Please contact Rene Gregory-Eaves ([email protected]) if you do not have institutional access to any of the papers of interest
Visit my GOOGLE SCHOLAR profile for additional information on linked articles.
Forthcoming contributions
Beaulieu M, Amyot M, Griffiths K, Dastoor A, Jeziorski A, Gregory-Eaves I. in revision. Eutrophication and increased mass accumulation rates in the Anthropocene are the main drivers of mercury (Hg) concentrations and historical enrichment in Canadian lake sediments.
Mirza S, Gregory-Eaves I and Huot Y. submitted. Biodiversity congruence across lake-watershed landscapes: Insights from an analysis of 615 Canadian sites.
Tapics T, Gregory-Eaves I and Huot Y. submitted. High-frequency winter diatom dynamics in a temperate lake as seen with an imaging-in-flow cytometer.
Zilkey DR, Baud A, Francus P, Antoniades D and Gregory-Eaves I. submitted. A pan-Canadian calibration of micro-X-ray fluorescence core scanning data for prediction of sediment elemental concentrations.
Beaulieu M, Amyot M, Griffiths K, Dastoor A, Jeziorski A, Gregory-Eaves I. in revision. Eutrophication and increased mass accumulation rates in the Anthropocene are the main drivers of mercury (Hg) concentrations and historical enrichment in Canadian lake sediments.
Mirza S, Gregory-Eaves I and Huot Y. submitted. Biodiversity congruence across lake-watershed landscapes: Insights from an analysis of 615 Canadian sites.
Tapics T, Gregory-Eaves I and Huot Y. submitted. High-frequency winter diatom dynamics in a temperate lake as seen with an imaging-in-flow cytometer.
Zilkey DR, Baud A, Francus P, Antoniades D and Gregory-Eaves I. submitted. A pan-Canadian calibration of micro-X-ray fluorescence core scanning data for prediction of sediment elemental concentrations.
Figure from MacKeigan et al. 2022: Average relative abundance (A) and frequency of occurrence (i.e., the number of lakes in which each taxon was observed) (B) for complexes and ungrouped genera detected by DNA metabarcoding and microscopy. Standard error bars are included for the relative abundances of each group.
Figure from Gauthier et al. 2021:
Proportion of 18S sequences by phyla from Cultus Lake eDNA samples From Paquette et al. 2021: Axis 1 scores of Principal Component Analysis (PCA) applied on Hellinger-transformed biomass data of crustacean zooplankton species in Canadian lakes
Cooke et al. Best practices that collectively create a recipe for achieving success in applied environmental research. At the core, five strategies that, when used together, form the basis for a strong and respectful partnership. Nine strategies that can be used during one or more stages of the project, surround and support this partnership by working together to promote a successful and impactful applied
environmental research project.
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Publications in peer-reviewed journals
2023 Paquette C, Gregory-Eaves I and Beisner BE. in press. Congruence of water column, contemporary and pre-industrial sediment cladoceran assemblages in 85 Canadian lakes of contrasting human impact levels. Freshwater Biology Griffiths K, Jeziorski A, Antoniades D, Smol JP and Gregory-Eaves I. in press. Changes in midge assemblages reflect climate and trophic gradients across north temperate and boreal lakes since the pre-industrial period. Freshwater Biology Ghanbari H, Zilkey D, Gregory-Eaves I and Antoniades D. in press. A new index for the rapid generation of chlorophyll time series from hyperspectral imaging of sediment cores. Limnology and Oceanography - Methods https://doi.org/10.1002/lom3.10576 Sanchez Schacht J, MacKeigan P, Taranu Z, Huot Y and Gregory-Eaves I. 2023. Agricultural land use and morphometry explain substantial variation in nutrient and ion concentrations in lakes across Canada. Canadian Journal of Fisheries and Aquatic Sciences https://doi.org/10.1139/cjfas-2023-0109 Gregory-Eaves I, Monchamp M-E and Taranu ZE. In press. Tracking aquatic animals with sediment DNA records. In: Capo E, Barouillet C and Smol JP. Tracking Environmental Change Using Lake Sediments Volume 6: Sedimentary DNA. (preprint DOI:10.22541/essoar.167287040.04332426/v1 ) Taranu ZE, Monchamp M-E and Gregory-Eaves I. In press. Considering organisms in an interactive web with sediment DNA records. In: Capo E, Barouillet C and Smol JP. Tracking Environmental Change Using Lake Sediments Volume 6: Sedimentary