropower. Bhutan is powered by 100 percent hydropower, and 90 percent of that is sold to India. The dam will power the new city and provide additional income.
The Mindfulness City, Bhutan / Brickvisual
The first phase of the project is expected to be completed over the next two to five years. Frittoli thinks the plan will be fully realized in 20-30 years and grow organically through multiple phases. It will require public private partnerships and increased investment.
She also commented how landscape architects at BIG — a multidisciplinary firm with more than 700 designers worldwide — are leading the massive project.
“In 2021, I was made partner at BIG, which allowed landscape to be seen equally. We went from five landscape architects to 55 globally.”
“Landscape architects are now at the table when projects start. Given the challenges facing the planet, we need more landscape architects leading.”
ASLA 2020 Professional General Design Honor Award. The Native Plant Garden at The New York Botanical Garden. New York, USA. OEHME, VAN SWEDEN | OvS / Ivo Vermeulen
New Research from the American Society of Landscape Architects (ASLA) Fund Shows Benefits of Nature-Based Solutions
The ASLA Fund has released new peer-reviewed research on landscape architecture solutions to the biodiversity crisis.
The research was developed by Dr. Sohyun Park, ASLA, PhD, Assistant Professor, Department of Plant Science and Landscape Architecture, University of Connecticut. Dr. Park and her team won a competitive national grant from the ASLA Fund in 2023 to conduct the research.
“The biodiversity crisis is on par with the climate crisis. An estimated one million out of eight million species on the planet are threatened with extinction. Our research demonstrates that landscape architects play a significant role in designing and preserving green spaces that enhance and restore biodiversity and promote human well-being,” Dr. Park said.
“ASLA supports the global 30 x 2030 goals, which calls for preserving and restoring 30 percent of the world’s ecosystems by 2030. Sohyun’s research shows that landscape architects’ planning and design work is central to this global effort,” said ASLA CEO Torey Carter-Conneen. “The research demonstrates that we can design for biodiversity and start to restore the planet.”
LAF 2023 Landscape Performance Series Case Study Investigations. Cortex Commons. St. Louis, Missouri. SWT Design, Inc. / Jim Diaz
Dr. Park and her team reviewed nearly 70 peer-reviewed studies focused on planning and designing nature-based solutions to biodiversity loss published from 2000 to 2023. They synthesized the findings in an executive summary, which includes case studies and project examples, and a research study.
Park and her team found that:
Heterogeneity and diversity are critical components of healthy ecosystems. This goes beyond the diversity of animal and plant species to include built forms, landscapes, and water bodies.
Landscape architects can design diverse landscapes and restore plant communities that mimic nature in both functional diversity and complexity of structure.
These design strategies enhance insect, bird, reptile, and mammal biodiversity and improve the water retention capabilities of soils and green infrastructure.
It is critical that stakeholders appreciate how everything connects within a socio-ecological system.
Planners and policymakers should take a holistic view when setting biodiversity objectives and planning local or national initiatives.
Park and her team found empirical research points to the success of these strategies in increasing and enhancing biodiversity:
Design for Biodiversity
Incorporate Native Plants
Support Pollinators
Enable Integrated Pest Management
Include Allelopathic and Companion Plants
Incorporate Protected Areas
Transform Grey to Green
Retrofit Grey Infrastructure to Be Green
Design for Slope and Pitch
Design for Building Height and Architecture
Create Bio-solar Roofs
Build Strong Community Coalitions on Biodiversity
Create community partnerships that build trust with stakeholders
Use participatory design processes to build social-ecological communities defined by a shared sense of bio-cultural heritage
Include Indigenous groups and other community stakeholders in the design, biodiversity monitoring and stewardship, and decision-making processes
ASLA 2022 Professional General Design Honor Award. From Brownfield to Green Anchor in the Assembly Square District. Somerville, Massachusetts. OJB Landscape Architecture / Kyle Caldwell
New Research from the American Society of Landscape Architects (ASLA) Fund Shows Benefits of Nature-Based Solutions
The ASLA Fund has released new peer-reviewed research on landscape architecture solutions to extreme heat, the deadliest climate impact.
The research was developed by Dr. Daniella Hirschfeld, ASLA, PhD, Assistant Professor of Climate Adaptation Planning, Landscape Architecture and Environmental Planning Department, Utah State University. Dr. Hirschfeld won a competitive national grant from the ASLA Fund in 2023 to conduct the research.
