Posts tagged 2019
Converging Social, Ecological, and Technological Infrastructure Systems (SETS) for Urban Resilience
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Project Team: Timon McPhearson, Daniel Sauter, Jen Ventrella, Luis Ortiz, Ahmed Mustafa, Elizabeth Cook, Mikhail Chester, Nancy Grimm, Tischa Muñoz-Erickson, David M. Iwaniec, Daniel Childers, Nathan Johnson

The Converging Social, Ecological, and Technological Infrastructure Systems (SETS) for Urban Resilience project is a 5 year initiative to accelerate advances in convergent urban systems science capable of providing cities with the knowledge and methods for building integrated SETS resilience strategies to extreme events, supported by cutting-edge modeling, simulation, and visualization of infrastructure systems. The project will develop and refine an urban resilience conceptual framework to guide an emerging, convergent urban systems science for cities to test and deploy in San Juan (PR), Atlanta, New York, and Phoenix.

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SETS Convergence: Phase 1 Accomplishments

Current ProjectGuest User2019, 2020
Environmental Justice of Urban Flood Risk and Green Infrastructure Solutions
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Project Team: Pablo Herreros, Elizabeth Cook, Timon McPhearson, Claudia Tomateo

The Environmental Justice of Urban Flood Risk and Green Infrastructure Solutions project aims to better understand the environmental justice impacts of climate change related flooding on minority and low-income communities and assess social equity in green infrastructure planning for reducing urban flood risks. Through data visualization and modeling future flood risk, the project will address two central questions concerning flood risk, and green infrastructure development: (1) Who is more exposed to flooding? And (2) who benefits most by current green infrastructure plans or developments?

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The Nature-based solutions for Urban Resilience in the Anthropocene (NATURA)
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Project Team: Timon McPhearson, Nancy Grimm, Elizabeth Cook, Chris Kennedy, Yeowon Kim, Tessa Martinez

The Nature-based Solutions for Urban Resilience in the Anthropocene (NATURA) project links networks in Africa, Asia-Pacific, Europe, North and Latin America, and globally to enhance connectivity among the world's scholars and practitioners and improve the prospects for global urban sustainability. NATURA exchanges knowledge, shares data, and enhances communication among research disciplines and across the research-practice divide to advance urban resilience in face of growing threats of extreme weather events.

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Project theme

Nature-Based Solutions

New York City Stormwater Resiliency
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Project Team: Timon McPhearson, Daniel Sauter, Claudia Tomateo, Elizabeth Cook, Veronica Olivotto

The NYC Stormwater Resiliency Study was a joint effort with New York City governmental stakeholders, including the Department of Environmental Protection (DEP), Mayor’s Office of Resiliency (MOR), and Emergency Management (NYCEM). The aim was to improve service reliability and resiliency of stormwater systems by planning and implementing effective and viable green infrastructure strategies across the city through integrated stormwater management.


Project Updates

In May 2021, the NYC Mayor's Office released the first ever citywide Stormwater Resiliency Plan, which includes an analysis of flooding caused by extreme rainfall events across the 5 boroughs. The Plan draws from results of the NYC Stormwater Resiliency Study, a Town and Gown initiative co-led by the Department of Environmental Protection (DEP), Mayor’s Office of Resiliency (MOR), Emergency Management (NYCEM), and several academic partners including the Urban Systems Lab (USL) at The New School. The overall goal of the study was to develop a unique model to advance the City's assessment of present and future exposure to urban flooding, to use these data to identify the most at-risk parts of NYC, and to identify interventions to offset this exposure. The USL co-led the development of a hydrologic model of flooding, and simulation of citywide flood exposure for twenty current and future storm scenarios with partners at Brooklyn College.

However, what is not clear is how future flooding in NYC may disproportionately impact critical infrastructure and minority and low income populations.

As part of this effort, the USL has launched stormwater.nyc a 3D data visualization mapping platform that integrates publically available data on stormwater resiliency in NYC, with population demographics, land use/cover data layers, location of critical infrastructure and greenspaces, and the New York Panel on Climate Change’s floodplain maps. To date, no other mapping platform has been developed that provides the ability to compare and contrast the potential social and infrastructural risk of future flooding scenarios in NYC. Over the coming months, the Lab will be adding in additional functionality that will allow toggling between layers to better interact with the scenarios and social and infrastructural layers, which we hope will provide a multi-hazard risk decision-support tool to improve resiliency prioritization. We will also be customizing this platform further and can also curate a series of waypoints that guide a reader through a narrative that highlights a neighborhood, e.g. one in each borough, where potential flood impact can be compared. 