DNA. D’Avignon G, Hsu S, Gregory-Eaves I and Ricciardi A. 2023. Feeding behavior and species interactions increase the bioavailability of microplastics to benthic food webs. STOTEN https://doi.org/10.1016/j.scitotenv.2023.165261 D’Avignon G, Wang D, Reid HB, Gregory-Eaves I and Ricciardi A. 2023. Effects of elevated temperature and microplastic exposure on growth and predatory performance of a freshwater fish. Limnology and Oceanography https://doi.org/10.1002/lno.12417 Huston GP, Lopez MLD, Cheng Y, King L, Duxbury LC, Picard M, Thomson-Laing G, Myler E, Helbing CC, Kinnison MT, Saros JE, Gregory-Eaves I, Monchamp M-E, Wood SA, Armbrecht L, Ficetola GF, Kurte L, Von Eggers J, Brahney J, Parent G, Sakata MK, Doi H, Capo E. 2023. Detection of fish sedimentary DNA in aquatic systems: A review of methodological challenges and future opportunities. Environmental DNA https://doi.org/10.1002/edn3.467 MacKeigan P, Zastepa A, Taranu ZE, Westrick JA, Liang A, Pick FR, Beisner BE and Gregory-Eaves I. 2023. Microcystin concentrations and congener composition in relation to environmental variables across 440 north-temperate and boreal lakes. STOTEN https://doi.org/10.1016/j.scitotenv.2023.163811 Gros M* & Zilkey DR*, Griffiths KT, Pham J, MacKeigan PW, Taranu ZE, Aulard C, Baud A, Garner RE, Ghanbari H, Lachapelle M, Monchamp M-È, Paquette C, Antoniades D, Francus P, Smol JP, and Gregory-Eaves I. 2023. Long-term environmental changes in the Canadian boreal zone: Synthesizing temporal trends from lake sediment archives to inform future sustainability. https://doi.org/10.1139/er-2023-0006 MacKeigan P, Taranu ZE, Pick FR, Beisner BE and Gregory-Eaves I. 2023. Both biotic and abiotic predictors explain significant variation in cyanobacteria biomass across lakes from temperate to subarctic zones. Limnology and Oceanography. https://doi.org/10.1002/lno.12352 Monchamp M-E, Taranu ZE, Garner RE, Rehill T, Morissette O, Iversen LL, Fugère V, Littlefair JE, Barbosa da Costa N, Desforges JE, Sanchez Schacht JR, Derry AM, Cooke SJ, Barrett RDH, Walsh DA, Ragoussis J, Albert M, Cristescu ME and Gregory-Eaves I. 2023. Prioritizing taxa for genetic reference database development to advance freshwater conservation. Biological Conservation. https://doi.org/10.1016/j.biocon.2023.109963 Baud A, Francus P, Smol JP, Antoniades D and Gregory-Eaves I. accepted. Geochemical changes in Eastern Canadian lake sediment cores spanning the last ~150 years highlight a relative shift towards increased metals and erosive materials. CATENA Gregory-Eaves I and Smol JP. accepted. Paleolimnology: Approaches and Applications. In Jones I and Smol JP (eds). Wetzel’s Limnology, 4th Edition. Barouillet C, Monchamp ME, Bertilsson S, Brasell K, Domaizon I, Epp LW, Ibrahim A, Mejbel H, Nwosu EC, Pearman JK, Picard M, Thomson-Laing G, Tsugeki N, Von Eggers J, Gregory-Eaves I, Pick F, Wood SA, Capo E. 2023. Investigating the effects of anthropogenic stressors on lake biota using sedimentary DNA. Freshwater Biology DOI: 10.1111/fwb.14027 Baud A, Meyer-Jacob C, Smol JP, Patterson M, Francus P and Gregory-Eaves I. 2023. The impacts of whole-lake acidification and eutrophication on the accumulation of lead in sediments from manipulated lakes in the Experimental Lakes Area (IISD-ELA). Environmental Pollution. 317: 120829 2022 Paquette C, Griffiths K, Gregory-Eaves I, and Beisner BE. 2022. Zooplankton assemblage structure and diversity since pre-industrial times in relation to land use. Global Ecology and Biogeography 31:2337–2352 Monchamp, Marie‐Ève, David A Walsh, Rebecca E Garner, Susanne A Kraemer, Beatrix E Beisner, Melania E Cristescu, and Irene Gregory‐Eaves. 2022. “Comparative Analysis of Zooplankton Diversity in Freshwaters: What Can We Gain from Metagenomic Analysis?” Environmental DNA, July. https://doi.org/10.1002/edn3.335. Monchamp, Marie-Ève, Linda Armbrecht, Eric Capo, Marco J Coolen, Tristan Cordier, Isabelle Domaizon, Laura S Epp, Charline Giguet-Covex, Irene Gregory-Eaves, Ulrike Herzschuh, Laura Parducci, Kathleen Stoof-Leichsenring, John W Williams. 