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Dr. Timon McPhearson

Urban Community Ecologist | PhD, Rutgers University

Expertise
urban ecology, resilience, social-ecological systems

External site: urbansystemslab.com

Dr. McPhearson's research examines cities as ecosystems to study social, ecological, and technical interactions to understand urban system dynamics. He utilizes both empirical (e.g. Big Data, field experiments) and theoretical approaches (social-ecological systems and resilience theory) with a focus on the role of urban green infrastructure for advancing equity, climate change resilience, and urban sustainability.

Current Research

Comparative urban ecology

Cities are unique, but many also have similar attributes, patterns, and ecological processes. By comparing research on the ecology in and of cities across the US, Europe, and South America, this research seeks to advance a generalized understanding of the similarities and differences among cities that drive major urban social and ecological patterns. By examining the social, ecological, and technical-infrastructural system (SETS) interactions using existing "big data" across a network of cities, researchers are advancing urban ecology as an urban systems science.

Urban ecosystem services

Ecosystems in cities provide a host of benefits to urban residents ranging from cooling hot cities (especially in summer) through evapotranspiration and shading, stormwater absorption, carbon storage, recreation, and providing habitat for urban adapted species. However, the relationship between biodiversity, ecosystem function, and such "ecosystem services" have not been well studied in urban areas. This research examines relationships between ecosystem function and services to better understand the spatial variation in public access to these services and how improving our ecological knowledge can advance urban planning and management of urban natural areas.

Ecosystem-based climate adaptation and urban resilience

Cities are hotspots for impacts of climate change. Ecosystems in cities and urban regions offer a suite of potential solutions for climate change adaptation, disaster risk reduction, and urban resilience building. Through cellular automata scenario modeling, machine learning, and "big data" researchers are examining how urban ecosystems can provide novel opportunities for reducing risk and vulnerability to heat and flooding for the most vulnerable urban residents. Additionally, by linking urban biodiversity data with functional traits this work is advancing new urban ecological resilience indicators for assessing current levels of ecosystem resilience.

Urban forest dynamics

Through multi-year ecological experiments in urban forests, this research examines the short- and long-term impacts of urban tree planting and management strategy on biodiversity, ecosystem structure, and functioning. Research includes examining soil nutrients, heavy metals, and carbon dynamics over time together with extensive vegetation monitoring to evaluate best management strategies for maximizing carbon uptake and storage, invasive species control, and forest canopy closure in complex urban biological systems.

Hansen, Rieke, Niki Frantzeskaki, Timon McPhearson, Emily Rall, Nadja Kabisch, Anna Kaczorowska, Jaan-Henrik Kain, Martina Artmann, and Stephan Pauleit. 2015. “The Uptake of the Ecosystem Services Concept in Planning Discourses of European and American Cities”. ECOSYSTEM SERVICES 12: 228-46. doi:10.1016/j.ecoser.2014.11.013.
McPhearson, Timon, Zoe A. Hamstead, and Peleg Kremer. 2014. “Urban Ecosystem Services for Resilience Planning and Management in New York City”. AMBIO 43: 502-15. doi:10.1007/s13280-014-0509-8.
Larondelle, Neele, Zoe A. Hamstead, Peleg Kremer, Dagmar Haase, and Timon McPhearson. 2014. “Applying a Novel Urban Structure Classification to Compare the Relationships of Urban Structure and Surface Temperature in Berlin and New York City”. APPLIED GEOGRAPHY 53: 427-37. doi:10.1016/j.apgeog.2014.07.004.
Falxa-Raymond, Nancy, Matthew I. Palmer, Timon McPhearson, and Kevin L. Griffin. 2014. “Foliar Nitrogen Characteristics of Four Tree Species Planted in New York City Forest Restoration Sites”. URBAN ECOSYSTEMS 17: 807-24. doi:10.1007/s11252-014-0346-3.
Schewenius, Maria, Timon McPhearson, and Thomas Elmqvist. 2014. “Opportunities for Increasing Resilience and Sustainability of Urban Social-Ecological Systems: Insights from the URBES and the Cities and Biodiversity Outlook Projects”. AMBIO 43: 434-44. doi:10.1007/s13280-014-0505-z.
Haase, Dagmar, Neele Larondelle, Erik Andersson, Martina Artmann, Sara Borgstrom, Jurgen Breuste, Erik Gomez-Baggethun, et al. 2014. “A Quantitative Review of Urban Ecosystem Service Assessments: Concepts, Models, and Implementation”. AMBIO 43: 413-33. doi:10.1007/s13280-014-0504-0.
Crossman, Neville D., Benjamin Burkhard, Stoyan Nedkov, Louise Willemen, Katalin Petz, Ignacio Palomo, Evangelia G. Drakou, et al. 2013. “A Blueprint for Mapping and Modelling Ecosystem Services”. ECOSYSTEM SERVICES 4: 4-14. doi:10.1016/j.ecoser.2013.02.001.
McPhearson, Timon, Peleg Kremer, and Zoe A. Hamstead. 2013. “Mapping Ecosystem Services in New York City: Applying a Social-Ecological Approach in Urban Vacant Land”. ECOSYSTEM SERVICES 5: E11-E26. doi:10.1016/j.ecoser.2013.06.005.
Kremer, Peleg, Zoe A. Hamstead, and Timon McPhearson. 2013. “A Social-Ecological Assessment of Vacant Lots in New York City”. LANDSCAPE AND URBAN PLANNING 120: 218-33. doi:10.1016/j.landurbplan.2013.05.003.