In cities across the U.S., extreme precipitation is projected to increase in frequency and intensity due to climate change. Urban areas are especially vulnerable to extreme precipitation due to the presence of impervious surfaces that avoid water from infiltrating. Recent events like Tropical Storm Elsa make clear that this leads to higher amounts of stormwater that need to be managed by the city's sewer systems, which can lead to flooding and/or water quality issues. Our aim in launching stormwater.nyc is to create a central node for considering the interdependent and cascading risks that multiple climate hazards and threats have on NYC’s diverse communities and to enable informed and equitable decision-making, particularly for those most at-risk. 

Research Team:

  • Timon McPhearson, Director, Urban Systems Lab and Professor of Urban Ecology, The New School, timon.mcphearson@newschool.edu

  • Daniel Sauter, Associate Director, Urban Systems Lab and Associate Professor of Data Visualization The New School, sauter@newschool.edu

  • Claudia Tomateo, Research Fellow, The Urban Systems Lab, The New School,  tomateoc@newschool.edu

  • Veronica Olivotto,  PhD Fellow, The Urban Systems Lab, The New School, olivv722@newschool.edu 

Citation:

Herreros-Cantis, Pablo, Veronica Olivotto, Zbigniew Grabowski, and Timon McPhearson. 2020. “Shifting Landscapes of Coastal Flood Risk: Environmental (In)Justice of Urban Change, Sea Level Rise, and Differential Vulnerability in NYC.” Urban Transformations 2:9. https://doi.org/10.1186/s42854-020-00014-w

Project Theme

Urban Climate Resilience

Re-Imagine: Climate Change, Agriculture and Food Security Scenarios Project
Attendees at the project launch discuss the challenges and opportunities in planning for climate change. Photo: C. Ballard

Attendees at the project launch discuss the challenges and opportunities in planning for climate change. Photo: C. Ballard

Project Team: Timon McPhearson, Rohan Bhargava

In September 2019, the Climate Change, Agriculture and Food Security (CCAFS) and International Fund for Agricultural Development (IFAD) organized a 5-day workshop and learning journey for IFAD staff and partners. The objective of the workshop and learning journey was to introduce attendees to transformational approaches to mainstreaming climate change, nutrition, gender, and youth. The fifth day of the event involved the analyzing and discussion of transformation agendas at the country and project levels under future socio-economic and climate scenarios. Junior Researcher Rohan Bhargava led the development of these scenarios and co-led the one-day workshop.

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Urban Resilience to Extreme Weather (UREx) Sustainability Research Network
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Project Team: Timon McPhearson, Ahmed Mustafa, Luis Ortiz, Katinka Wijsman, Bart Orr, Veronica Olivotto, Daniel Sauter, Claudia Tomateo, Chris Kennedy, Yaella Depietri, Elizabeth Cook, Rocio Carrero

USL is co-leading the Urban Resilience to Extremes Sustainability Research Network (UREx SRN), a five-year project funded through a $12 million grant from the National Science Foundation. The highly interdisciplinary UREx team includes scientists, students, planners, NGOs, industry, and other stakeholders in cities throughout the Americas. We are developing an innovative set of methods to assess how infrastructure can be more resilient, provide ecosystem services, and incorporate new technologies that strengthen socio-environmental wellbeing.

As part of the UREx project, USL is producing 3D visualizations that examine the equity implications of urban vulnerability. These interactive maps of nine cities integrate social, ecological, and technological data from a variety of sources. The map for New York City has played an important role in our collaboration with the Mayor's Office of Recovery & Resiliency and the Science and Resilience Institute at Jamaica Bay to reduce the city’s vulnerability to flooding.

project theme

Urban Climate Resilience

Ocellus XR

Ocellus XR is a mixed reality application that leverages the Urban Systems Lab’s (USL) Data Visualization Platform to present users with unique interactive geospatial information of heat, flood risk and other climate indicators in New York City. Integrating environmental studies and data visualization into place-based research on social vulnerability and equity, the app provides a novel experience to understand climate risk, allowing users to explore first-person 3D visualizations of social, ecological, and technological data by projecting interactive maps and implemented resilience interventions onto physical surfaces and experiment with augmented reality layers. The Ocellus XR project builds on the USL’s expertise in advancing spatial agent-based modeling, machine learning, social media data, and cutting-edge visualization of urban social, ecological, and infrastructure systems to ask new questions about key climate change risks and opportunities to advance adaptation in cities.