2021. “PaleoEcoGen: Unlocking the Power of Ancient Environmental DNA to Understand Past Ecological Trends.” Past Global Changes Magazine, November 2021. https://doi.org/10.22498/pages.29.2.102. Griffiths K, Jeziorski A, Antoniades D, Beaulieu M, Smol JP, Gregory-Eaves I. 2022. Pervasive changes in algal indicators since pre-industrial times: A paleolimnological study of changes in primary production and diatom assemblages from~ 200 Canadian lakes. State of the Total Environment. https://doi.org/10.1016/j.scitotenv.2022.155938 MacKeigan PW, Garner RE, Monchamp ME, Walsh DA, Onana VE, Kraemer SA, Pick FR, Beisner BE, Agbeti MD, Barbosa da Costa N, Shapiro J, and Gregory-Eaves I. 2022. Comparing microscopy and DNA metabarcoding techniques for identifying cyanobacteria assemblages across hundreds of lakes. Harmful Algae. https://doi.org/10.1016/j.hal.2022.102187 Garner RE, Kraemer SA, Onana VE, Huot Y, Gregory-Eaves I, Walsh DA. 2022. Protist diversity and metabolic strategy in freshwater lakes are shaped by trophic state and watershed land use at a continental scale. mSystems. https://doi.org/10.1101/2022.04.04.487084 Gauthier J, Walsh DA, Selbie DT, Domaizon I, Gregory-Eaves I. 2022. Sedimentary DNA of a human-impacted lake in Western Canada (Cultus Lake) reveals changes in micro-eukaryotic diversity over the past ~200 years. Environmental DNA. http://doi.org/10.1002/edn3.310 Baud A, Aulard C, Ghanbari H, Fradette M, Antoniades D, del Giorgio P, Huot Y, Francus P, Smol JP and Gregory-Eaves I. 2022. A framework for 210Pb model selection and its application to 37 cores from Eastern Canada to identify the dynamics and drivers of lake sedimentation rates. Earth Surface Processes and Landforms. https://doi.org/10.1002/esp.5391 Paquette C, Gregory-Eaves I and Beisner B. 2022. Environmental drivers of taxonomic and functional variation in zooplankton diversity and composition in freshwater lakes across Canadian continental watersheds. Limnology and Oceanography. https://doi.org/10.1002/lno.12058 2021 Baud A, Jenny JP, Francus P, Gregory-Eaves I. in press. Global spatio-temporal analyses identify an acceleration of lake sedimentation rates associated with modern land-use change. Journal of Paleolimnology D'Avignon G, Gregory-Eaves I and Ricciardi A. accepted. Microplastics in lakes and rivers: an issue of emerging significance to limnology. Environmental Reviews. Desforges JE, Clarke J, Harmsen EJ, Jardine AM, Robichaud JA, Serré S, Chakrabarty P, Bennett JR, Hanna DEL, Smol JP, Rytwinski T, Taylor JJ, Martel AL, Winegardner AK, Marty J, Taylor MK, O’Connor CM, Robinson SA, Reid AJ, Creed IF, Gregory-Eaves I, Lapointe NWR and Cooke SJ. 2021. On the alarming state of freshwater biodiversity in Canada. Canadian Journal of Fisheries and Aquatic Sciences. Mejbel HS, Dodsworth W, Baud A, Gregory-Eaves I, Pick FR. 2021. Comparing quantitative methods for analyzing sediment DNA records of cyanobacteria in experimental and reference lakes. Frontiers in Microbiology. Gauthier J, Walsh D, Selbie D, Bourgeois A, Griffiths K, Domaizon I and Gregory-Eaves I. 2021. Evaluating the congruence between DNA-based and morphological taxonomic approaches in water and sediment trap samples: Analyses of a 36-month time series from a temperate monomictic lake. Limnology and Oceanography Paquette C, Gregory-Eaves I and Beisner B. 2021. Multi-scale biodiversity analyses identify the importance of continental watersheds in shaping lake zooplankton biogeography. J Biogeography Twardek W, Nyboer E, Tickner D, O'Connor C, Lapointe, Taylor M, Smol J, Gregory-Eaves I, Reid A, Nguyen V, Bergman J, Taylor J, Rytwinski Trina, Creed I, Martel André, Drake A, Robinson S, Marty J, Winegardner A, Bennett J, Cooke S. 2021. Mobilizing practitioners to support the Emergency Recovery Plan for freshwater biodiversity. Conservation Science and Practice. Capo E, Giguet-Covex C, Rouillard A, Nota K, Heintzman P, Vuillemin A, Ariztegui D, Arnaud F, Belle S, Bertilsson S, Bigler C, Bindler R,. Brown AG, Clarke CL, Crump S, Debroas D, Englund G, Ficetola GF, Garner RE, Gauthier J, Gregory-Eaves I, Heinecke L, Herzschuh U, Ibrahim A, Kisand V, Kjær KH, Lammers Y, Littlefair J, Messager E, Monchamp ME, Olajos F, Orsi W, Pedersen MW, Rijal DR, Rydberg J, Spanbauer T, Stoof-Leichsenring K, Taberlet P, Talas L, Thomas C, Walsh D, Wang Y, Willerslev E, van Woerkom A, Zimmermann H, Coolen MJL, Epp LS, Domaizon I, Alsos IG, Parducci L. submitted. Lake sedimentary DNA research on past terrestrial and aquatic biodiversity: Overview and recommendations. Quaternary 4, 6. Griffiths K, Jezioski A, Paquette C, Taranu Z, Baud A, Antoniades D, Beisner B, Hamilton P, Smol JP and Gregory-Eaves I. 2021. Multi-trophic level responses to environmental stressors over