Skip site navigation
University of Maryland Division of Research
Who We Are Capabilities Partnerships Resources News
Analytical Nuclear Magnetic Resonance (NMR) Service & Research Center Biomolecular Nuclear Magnetic Resonance (NMR) Facility Biosciences Cores: Genomics, Imaging, and Flow Cytometry BioWorkshop Brain & Behavior Institute - Advanced Genomic Technologies Core CALCE Test Services and Failure Analysis Laboratory Center For Innovative Biomedical Resources (CIBR) Clarice Smith Performing Arts Center Daikin Energy Innovation Lab DLAR Imaging Core Exposome Small Molecule Core Facility Glenn L. Martin Wind Tunnel Herschel S. Horowitz Center for Health Literacy KIT-Maryland MEG Lab Maryland Fire and Rescue Institute (MFRI) Maryland NanoCenter Maryland Neuroimaging Center Mass Spectrometry Facility Michelle Smith Collaboratory for Visual Culture Neutral Buoyancy Research Facility (NBRF) Surface Analysis Center The Laboratory for Biological Ultrastructure The University of Maryland Center for Health Equity The University of Maryland Prevention Research Center X-ray Crystallographic Center (XCC)
Africa Through Language and Area Studies (ATLAS) Anti-Black Racism Initiative Effective and Equitable Weather Forecasting in a Changing Climate with Machine Learning Encuentros: A University-Community Partnership to Mitigate the Mental Health Crisis for Latino Immigrant Youth Fostering Inclusivity through Technology (FIT) Helping Our Bodies Clear Respiratory Infections The Maryland Safe Drinking WATER Study Modeling the Evolution of Avian Influenza Viruses Music Education for All Through Personalized AI and Digital Humanities Observing Wildfires Through UAVs and Fire Imaging Technologies Programmable Design of Sustainable, All-Natural Plastic Substitutes Racial and Social Justice Research-Practice Partnership Collaborative Remediation of Methane, Water, and Heat Waste Seizing Opportunities: Social Capital, Businesses, and Communities Using Machine Learning to Measure and Improve Equity in K-12 Mathematics Classrooms Water Emergency Team
Accurate, Equitable, and Transparent Genetic Ancestry Inference Advancing Environmental Justice By Evaluating Climate-Ready Urban Street Trees In Historically Redlined Neighborhoods AFTER: A Hospital Violence Intervention Program For Youth Victims of Gunshot Injury An Innovative Intervention to Help Asian American Families Cope with Racism and Mental Health Difficulties Bridging the Gaps in Satellite Observations of Earth Systems to Support Climate Monitoring and Prediction Climate Change and Political Conflict Climate Mitigation and Land-Use Digital Equity Mapping Research and Training Program Establishing a Role for Psilocybin in Frontal Lobe Function Fetal Mammary Stem Cell Programming and Hormone Dysfunction Forecasting Acute Malnutrition for Anticipatory Action Genetic and Lifestyle Risk Factors of Accelerated Brain Aging in Severe Mental Illness How Does Statistical Learning Interact with Socioeconomic Status to Shape Literacy Development? Human Rights Politics and Policies: Lessons from Latin America Increasing Sustainability, Accessibility, and Equity in Urban Mobility with A Self-driving E-Scooter Increasing Participation of Minorities and Women In STEM Through Sports Performance Analytics Research Market Design, Energy Storage, and Interconnection to the U.S. Power Grid On-board Energy Harvesting for Long-endurance Earth Observation UAVs Promoting Youth Mental Wellbeing in Rural Honduras by Engaging Teachers as Catalysts Relating Attitudes on Democracy to Attitudes on Race and Ethnicity An Innovative Approach to Remove Emerging Organic Contaminants from the Environment Role of Mitochondria Dynamics in Opioid Addiction Towards an Early Warning System for Increased Probability of Community Infection by SARS-Cov-2 Variants Understanding the Impact of Wind on Fire Dynamics in Mass-Timber Compartment Visualizing Urban Flooding Due To Climate Change
Search
Who We Are Capabilities Partnerships Resources News

Individual Project Grant

Grand Challenges: Advancing Environmental Justice By Evaluating Climate-Ready Urban Street Trees In Historically Redlined Neighborhoods

Black background
Skip page navigation
News Grand Challenges Grants Grant Categories Individual Project Grants

Advancing Environmental Justice By Evaluating Climate-Ready Urban Street Trees In Historically Redlined Neighborhoods

Grant Type: Individual Project Grant
Topics: Climate Change and Social Justice
College Represented: CMNS

Grand challenges grant yellow and black logo

News

Summary

City canopy trees cool urban heat islands, control stormwater, and promote the health and well-being of residents, all while supporting biodiversity. As a result, many cities, including Baltimore, MD, are increasing urban tree planting campaigns to reach the 30-40% canopy cover needed for residents to feel full benefits. However, planners and planters often do not know which species of trees will survive to provide benefits as large trees, especially with projections of even higher temperatures to come due to climate change. Further, current tree cover in cities is not equitably distributed, leaving some neighborhoods (often those previously redlined) with smaller and less diverse trees and thus hotter and more challenging growing conditions for newly planted trees to grow. These areas may require different species or planting plans than cooler areas of the city. This project addresses this challenge by revisiting recently planted cohorts of trees in Baltimore, MD, across multiple neighborhoods. By measuring 5-year growth, survival, condition, and insect populations, this project is providing solutions by generating data and products identifying a diverse group of trees that are climate and urban-ready and likely to perform best in the heat islands that characterize previously redlined neighborhoods. This work is timely, as the state of Maryland recently committed to planting 500,000 urban trees in previously redlined, low-income, or high-unemployment urban areas through the Urban Tree Grant Program by 2031. Through this project, more cities can become climate change-resilient by enabling targeted, effective tree species choices, using an approach that directly acknowledges, measures, and creates solutions to overcome the legacies and feedbacks of environmental injustice built into U.S. cities.

Burghardt Baltimore Trees

 

Events

Karin burghardt PI: Karin Burghardt

Assistant Professor, Entomology

CMNS

Get Involved