| Global change‐driven effects on dissolved organic matter composition: Implications for food webs of northern lakes IF Creed, AK Bergström, CG Trick, NB Grimm, DO Hessen, J Karlsson, ... Global change biology 24 (8), 3692-3714, 2018 | 344 | 2018 |
| Global maps of soil temperature JJ Lembrechts, J van den Hoogen, J Aalto, MB Ashcroft, P De Frenne, ... Global change biology 28 (9), 3110-3144, 2022 | 191 | 2022 |
| Global changes may be promoting a rise in select cyanobacteria in nutrient‐poor northern lakes EC Freeman, IF Creed, B Jones, AK Bergström Global Change Biology 26 (9), 4966-4987, 2020 | 60 | 2020 |
| Demand for provisioning ecosystem services as a driver of change in the Canadian boreal zone1 M Erdozain, EC Freeman, C Ouellet Dallaire, S Teichert, HW Nelson, ... Environmental Reviews 27 (2), 166-184, 2019 | 32 | 2019 |
| Deep cyanobacteria layers: An overlooked aspect of managing risks of cyanobacteria KJ Erratt, IF Creed, EC Freeman, CG Trick, J Westrick, JA Birbeck, ... Environmental Science & Technology 56 (24), 17902-17912, 2022 | 16 | 2022 |
| Universal microbial reworking of dissolved organic matter along environmental gradients EC Freeman, EJS Emilson, T Dittmar, LPP Braga, CE Emilson, ... Nature Communications 15 (1), 187, 2024 | 9 | 2024 |
| Applying the core-satellite species concept: Characteristics of rare and common riverine dissolved organic matter M Stadler, MA Barnard, K Bice, ML de Melo, D Dwivedi, EC Freeman, ... Frontiers in Water 5, 1156042, 2023 | 6 | 2023 |
| It takes a village: using a crowdsourced approach to investigate organic matter composition in global rivers through the lens of ecological theory MA Borton, SM Collins, EB Graham, VA Garayburu-Caruso, AE Goldman, ... Frontiers in water 4, 870453, 2022 | 6 | 2022 |
| Determining the biogeochemical transformations of organic matter composition in rivers using molecular signatures JZ Buser-Young, PE Garcia, MO Schrenk, PJ Regier, ND Ward, K Biçe, ... Frontiers in Water 5, 1005792, 2023 | 5 | 2023 |
| Logging disrupts the ecology of molecules in headwater streams EC Freeman, EJS Emilson, K Webster, T Dittmar, AJ Tanentzap bioRxiv, 2023.03. 07.531469, 2023 | 2 | 2023 |
| Feasibility of Instance Segmentation of Phytoplankton using Brightfield Microscopy & Deep Learning JL Deglint, JA Park, EC Freeman, KJ Erratt, MM Allaf, A Wong Journal of Computational Vision and Imaging Systems 7 (1), 19-21, 2021 | 1 | 2021 |
| Cyanobacteria in the Anthropocene: Synanthropism forged in an era of global change KJ Erratt, EC Freeman Water Environment Research 96 (6), e11066, 2024 | | 2024 |
| Universal microbial reworking of dissolved organic matter along soil gradients E Freeman, E Emilson, T Dittmar, L Braga, C Emilson, T Goldhammer, ... EGU24, 2024 | | 2024 |
| Missing the middle: Deep cyanobacteria layers pose a “known unknown” risk to water security KJ Erratt, IF Creed, EC Freeman, CG Trick Water Security 20, 100142, 2023 | | 2023 |
| Logging impacts the ecology of molecules in headwater streams E Freeman | | 2023 |
| The missing middle–Investigating a North American metalimnetic cyanobacteria layer KJ Erratt, I Creed, E Freeman, A Zastepa, J Westrick, C Trick | | 2022 |
| Analyzing Potential Biogeochemical Transformations T Chen, MN Repasch, SC Brooks, MO Schrenk, P Garcia, ND Ward, ... AGU Fall Meeting 2021, 2021 | | 2021 |
| Atmospheric change promotes increasing cyanobacteria dominance in Swedish lakes EC Freeman The University of Western Ontario (Canada), 2018 | | 2018 |
| Is browning a trigger for dominance of harmful cyanobacteria species in lakes? EC Freeman, IF Creed AGU Fall Meeting Abstracts 2017, B43B-2129, 2017 | | 2017 |
| Water Security KJ Erratt, IF Creed, EC Freeman, CG Trick | | |