the past ~200 years: Insights from a lake-rich region of the world. Ecological Indicators 127: 107700 Tapics T, Gregory-Eaves I, Huot Y. 2021. The private life of Cystodinium: in situ observation go its attachments and population dynamics. Journal of Plankton Research 1–5. doi:10.1093/plankt/fbab025 2020 Garner R, Gregory-Eaves I and Walsh D. 2020. Sediment metagenomes as time capsules of lake microbiomes. mSphere Ghanbari H, Jacques O, Adaime M-E, Gregory-Eaves I, Antoniades D. 2020 Laboratory-based remote sensing of sediment core particle size using hyperspectral image analysis. Remote Sensing 12, 3850 Cooke S, Rytwinski T, Taylor JJ, Nyboer E, Nguyen VM, Bennett JR, Young N, Aitken S, Auld G, Lane JF, Prior K, Smokorowski KE, Smith PA, Jacob AL, Browne D, Blais JM, Kerr JT, Ormeci B, Alexander SM, Burn C, Buxton RT, Orihel DO, Vermaire J, Murray DL, Simon P, Edwards K, Clarke J, Xenopoulos MA, Gregory-Eaves I, Bennett EM and Smol JP. accepted. On “success” in applied environmental research – What is it, how can it be achieved, and how does one know when it has been achieved? Environmental Reviews https://doi.org/10.1139/er-2020-0045 Dormoy-Boulanger J, Gregory-Eaves I, Juneau P, and Beisner B. accepted. L’effet de différentes conditions environnementales sur la production, l’excrétion et la dégradation des cyanotoxines dans les écosystèmes d’eau douce et saumâtre. Le Naturaliste. Giani A, Taranu Z, von Rückert G, Gregory-Eaves I. 2020. Comparing key drivers of cyanobacteria biomass in temperate and tropical systems. Harmful Algae 97: 101859. |
Gauthier J, Gregory-Eaves I, Bunting L, Leavitt P, Tran T, Godbout L, Shapley M, Holtgrieve G, Finney B, Schindler D, Chen G, and Selbie, D. 2020. Evidence of anthropogenic changes driving the long-term ecological trajectory of a peri-urban lake, Cultus Lake, British Columbia: A multi-proxy paleolimnological study. J Paleolimnology
DOI: https://doi.org/10.1007/s10933-020-00147
Simmatis B, Baud A, Gregory-Eaves I, Francus P and Smol JP. 2020. Tracking past river flow using subfossil Simuliidae into an industrially-contaminated lake. J Paleolimnology 64: 179–192
Cooke S, Nguyen V, … Gregory-Eaves I, …[ + 53 co-authors] and Woolford Andrew. 2020. Perspectives on interdisciplinarity from Members of the Canadian College of New Scholars, Artists and Scientists. FACETS 5: 1–28
Crew A, Gregory-Eaves I and Ricciardi A. 2020. Where does all the plastic go? Distribution, abundance and diversity of microplastic in the Upper St. Lawrence River. Environmental Pollution. 260: 113994.
DOI: https://doi.org/10.1007/s10933-020-00147
Simmatis B, Baud A, Gregory-Eaves I, Francus P and Smol JP. 2020. Tracking past river flow using subfossil Simuliidae into an industrially-contaminated lake. J Paleolimnology 64: 179–192
Cooke S, Nguyen V, … Gregory-Eaves I, …[ + 53 co-authors] and Woolford Andrew. 2020. Perspectives on interdisciplinarity from Members of the Canadian College of New Scholars, Artists and Scientists. FACETS 5: 1–28
Crew A, Gregory-Eaves I and Ricciardi A. 2020. Where does all the plastic go? Distribution, abundance and diversity of microplastic in the Upper St. Lawrence River. Environmental Pollution. 260: 113994.
Trottier G, Embke H, Turgeon K, Solomon C, Nozais C and Gregory-Eaves I. 2019. Macroinvertebrate abundance decreases with winter drawdown amplitude in temperate reservoirs. Hydrobiologia 834: 199-211. ().,-volV()0123456789().,-volV)
Saulnier-Talbot E, Chapman L, Efitre J, Simpson K, Gregory-Eaves I. 2019. Marked response of primary producers to long-term hydrologic fluctuations in a tropical crater lake. Frontiers in Ecology and Environment 6: 23.
Pilon S, Zastepa A, Taranu Z, Gregory-Eaves I, Racine M, Blais J, Poulain A and Pick F. 2019. Contrasting histories of microcystin-producing cyanobacteria in two temperate lakes as inferred from quantitative sediment DNA analyses. Lake and Reservoir Management. 35: 102-117.
Saulnier-Talbot E, Chapman L, Efitre J, Simpson K, Gregory-Eaves I. 2019. Marked response of primary producers to long-term hydrologic fluctuations in a tropical crater lake. Frontiers in Ecology and Environment 6: 23.
Pilon S, Zastepa A, Taranu Z, Gregory-Eaves I, Racine M, Blais J, Poulain A and Pick F. 2019. Contrasting histories of microcystin-producing cyanobacteria in two temperate lakes as inferred from quantitative sediment DNA analyses. Lake and Reservoir Management. 35: 102-117.
Griffiths et al. Multivariate regression tree partitioning of the change in the ratio between Eubosmina spp. to Bosmina longirostris from pre-industrial (prior to ∼1850 CE) to modern (∼2007) of 20 sites located across the Northeastern United States. The ratios were partitioned by untransformed environmental parameters from the 2007 NLA dataset. Below each of the leaves are the number of sites (n) each leaf contains and the mean change in the relative abundance (of the ratio of interest) for that leaf. To the right of the tree is an illustration of how the cladoceran assemblages would change, from the core bottom to top, with an increase in the respective ratios.
Griffiths K, Winegardner A, Beisner B and Gregory-Eaves I. 2019. Cladoceran assemblage changes across the Eastern United States as recorded in the sediments from the National Lakes Assessment, USA. Ecological Indicators 96: 368-382.
2018
Daly MH, Kurek J, Gregory-Eaves I, Patoine A. 2018. Reorganization of aquatic communities from low-nutrient lakes in northwestern New Brunswick, Canada. Journal of Paleolimnology. 61: 185-200.
Turgeon K, Turpin C and Gregory-Eaves I. 2018. Boreal river impoundments caused nearshore fish community assemblage shifts but little change in diversity: A multi-scale analysis Canadian Journal of Fisheries and Aquatic Sciences. 76: 740–752.
Moorehouse HL, McGowan S, Jones MD, Taranu ZE, Gregory-Eaves I, Leavitt PR, Barker P, Brayshaw SA. 2018. Regional versus local drivers of water quality in the Windermere catchment: the dominant influence of wastewater pollution over the past 200 years. Global Change Biology. 24: 4009–4022.
Elchyshyn L, Goyette J-O, Saulnier-Talbot É, Maranger R, Nozais C, Solomon CT and Gregory-Eaves I. 2018. Quantifying the effects of hydrological changes on long-term water quality trends in temperate reservoirs: insights from a multi-scale, paleolimnological study. Journal of Paleolimnology. 60: 361–379.
Iacarella JC, Barrow J, Giani A, Beisner BE and Gregory-Eaves I. 2018. Shifts in algal dominance in freshwater experimental ponds across differing levels of macrophytes and nutrients. Ecosphere. 9: e02086.
2018
Daly MH, Kurek J, Gregory-Eaves I, Patoine A. 2018. Reorganization of aquatic communities from low-nutrient lakes in northwestern New Brunswick, Canada. Journal of Paleolimnology. 61: 185-200.
Turgeon K, Turpin C and Gregory-Eaves I. 2018. Boreal river impoundments caused nearshore fish community assemblage shifts but little change in diversity: A multi-scale analysis Canadian Journal of Fisheries and Aquatic Sciences. 76: 740–752.
Moorehouse HL, McGowan S, Jones MD, Taranu ZE, Gregory-Eaves I, Leavitt PR, Barker P, Brayshaw SA. 2018. Regional versus local drivers of water quality in the Windermere catchment: the dominant influence of wastewater pollution over the past 200 years. Global Change Biology. 24: 4009–4022.
Elchyshyn L, Goyette J-O, Saulnier-Talbot É, Maranger R, Nozais C, Solomon CT and Gregory-Eaves I. 2018. Quantifying the effects of hydrological changes on long-term water quality trends in temperate reservoirs: insights from a multi-scale, paleolimnological study. Journal of Paleolimnology. 60: 361–379.
Iacarella JC, Barrow J, Giani A, Beisner BE and Gregory-Eaves I. 2018. Shifts in algal dominance in freshwater experimental ponds across differing levels of macrophytes and nutrients. Ecosphere. 9: e02086.
Iacarella et al. Experimental ponds with different macrophyte densities (none [green], low [blue], high [pink]) and nutri- ent inputs (weekly [dashed line], biweekly [solid line]) showed phases (orange/white shading) of dominance transi- tioning from phytoplankton–zooplankton–periphyton/metaphyton. Phytoplankton (Fluoroprobe measure of total chlorophyll-a [chla], lg/L) and pH were measured daily, and zooplankton biomasses (lg) per liter were interpolated from weekly counts for visualization. Shaded areas around mean fit lines are 1 SE. Note different y-axis scales.
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2017
Vermaire J, Taranu ZE, MacDonald GK, Velghe K, Bennett EM, and Gregory-Eaves I. 2017. Extrinsic versus intrinsic regimes shifts in shallow lakes: Long-term response of cyanobacterial blooms to historical catchment phosphorus loading and climate warming. Frontiers in Ecology and Evolution. 5: 146.
Dubois N, Saulnier-Talbot E, Mills K, Gell P, Battarbee R, Bennion H, Chawchai S, Dong X, Francus P, Flower R, Gomes DF, Gregory-Eaves I, Humane S, Kattel G, Jenny JP, Langdon P, Massaferro J, McGowan S, Mikomägi A, Ngoc NTM, Ratnayake AS, Reid M, Rose N, Saros J, Schillereff D, Tolotti M, Valero-Garcés B. 2017. Early human impacts on lakes and wetlands: A review. Anthropocene Reviews. doi.org/10.1177/2053019617740365
Winegardner AK, Legendre P, Beisner BE and Gregory-Eaves I 2017. Diatom diversity patterns over the past ~150 years across the conterminous United States: identifying mechanisms behind beta diversity. Global Ecology and Biogeography 26: 1303-1315.