“Extreme heat is expected to impact more people and places in the U.S. and across the globe in coming decades, with the greatest impacts to marginalized and underserved communities. An estimated 250,000 excess deaths are expected per year by 2050. Our research demonstrates the importance of maximizing the benefits of nature-based solutions to extreme heat. And landscape architects do that every day through their critically important planning and design work,” Dr. Hirschfeld said.
“While we were developing our Climate Action Plan, landscape architects told us what they needed most was authoritative evidence that demonstrates all the great benefits of their work. We are thrilled Daniella brought the research together to make the strongest case to policymakers, community groups, allied professionals, and the public,” said ASLA CEO Torey Carter-Conneen. “We now have the best science on landscape architecture strategies for extreme heat on hand.”
ASLA 2023 Professional General Design Honor Award. University of Arizona Environment + Natural Resource II. Tucson, Arizona. Colwell Shelor Landscape Architecture / Marion Brenner
Dr. Hirschfeld and her team reviewed more than 100 peer-reviewed studies, looking at planning and designing nature-based solutions that reduce the impacts of extreme heat published from 2007 to 2022. They synthesized the findings in an executive summary, which includes case studies and project examples, and a research study.
Hirschfeld and her team found from the research that:
Increasing the number of nature-based solutions within a community, the size of these solutions, and the amount of greenery or trees will decrease temperatures. While there is not a direct relationship between every tree and degree of temperature reduction, it’s clear from the literature that more greenery produces greater temperature benefits.
The way nature-based solutions are distributed throughout a neighborhood or city makes a difference. Research shows that the more green spaces are connected to one another the greater temperature reductions benefits they provide.
Hirschfeld also found four key landscape architecture strategies reduce heat impacts:
Increase tree percentage in parks and green spaces
Provide shade on sites
Use plant materials and water instead of hardscape
Switch to green ground cover, including grasses and shrubs
ASLA 2023 Professional General Design Honor Award. The University of Texas at El Paso Transformation. El Paso, Texas. Ten Eyck Landscape Architects, Inc. / Adam Barbe
By Roxanne Blackwell, Caleb Raspler, and Matthew Gallagher
On March 11, the White House released the Budget of the U.S. Government for fiscal year 2025. The proposal includes several increases compared to the fiscal year 2024 budget for climate change, biodiversity, parks, water, and transportation.
While these investments can help advance the goals of landscape architects, ASLA believes there are still more resources needed so landscape architects can continue to shape the built and natural environment of tomorrow.
In advance of this release and following the State of the Union, ASLA sent recommendations to the administration to continue deep investment in nature-based infrastructure solutions as part of its forthcoming budget priorities. ASLA’s recommendations are based on member-reported most accessed federal grant programs, ASLA strategic partnerships, and previously requested federal funding.
Here’s how the President’s budget compared to ASLA’s recommendations:
Climate Change: ASLA recommendations regarding federal climate change initiatives closely aligned with the administration. For example, ASLA suggested $25 billion to address climate impacts affecting communities like floods, wildfires, storms, extreme heat, and drought. The administration proposed a total of $23 billion in 2025 to facilitate climate adaptation and resilience across the federal government that landscape architects can take part in, including the American Climate Corps (ACC) and reducing the embodied carbon of construction materials.
Biodiversity: The President’s budget included funding support for biodiversity initiatives like environmental planning and habitat restoration activities. However, the budget did not include ASLA’s specific request for funding to help state and territorial wildlife agencies implement their Wildlife Action Plans and Tribal National conservation efforts. ASLA will continue to work with Congress to pass the Recovering America’s Wildlife Act, which would provide much-needed funds for state biodiversity efforts.
ASLA 2023 Professional General Design Honor Award. The Meadow at the Old Chicago Post Office. Chicago, Illinois. Hoerr Schaudt / Scott Shigley
Active Transportation: Notably, several of the President’s surface transportation budget requests mirror’s ASLA’s recommendations. The fiscal year 2025 President’s budget recommends more than $78 billion to carry out the Federal Highway Administration’s programs, including for surface transportation, roadway safety, transit formula programs, active transportation, and more. The President recommends $14.7 billion for the Surface Transportation Block Grants (ASLA recommends $14.68) and $75 million for the Wildlife Crossings Pilot Program (ASLA recommends $75 million).
ASLA 2023 Professional Residential Design Award of Excellence. The Rain Gardens at 900 Block. Lexington, Kentucky. Gresham Smith
However, the President recommends $800 million for the Rebuilding American Infrastructure with Sustainability and Equity (RAISE) grants. This falls short of ASLA’s recommended $2 billion. This program invests in infrastructure projects like active transportation, Complete Streets, Transit-Oriented Development, and more.
Water Management and Infrastructure: The President’s budget did not include as much funding for water investments as ASLA requested. ASLA asked for more than $9 billion in funding for the U.S. Army Corps of Engineers (USACE) to enhance critical water infrastructure compared to the President’s $7 billion, and more than $3 billion for the Clean Water State Revolving Fund (CWSRF) compared to the President’s $1.24 billion.
National Parks and Public Lands: The President’s budget recommends $3.6 billion for the National Park Service (NPS) compared to ASLA’s suggested $5 billion. The budget includes $125 million for the Land and Water Conservation Fund’s Outdoor Recreation Legacy Program, $11 million to support new sites that preserve the stories of the cultures and history across America, and $11 million to strengthen co-stewardship of Tribal lands.
Equity and Environmental Justice: As ASLA suggested, the President’s 2025 budget prioritized federal investments that address underserved populations through the Justice40 Initiative. Additionally, the budget included funding for STEM education and workforce development programs emphasizing diversity, equity, inclusion, and accessibility. Now that landscape architecture is a STEM discipline, these programs can help advance the profession.
ASLA 2023 Professional Urban Design Honor Award. PopCourts! – A Small Plaza That Turned Into a Movement. Chicago, Illinois. The Lamar Johnson Collaborative / Shelby Kroeger
Community Development: ASLA suggested $3.3 billion for the Community Development Block Grant (CDBG) program to revitalize American neighborhoods compared to the President’s $2.9 billion. Increased investments in this program are needed for landscape architects to continue to support communities and stimulate economic development.
The President’s fiscal year 2025 budget proposal serves as a blueprint for his vision for the upcoming fiscal year. However, Congress is ultimately responsible for developing and passing a budget and appropriations measures to fund the federal government’s functions and activities.
ASLA will continue its efforts to work with congressional leaders and coalition partners to pass spending measures that favor the work of landscape architects.
Roxanne Blackwell, Hon. ASLA, is managing director of government affairs at ASLA. Caleb Raspler is manager of federal government affairs at ASLA. Matthew Gallagher is grassroots coordinator at ASLA.
Chong Nonsi Canal Park, Bangkok, Thailand / Landprocess
“Creating urban spaces that allow for the free flow and penetration of water, wind, and people is essential. Returning to our natural waterscape is not an option; it is the only way to survive.”
Voraakhom was raised in Bangkok, one of the densest, climate vulnerable cities. She is the founder and CEO of landscape architecture firm Landprocess and the Porous City Network.
Voraakhom has analyzed Bangkok’s historic resilience and adaptive ways of living with water, including Indigenous processes. She argues that these Indigenous processes are crucial to creating the waterscape urbanism needed for Bangkok’s future on the Chao Phraya delta.
She will be joined by Glenn LaRue Smith, FASLA, in a conversation about climate and environmental justice. Smith is founder of PUSH Studio and the Black Landscape Architects Network.
This program at the National Building Museum is presented in partnership with the American Society of Landscape Architects (ASLA).
Concrete has high amounts of embodied carbon. These concrete slabs will be reused in Sasaki’s Ellinikon Metropolitan Park in Athens, Greece / Sasaki
“Landscape architects have started conversations about embodied carbon. There is a realization that we can no longer ignore the grey parts,” said Stephanie Carlisle, Senior Researcher, Carbon Leadership Forum and the University of Washington, during the first in a series of webinars organized by the ASLA Biodiversity and Climate Action Committee.
The grey parts are concrete, steel, and other manufactured products in projects. And the conversations happening are laying the foundation for a shift away from using these materials. The landscape architect climate leaders driving these conversations are offering practical ways to decarbonize projects and specify low-carbon materials.
“The built environment now accounts for 40 percent of global greenhouse gas emissions,” Carlisle said. And with population growth, the “global building stock is expected to double over the next 40 years. That means a new New York City every month.” That also means “embodied carbon is expected to account for more than half of construction emissions from now to 2050.”
For landscapes, approximately 75 percent of emissions come from embodied carbon. These are generated by the extraction, manufacturing, transportation, and installation of landscape materials. The other 25 percent come from operations — lighting, water systems, and maintenance.
“Landscape projects are infrastructure. They are highly engineered. They share the same materials with buildings, roads, and bridges,” Carlisle said. “Parks and other landscapes can also be hardscapes that use concrete and steel.”