 

Acknowledgements

Ocellus XR is developed by members of the Urban Systems Lab at The New School. The current Ocellus XR team includes Urban Systems Lab associate diretor Daniel Sauter; USL director Timon McPhearson; Joe Steele, MS Data Visualization ’18; Xinyue Elena Peng, BFA Design & Technology ’22; and Schools of Public Engagement research fellow Claudia Tomateo; and Urban Systems Lab Associate Director Chris Kennedy. Support for OcellusXR is provided in part by the Architecture League of New York’s 2022 Independent Project Grant which is made possible through support from the New York State Council on the Arts.

The graphics, text and information included in the “What can I do?” section of Ocellus XR was developed by WE ACT for Environmental Justice, the East Harlem COAD and Harlem Emergency Network as part of the Climate Ready Uptown Plan (CRUP) project. CRUP is a physical pamphlet that helps Northern Manhattan community members understand their individual risk to climate related disasters and provides pertinent information to help prepare themselves and their families.

 
Future Earth Knowledge-Action Network
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Project Team: Timon McPhearson

Future Earth is an international research platform that helps accelerate transformations to a sustainable world. Its aim is to ensure that scientific understanding is generated in partnership with people throughout society to develop long-term solutions to environmental problems. USL has provided leadership as a member of the core development team, helping to launch the Urban Knowledge-Action Network (UKAN) and the Livable Urban Futures project.

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MillionTreesNYC Afforestation Study
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Project Team: Timon McPhearson, Bianca Lopez, Elizabeth Cook

The MillionTreesNYC Afforestation Study is a multiyear ecological research project focused on succession, soil-plant interactions, and native-invasive species dynamics in 10 parks across New York City. The purpose is to assess the short- and long-term impacts of the MillionTreesNYC tree-planting strategy on the structure and functions of new forest ecosystems.

Led by USL in collaboration with Columbia University and the New York City Department of Parks & Recreation, the study involves collecting data on soils, plants, and microbes at 38 permanent afforestation plots since 2008. It also includes evaluating forest-management practices for realizing the long-term goals of MillionTreesNYC.

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Current and Future Green Roofs

Project Team: Timon McPhearson, Emily Maxwell, Michael Treglia, Cecilia de Corral

We are collaborating with The Nature Conservancy and Columbia University to produce the most comprehensive assessment of New York City’s green roofs to date. Projects such as Aucher Serr’s Envisioning a New Urban Jungle explore the future of New York’s green roofs through data analysis and visualization.

Our research on green roofs is closely linked with teaching and outreach. The New School’s Green Roof Ecology course — a collaboration with local partners at Brooklyn Grange — gives students a chance to study actual sites and develop related design projects. As part of the Green Roof Researchers Alliance since its inception, USL cosponsored the organization’s State of Green Roofs in NYC Conference with the Audubon Society.

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Is Green Infrastructure a Universal Good?
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Project Team: Timon McPhearson, Z Grabowski, Pauline Munga

Green infrastructure (GI) is usually assumed to be a benefit everywhere and for everybody in a city. Is this assumption correct? Or are there differences in where and who is served or burdened by GI? This project is a collaboration with the Cary Institute examining green infrastructure plans in 20 U.S. cities with the goal of understanding how best to improve the equity of green infrastructure through policy and practice. The project includes an interactive website and toolkit for city planners, researchers and others to use in considering the equity dimensions of future green infrastructure planning.

Project themes

Environmental Justice & Equity · Urban Policy & Planning

Seeds of Good Anthropocenes

Project Team: Timon McPhearson

The Seeds of Good Anthropocenes project is a collaboration with the Stockholm Resilience Centre funded initially through Future Earth. Our aim is to counterbalance dystopian visions of the future that may be inhibiting the ability to cooperate effectively on problem solving.

USL is working with project participants to solicit, explore, and develop a suite of alternative, plausible “good anthropocenes” — future scenarios that are socially and environmentally desirable, just, and sustainable.

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Project themes

Community Engagement · Environmental Justice & Equity