Botrel M, Altabet M, Bristow L, Gregory-Eaves I and Maranger R. 2017. Identification of nitrogen cycling pathways in a small and shallow lake using dual nitrate stable isotopes (d15N, d18O). Biogeochemistry. 35: 221-237.
Domaizon I, Winegardner A, Capo E, Gauthier J, Gregory-Eaves I. 2017. Application of DNA-based methods in paleolimnology: new opportunities for investigating long-term dynamics of lacustrine biodiversity. Journal of Paleolimnology 58: 1-21.
Vermaire J, Taranu ZE, MacDonald GK, Velghe K, Bennett EM, and Gregory-Eaves I. 2017. Extrinsic versus intrinsic regimes shifts in shallow lakes: Long-term response of cyanobacterial blooms to historical catchment phosphorus loading and climate warming. Frontiers in Ecology and Evolution. 5: 146.
Dubois N, Saulnier-Talbot E, Mills K, Gell P, Battarbee R, Bennion H, Chawchai S, Dong X, Francus P, Flower R, Gomes DF, Gregory-Eaves I, Humane S, Kattel G, Jenny JP, Langdon P, Massaferro J, McGowan S, Mikomägi A, Ngoc NTM, Ratnayake AS, Reid M, Rose N, Saros J, Schillereff D, Tolotti M, Valero-Garcés B. 2017. Early human impacts on lakes and wetlands: A review. Anthropocene Reviews. doi.org/10.1177/2053019617740365
Winegardner AK, Legendre P, Beisner BE and Gregory-Eaves I 2017. Diatom diversity patterns over the past ~150 years across the conterminous United States: identifying mechanisms behind beta diversity. Global Ecology and Biogeography 26: 1303-1315.
Botrel M, Altabet M, Bristow L, Gregory-Eaves I and Maranger R. 2017. Identification of nitrogen cycling pathways in a small and shallow lake using dual nitrate stable isotopes (d15N, d18O). Biogeochemistry. 35: 221-237.
Domaizon I, Winegardner A, Capo E, Gauthier J, Gregory-Eaves I. 2017. Application of DNA-based methods in paleolimnology: new opportunities for investigating long-term dynamics of lacustrine biodiversity. Journal of Paleolimnology 58: 1-21.
2016
Turgeon K, Solomon CT, Nozais C and Gregory-Eaves I. 2016. Do novel ecosystems follow predictable trajectories? Testing the Trophic Surge Hypothesis in reservoirs with fish. Ecosphere. vol. 7: e01617.
Jenny JP, Normandeau A, Francus P, Taranu ZE, Gregory-Eaves I, Lapointe F, Jautzy J, Ojala AEK, Dorioz JM, Schimmelmann A, Zolitschka B. 2016. Urbanization was the leading cause for the historical spread of hypoxia across European lakes, not intensified agriculture. Proceedings of the National Academy of Sciences of the United States. vol. 113: 12655–12660.
2015
Taranu ZE, Gregory-Eaves I, Leavitt P, Bunting L, Buchaca T, Catalan J, Domaizon I, Guilizzoni P, Lami L, McGowan S, Moorhouse H, Morabito G, Pick F, Stevenson MA, Thompson PL, and Vinebrooke RD. 2015. Acceleration of cyanobacterial dominance in north temperate-subarctic lakes during the Anthropocene. Ecology Letters 18: 375-384.
Cumming BF, Laird KR, Gregory-Eaves I, Simpson KG, Sokal MA, Nordin R and
Walker IR. 2015. Tracking past changes in lake-water phosphorus with a 251-lake calibration dataset in British Columbia: tool development and application in a multiproxy assessment of eutrophication and recovery in Osoyoos Lake, a transboundary lake in western North America. Frontiers in Ecology and Evolution. doi: 10.3389/fevo.2015.00084
Saulnier-Talbot E, Larocque-Tobler I, Gregory-Eaves I and Pienitz R. 2015. Response of lacustrine biota to Late Holocene climate and environmental conditions in northernmost Ungava (Canada). Arctic 68:153-168.
Pal S, Gregory-Eaves I, Pick FR. 2015. Temporal trends in cyanobacteria revealed through DNA and pigments analyses of temperate lake sediment cores. Journal of Paleolimnology 54: 87-101.
Ziegler J, Solomon CT, Finney BP and Gregory-Eaves I. 2015. Macrophyte biomass predicts food chain length in shallow lakes. Ecosphere 6: 5.
Winegardner A, Beisner B, Legendre P and Gregory-Eaves I. 2015. Landscape-level drivers of diatom communities: how different are they between water-column and surface sediment samples? Freshwater Biology 60: 267- 281.
2014
Botrel M, Gregory-Eaves I and Maranger R. 2014. Defining drivers of nitrogen stable isotopes (d15N) of surface sediments in temperate lakes. Journal of Paleolimnology 52: 419-433.
Beaulieu M, Pick F, Palmer M, Watson S, Winters J, Zurawell R and Gregory-Eaves I. 2014. Comparing predictive cyanobacterial models from temperate regions. Canadian Journal of Fisheries and Aquatic Sciences. 71: 1830-1839.
Chen G, Selbie D, Griffiths K, Sweetman J, Botrel M, Taranu Z, Knops S, Bondy J, Michelutti N, Smol J and Gregory-Eaves I. 2014. Proximity to ice fields and lake depth as modulators of paleoclimate records: a regional study from southwest Yukon, Canada. Journal of Paleolimnology. 52:185–200.
Gregory-Eaves I and Domaizon I. 2014. Analysis of DNA archived in lake sediments. ASLO e-lecture. DOI: 10:4319/lol.2014.igregory-eaves.idomaizon.7.
Saulnier-Talbot É, Gregory-Eaves I, Simpson KG, Jackson E, Nowlan TE, Taranu ZE Chapman LJ. 2014. Small changes in climate can profoundly alter the dynamics and services of equatorial crater lakes. PLoS ONE 9(1): e86561.
Adams K, Taranu Z, Zurawell R, Cumming BF and Gregory-Eaves I. 2014. Insights for lake management gained when paleolimnological and water column monitoring studies are combined: A case study from Baptiste Lake. Lake and Reservoir Management 30: 11- 22.
2013
Vermaire J, Greffard M-H, Saulnier-Talbot E and Gregory-Eaves I 2013. Changes in submerged macrophyte abundance altered diatom and chironomid assemblages in a shallow lake. Journal of Paleolimnology. 50: 447-456.
Beaulieu M, Pick F and Gregory-Eaves I. 2013. Nutrients and water temperature are significant predictors of cyanobacteria biomass in a ~1000 lake dataset. Limnology and Oceanography. 58: 1736–1746.
Velghe K and Gregory-Eaves I. 2013. Body size is a significant predictor of congruency in species richness patterns: A meta-analysis. PLoS ONE. 8(2): e57019.
Rogers LA, Schindler DE, Lisi PJ, Holtgrieve GW, Leavitt PR, Bunting L, Finney BP, Selbie DT, Chen G, Gregory-Eaves I, Lisac MJ, Walsh PB. 2013. Centennial-scale fluctuations and regional complexity characterize Pacific salmon population dynamics over the last five centuries. Proceedings of the National Academy of Sciences. 110: 1750-1755.
2012
Taranu Z, Zurawell R, Pick F and Gregory-Eaves I. 2012. Predicting cyanobacterial dynamics in the face of global change: The importance of scale and environmental context. Global Change Biology. 18: 3477–3490. The Society for Canadian Limnologists selected this paper as the best student paper in 2013 (Rob Peters prize).
Velghe K, Vermaire J and Gregory-Eaves I. 2012. Declines in littoral species richness across both spatial and temporal nutrient gradients: A palaeolimnological study of two taxonomic groups. Freshwater Biology. 57:2378-2389.
Greffard M-H, Saulnier-Talbot E and Gregory-Eaves I. 2012. Sub-fossil chironomids are significant indicators of turbidity in shallow lakes of northeastern USA. Journal of Paleolimnology. 47:561–581.
Vermaire J, Prairie Y and Gregory-Eaves I. 2012. Diatom-inferred decline of macrophyte abundance in lakes of southern Quebec, Canada. Canadian Journal of Fisheries and Aquatic Sciences. 69: 511–524.
2011
Holtgrieve GW, Schindler DE, Hobbs WO, Leavitt PR, Ward EJ, Bunting L, Chen G, Finney BP, Gregory-Eaves I, Holmgren S, Lisac MJ, Lisi PJ, Nydick K, Rogers LA, Saros JE, Selbie DT, Shapley MD, Walsh PJ and Wolfe AP. 2011. A coherent signature of anthropogenic nitrogen deposition to remote watersheds of the Northern Hemisphere. Science. 334: 1545-1548.
Gregory-Eaves I. and Beisner B. 2011. Palaeolimnological insights for biodiversity science: An emerging field. Freshwater Biology 56: 2653–2661.
Keatley BE, Bennett E*, MacDonald GK, Taranu ZE and Gregory-Eaves I. 2011a. Land-use legacies are important determinants of lake eutrophication in the Anthropocene. PLoS ONE 6: e15913. * Dr. Bennett and I co-led this project
Chen G, Selbie DT, Finney BP, Schindler DE, Bunting L, Leavitt PR, and Gregory-Eaves I. 2011a. Long-term zooplankton responses to nutrient and consumer subsidies arising from migratory sockeye salmon (Oncorhynchus nerka). Oikos 120: 1317–1326.