The ASLA Climate Action Plan calls for eliminating embodied carbon emissions from projects by 2040. The way landscape architects can do this is by tracking the global warming potential (GWP) of the materials they specify.
The lifecycle assessment (LCA) is the global standard for measuring the GWP of a project. It covers energy and emissions from the manufacturing of materials, the construction process, use of the materials, and their end of life reuse, recycling, or disposal.
In the past, LCAs have typically focused on buildings, but Carlisle and landscape architects are leading a shift to whole project LCAs, which also include the energy and water use and emissions from landscapes and infrastructure that surround buildings.
There are a range of tools for measuring project impacts, including professional LCA tools, carbon calculators, design-integrated whole building LCA tools, and product databases.
Another way to measure GWP is through environmental product declarations (EPDs). These need to be developed by product manufacturers. EPDs identify the carbon emissions from products and are complementary to whole site LCAs. “Designers can use both models.”
Carlisle said LCAs should “not be for special projects” alone but also be part of the core design services of landscape architects. “This is the path to zero emissions.”
She also urged landscape architects to:
“Build less and reuse more
Design lighter and smarter
Use low-carbon alternatives
Procure lower-carbon products
Minimize site disturbances
And increase carbon sequestration.”
But she noted landscape architects should be realistic about how long it takes to store carbon in soils and plants.
In all these efforts, “landscape architects are behind the game,” argued Chris Hardy, ASLA, PLA, Senior Associate at Sasaki, founder of Carbon Conscience, and a landscape architect leading the decarbonization of the profession. “Architects are about 10 years ahead of us.”
While the whole building LCA process has been codified for more than five years, the whole project LCA approach has only recently been developed through Climate Positive Design‘s Pathfinder tool.
Hardy recommended landscape architects focus on the embodied carbon from products and their replacements; the construction process; and the circular economy, including how products are reused or recycled at the end of their use in landscapes.
Landscape architects also have the unique ability to store carbon in landscapes through soils, plants, and trees. This presents a great opportunity.
But he noted that carbon storage capacity varies widely by ecosystem type. “Wetlands, salt marshes, and mangroves have high carbon storage capacity, followed by forests and prairies.”
Carbon storage capacity of ecosystems / Sasaki
At Sasaki, he developed the Carbon Conscience tool to “change the conversation during the concept and planning stages” of a project, when the opportunity to reduce emissions is greatest.
Carbon Conscience / Sasaki
The tool enables landscape architects to see the carbon impacts of different site scenarios. There are 260 landscape and 250 building uses available.
Carbon Conscience / Sasaki
Soon, landscape architects will be able to transfer their concept designs from Carbon Conscience into Climate Positive Design’s Pathfinder, where more detailed carbon calculations can be made, rooted in specific material choices.
“We are on a mission to decarbonize,” said Pamela Conrad, ASLA, PLA, founder of Climate Positive Design, who has been the leading the decarbonization of landscape architecture for five years.
“Seven years ago, when I was working on the Treasure Island project off the coast of San Francisco, I realized landscape architects were having conversations about climate impacts like sea level rise, but not the carbon footprint of our projects.”
When Conrad starting running the numbers, she discovered a landscape she designed would take 200 years to offset. But with a few tweaks that maintained the integrity of the design, that could be brought down to 20 years.
“It was a moment of awakening. I realized we need to change business as usual.”
Conrad chaired the task force that created the ASLA Climate Action Plan in 2022. In it, she outlined science-based targets landscape architects need to hit.
“To keep the 1.5°C (2.7°F) global warming limit within reach, we need to cut our project emissions by half by 2030. And then we need to reach zero emissions and double our current rates of carbon sequestration by 2040.”
Conrad has been tracking the carbon performance of landscape architecture projects. More than 10,000 projects have been submitted to Pathfinder to date, and together they will result in 1.9 million trees planted, which is equal to taking 400,000 cars off the road.
But much more needs to be done. Landscape architects need to further adapt how they design to take the GWP of projects into account. Conrad encouraged them to apply practical strategies:
“Incorporate walking and biking infrastructure
Use reclaimed, reused materials
Substitute cement with other materials with lower embodied carbon
Reduce site disturbances that impact carbon stored in soils
Restore ecosystems
Increase plantings
Be creative with greening”
“And just going local for products can cut emissions from transportation by 15-20 percent.”
As Pathfinder and Carbon Conscience further develop, landscape architects will also need to collaborate more with architects and engineers on decarbonization. With their ability to store carbon in landscapes, they can play an even greater role in reducing the climate impacts of the built environment.
