Elizabeth Favot
Biography
Before coming to 黑料吃瓜不打烊 I worked in 5 diverse roles with a non-profit organization (the Federation of Ontario Cottagers' Associations), and three government agencies (the Ontario Ministry of Natural Resources and Forestry (MNRF) and the Ontario Ministry of the Environment, Conservation and Parks (MECP), as well as Environment and Climate Change Canada (ECCC)). My experience working with these organizations involved applied science and natural resource management for issues including community lake water quality monitoring (the Ontario Lake Partner Program), climate change and fisheries policy, and environmental effects monitoring related to mining. My doctoral and post-doctoral research employed multiple indicators (aquatic invertebrates, algae subfossils, photosynthetic pigments, and water chemical and physical measurements) to understand multi-century trends in primary production, nutrient levels, thermal stratification, and oxygen conditions in lakes. This research aimed to decipher the impact of climate change on lake ecosystem function, and understand the role of multiple human stressors in the increasing incidence of cyanobacterial blooms reported in Ontario lakes.
I feel most at home sitting in the lab and looking at remains of critters that are 100s of years old under the microscope. In my spare time you'll either find me cross-country skiing, or hanging out at my family cottage on Lake Nipissing, depending on the season.
TL;DR I play with mud for work to find out how lake ecosystems have responded to environmental change
Education
PhD??????? Queen’s University (Kingston, ON) – 2021
?????????????? Paleoecological Environmental Assessment and Research Laboratory
?????????????? Thesis:
BEd??????? Queen’s University (Kingston, ON) – 2015
?????????????? Outdoor and Experiential Education, Intermediate/Senior divisions, Math and Science
BScH????? Queen’s University (Kingston, ON) – 2014
??????????????? Biology
Research
My lab examines century-scale environmental change from bioindicators in lake sediments
to track holistic ecosystem response to multiple stressors including climate warming,
urban, and industrial development in northern Ontario freshwaters.
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Teaching
Fall 2024: ENVI 1507 - Introduction to Environmental Studies
Winter 2025: ENSC 3246 - Aquatic Ecology
Publications
Favot EJ, Rühland KM, Paterson AM, Smol JP (2023) Sediment records from Lake Nipissing (ON, Canada) register a lake-wide multi-trophic response to climate change and reveal its possible role for increased cyanobacterial blooms. Journal of Great Lakes Research 50: 102268. DOI:
Favot EJ, Holeton C, DeSellas AM, Paterson AM (2023) Cyanobacterial blooms in Ontario, Canada: Continued increases in reports through the 21st century. Lake and Reservoir Management 39: 1-20. DOI:
Duda MP, Sivarajah B, Rühland KM, Paterson AM, Barrow JL, Cheng Y, Favot EJ, Hadley KR, Hall RI, Hargan KE, Nelligan C, Reavie ED, Valleau RE, Werner P, Wilkins C, Smol JP (2023) Environmental optima for common diatoms from Ontario lakes along gradients of lakewater pH, total phosphorus concentration, and depth. Journal of Paleolimnology 70: 131-158. DOI:
Erratt K, Creed IF, Favot EJ, Smol JP, Vinebrooke RD, Lobb DA, Trick CG. Reconstructing historical time-series of cyanobacteria in lake sediments: Integrating technological innovation to enhance cyanobacterial management. Journal of Environmental Management 343: 118162. DOI:
Meyer M, Ladwig R, Dugan H, Anderson A, Bah A, Boehrer B, Borre L, Chapina R, Doyle C, Favot EJ, Flaim G, Forsberg P, Hanson P, Ibelings B, Isles P, Lin F, Lofton D, Moore T, Peel S, Peters J, Pierson D, de Senerpont Domis L, Schloss J, Shikhani M, Smagula A, Stockwell J, Thomas P, Thomas RQ, Tietjen T, Weathers K (2021) Virtual growing pains: Initial lessons learned from organizing virtual workshops, summits, conferences, and networking events during a global pandemic. Limnology and Oceanography Bulletin 30: 1-11. DOI:
Sivarajah BS, Simmatis B, Favot EJ, Palmer MJ, Smol JP (2021) Eutrophication and climate warming lead to unprecedented cyanobacterial blooms in a Canadian sub-Arctic landscape. Hamful Algae 105: 102036. DOI:
Erratt K, Creed IF, Favot EJ, Todoran I, Tai V, Smol JP, Trick CG (2021) Paleolimnological evidence reveals climate-related preeminence of cyanobacteria in a temperate meromictic lake. Canadian Journal of Fisheries and Aquatic Sciences. DOI:
Deweese N, Favot EJ, Branstrator D, Rantala H, Reavie E, Engstrom D, Paterson AM, Smol JP (2021) Early discoveries of spiny water flea on the North American continent: evidence or artifact? Journal of Paleolimnology 66: 389-405. DOI:
Favot EJ, Hadley KR, Paterson AM, Michelutti N, Watson SB, Zastepa A, Hutchinson NJ, Vinebrooke RD, Smol JP (2020) Using visible near-infrared reflectance spectroscopy (VNIRS) of lake sediments to estimate historical changes in cyanobacterial production. Journal of Paleolimnology 64: 335-345. DOI:
Favot EJ, Rühland KM, DeSellas AM, Ingram R, Paterson AM, Smol JP (2019) Climate variability promotes unprecedented cyanobacterial blooms in a remote, oligotrophic Ontario lake: evidence from paleolimnology. Journal of Paleolimnology 62: 31-52. DOI: