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Dr. Taylor Maavara

Aquatic Biogeochemist | University of Waterloo, 2017

Expertise
aquatic biogeochemistry, watershed nutrient modeling, global biogeochemical cycles, greenhouse gases, river damming


Other affiliations: University of Leeds, School of Geography and Water@Leeds, United Kingdom

External site: taylormaavara.com | Profile (pdf)
Instagram: @tmaav

845 677-7600 x186

Rivers carry water, gases, nutrients, and sediments between land and sea. Yet the role of rivers in global carbon and nutrient cycles remains largely understudied. Taylor Maavara uses large-scale models, machine learning, and field work to address this knowledge gap.

Maavara’s work has helped to reveal how river dams impede the flow of carbon and nutrients (such as nitrogen and phosphorus) at local to global scales, with the potential to disrupt fisheries, cause eutrophication, and increase greenhouse gas emissions.

Maavara studies factors that cause rivers to take up or emit greenhouse gases, and how they fluctuate with climate change and other human impacts. Her models of nitrous oxide emissions from rivers, lakes, estuaries, and reservoirs contributed to the first global nitrous oxide budget. This work showed that nitrous oxide emissions — the third most important greenhouse gas, but the most understudied — are increasing at a rate faster than the worst-case scenarios. The research has informed reports by the Intergovernmental Panel on Climate Change, United Nations Environment Programme, and the Food and Agriculture Organization.

With colleagues, Maavara has built models for carbon and nitrogen cycling in watersheds including Colorado River headwaters in the Rocky Mountains, and the Connecticut River in New England. These models track the addition, transformation, and removal of carbon and nitrogen along entire river networks. Through this work, Maavara has shown that bedrock can be an important nitrogen source to rivers, and that in faster-flowing waters, organic carbon is less likely to be transformed into carbon dioxide.

Other projects are focusing on carbon and nutrient dynamics in rivers coming off of melting glaciers on the Himalayas, and the energy balance in rivers across the US, with implications for the global carbon budget. 

Displaying 1 - 20 of 38
Brown, LE, Taylor Maavara, JW Zhang, XH Chen, M Klaar, FO Moshe, E Ben-Zur, et al. (2026) 2025. “Integrating Sensor Data and Machine Learning to Advance the Science and Management of River Carbon Emissions”. CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY 55 (9): 600-623,. doi:10.1080/10643389.2024.2429912.
South, J, O Stubbington, A Kaiser-Reichel, E Bossman, N Singh, M Mthembu, MD Voysey, et al. (2026) 2025. “Rapid Establishment and Impact Assessment of the Redclaw Crayfish (Cherax Quadricarinatus) Invasion in the Kruger National Park, South Africa”. AQUATIC CONSERVATION-MARINE AND FRESHWATER ECOSYSTEMS 35 (7). doi:10.1002/aqc.70184.
Liu, MD, CZ Zhou, QR Zhang, PA Raymond, XL Li, RP Mason, Taylor Maavara, et al. (2025) 2025. “Fish Trawling and Climate Perturbations Threaten the Largest Marine Mercury Sink”. NATURE SUSTAINABILITY. doi:10.1038/s41893-025-01642-5.
Maavara, Taylor, Zimin Yuan, Andrew M. Johnson, Shuang Zhang, Kelly S. Aho, Craig B. Brinkerhoff, Laura A. Logozzo, and Peter Raymond. (2025) 2025. “River Metabolism in the Contiguous United States: A West of Extremes”. Science 390 (6773). American Association for the Advancement of Science: 622-627,. doi:10.1126/science.adu9843.
Liu, DS, QW Chen, Taylor Maavara, JY Zhang, and YC Chen. (2026) 2024. “Nitrogen Cycling in Reservoir Drawdown Areas and the Impacts on Water Quality”. GLOBAL BIOGEOCHEMICAL CYCLES 38 (7). doi:10.1029/2024GB008136.
Li, Y, HQ Tian, YZ Yao, H Shi, ZH Bian, Y Shi, SY Wang, Taylor Maavara, R Lauerwald, and SF Pan. (2026) 2024. “Increased Nitrous Oxide Emissions from Global Lakes and Reservoirs since the Pre-Industrial Era”. NATURE COMMUNICATIONS 15 (1). doi:10.1038/s41467-024-45061-0.
Bouskill, NJ, M Newcomer, RWH Carroll, C Beutler, M Bill, WS Brown, M Conrad, et al. (2026) 2024. “A Tale of Two Catchments: Causality Analysis and Isotope Systematics Reveal Mountainous Watershed Traits That Regulate the Retention and Release of Nitrogen”. JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES 129 (3). doi:10.1029/2023JG007532.
Tian, HQ, NQ Pan, RL Thompson, JG Canadell, P Suntharalingam, P Regnier, EA Davidson, et al. (2026) 2024. “Global Nitrous Oxide Budget (1980-2020)”. EARTH SYSTEM SCIENCE DATA 16 (6): 2543-2604,. doi:10.5194/essd-16-2543-2024.
Rosentreter, JA, L Alcott, Taylor Maavara, X Sun, Y Zhou, NJ Planavsky, and PA Raymond. (2026) 2024. “Revisiting the Global Methane Cycle Through Expert Opinion”. EARTHS FUTURE 12 (6). doi:10.1029/2023EF004234.
Battin, TJ, R Lauerwald, ES Bernhardt, E Bertuzzo, LG Gener, R Hall Jr, ER Hotchkiss, et al. (2026) 2023. “River Ecosystem Metabolism and Carbon Biogeochemistry in a Changing World”. NATURE 613 (7944): 449-459,. doi:10.1038/s41586-022-05500-8.
Maavara, Taylor, C Brinkerhoff, J Hosen, K Aho, L Logozzo, J Saiers, A Stubbins, and P Raymond. (2026) 2023. “Watershed DOC Uptake Occurs Mostly in Lakes in the Summer and in Rivers in the Winter”. LIMNOLOGY AND OCEANOGRAPHY 68 (3): 735-751,. doi:10.1002/lno.12306.
Shi, WQ, Taylor Maavara, QW Chen, JY Zhang, , and D Tonina. (2026) 2023. “Spatial Patterns of Diffusive Greenhouse Gas Emissions from Cascade Hydropower Reservoirs”. JOURNAL OF HYDROLOGY 619. doi:10.1016/j.jhydrol.2023.129343.
Lauerwald, R, GH Allen, BR Deemer, SD Liu, Taylor Maavara, P Raymond, L Alcott, et al. (2026) 2023. “Inland Water Greenhouse Gas Budgets for RECCAP2: 2. Regionalization and Homogenization of Estimates”. GLOBAL BIOGEOCHEMICAL CYCLES 37 (5). doi:10.1029/2022GB007658.
Rosentreter, JA, GG Laruelle, HW Bange, TS Bianchi, JJM Busecke, WJ Cai, BD Eyre, et al. (2026) 2023. “Coastal Vegetation and Estuaries Are Collectively a Greenhouse Gas Sink”. NATURE CLIMATE CHANGE 13 (6): +, 579+. doi:10.1038/s41558-023-01682-9.
Aho, KS, Taylor Maavara, KM Cawley, and PA Raymond. (2026) 2023. “Inland Waters Can Act As Nitrous Oxide Sinks: Observation and Modeling Reveal That Nitrous Oxide Undersaturation May Partially Offset Emissions”. GEOPHYSICAL RESEARCH LETTERS 50 (21). doi:10.1029/2023GL104987.
Villalobos, Y, JG Canadell, ED Keller, PR Briggs, B Bukosa, DL Giltrap, I Harman, et al. (2026) 2023. “A Comprehensive Assessment of Anthropogenic and Natural Sources and Sinks of Australasia’s Carbon Budget”. GLOBAL BIOGEOCHEMICAL CYCLES 37 (12). doi:10.1029/2023GB007845.
Liu, SD, Taylor Maavara, XK Yang, and LE Brown. (2026) 2022. “Editorial: Riverine Biogeochemistry Under Increasing Damming: Processes and Impacts”. FRONTIERS IN ENVIRONMENTAL SCIENCE 10. doi:10.3389/fenvs.2022.863255.
Liu, SD, Taylor Maavara, CB Brinkerhoff, and PA Raymond. (2026) 2022. “Global Controls on DOC Reaction Versus Export in Watersheds: A Damkohler Number Analysis”. GLOBAL BIOGEOCHEMICAL CYCLES 36 (4). doi:10.1029/2021GB007278.
Brinkerhoff, CB, PA Raymond, Taylor Maavara, Y Ishitsuka, KS Aho, and CJ Gleason. (2026) 2021. “Lake Morphometry and River Network Controls on Evasion of Terrestrially Sourced Headwater CO2”. GEOPHYSICAL RESEARCH LETTERS 48 (1). doi:10.1029/2020GL090068.
Maavara, Taylor, ER Siirila-Woodburn, F Maina, RM Maxwell, JE Sample, KD Chadwick, R Carroll, et al. (2026) 2021. “Modeling Geogenic and Atmospheric Nitrogen through the East River Watershed, Colorado Rocky Mountains”. PLOS ONE 16 (3). doi:10.1371/journal.pone.0247907.

Projects