Chen G, Saulnier-Talbot E, Selbie DT, Brown E, Schindler DE, Bunting L, Leavitt PR, Finney BP and Gregory-Eaves I. 2011b. Salmon-derived nutrients drive diatom beta-diversity patterns. Freshwater Biology 56: 292–301.
Greffard M-H, Saulnier-Talbot E and Gregory-Eaves I. 2011. A comparative analysis of fine versus coarse taxonomic resolution in benthic chironomid community analyses. Ecological Indicators 11:1541-1551.
Vermaire J, Prairie Y and Gregory-Eaves I. 2011. The influence of submerged macrophytes on sedimentary diatom assemblages. Journal of Phycology. 47: 1230–1240.
Keatley BE, Blais JM, Douglas MSV, Gregory-Eaves I, Mallory ML, Michelutti N and Smol JP. 2011b. Historical seabird population dynamics and their effects on Arctic pond ecosystems: a multi-proxy paleolimnological study from Cape Vera, Devon Island, Arctic Canada. Fundamental and Applied Limnology 179: 51-66.
Shaw V, Bennett E and Gregory-Eaves I. 2011. Conservation of a transboundary lake: Application of historical watershed and paleolimnological analyses inform management strategies. Lake and Reservoir Management. 27: 355-364.
2010
Richard Albert M, Chen G, MacDonald GK, Vermaire J, Bennett EM and Gregory-Eaves I. 2010. Phosphorus and land-use changes are significant drivers of cladoceran community composition and diversity: An analysis over spatial and temporal scales. Canadian Journal of Fisheries and Aquatic Sciences 67:1262-1273.
Taranu Z, Köster D, Hall RI, Charette T, Forrest F, Cwynar L, Gregory-Eaves I. 2010. Contrasting responses of dimictic and polymictic lakes to environmental change: A spatial and temporal study. Aquatic Sciences 72: 97-115.
2009
Selbie DT, Finney B, Barto D, Bunting L, Chen G, Leavitt P, MacIsaac E, Schindler DE, Shapley M and Gregory-Eaves I. 2009. Ecological, landscape, and climatic regulation of sedimentary geochemistry in North American sockeye salmon nursery lakes: Insights for paleoecological salmon investigations. Limnology and Oceanography 54: 1733-1745.
Krümmel E, Scheer M, Gregory-Eaves I, Macdonald RW, Kimpe L, Smol JP, Finney B and Blais JM. 2009. Historical analysis of salmon-derived polychlorinated biphenyls (PCBs) in lake sediments. Science of the Total Environment 407: 1977-1989.
Chipman ML, Clarke GH, Clegg B, Gregory-Eaves I and Hu F.S. 2009. A 2000-year record of climatic change at Ongoke Lake, southwest Alaska. Journal of Paleolimnology 41: 57-75.
2008
Brother S, Vermaire J and Gregory-Eaves I. 2008. Empirical models for describing recent sedimentation rates in lakes distributed across broad spatial scales. Journal of Paleolimnology 40: 1003-1019.
Vermaire J and Gregory-Eaves I. 2008. Reconstructing changes in macrophyte cover in lakes across the northeastern United States based on sedimentary diatom assemblages. Journal of Paleolimnology 39:477-490.
Taranu ZE and Gregory-Eaves I. 2008. Quantifying relationships among phosphorus agriculture and lake depth at an inter-regional scale. Ecosystems 11: 715-725.
Tinner W, Bigler C, Gedye S, Gregory-Eaves I, Jones RT, Kaltenrieder P, Krähenbühl U, and Hu FS. 2008. A 700-year paleoecological record of boreal ecosystem responses to climatic variation from Alaska. Ecology 89: 729–743.
2007
Gregory-Eaves I, Demers MJ, Kimpe L, Krümmel EM, Macdonald RW, Finney BP and Blais JM. 2007. Tracing salmon-derived nutrients and contaminants in freshwater food webs across a pronounced spawner density gradient. Environmental Toxicology and Chemistry 26: 1100-1108.
2005
Poon C, Gregory-Eaves I, Connell LA, Guillore G, Mayer PM, Ridal J and Blais JM. 2005. Air-vegetation partitioning of polychlorinated biphenyls near a point source. Environmental Toxicology and Chemistry 24: 3153-3158.
Krümmel E, Gregory-Eaves I, MacDonald R, Kimpe L, Demers M, Smol JP, Finney B and Blais JM. 2005. Concentrations and fluxes of salmon-derived PCBs in lake sediments. Environmental Science and Technology 39: 7020-7026.
2004
Racca J, Gregory-Eaves I, Pienitz R and Prairie Y. 2004. Tailoring palaeolimnological diatom-based transfer functions. Canadian Journal of Fisheries and Aquatic Sciences 61:2440-2454.
Gregory-Eaves I, Finney BP, Douglas MSV and Smol JP. 2004. Inferring sockeye salmon (Oncorhynchus nerka) population dynamics and water-quality changes in a stained nursery lake over the past ~500 years. Canadian Journal of Fisheries and Aquatic Sciences 61: 1235-1246.
Holtham AJ, Gregory-Eaves I, Pellatt M, Selbie DT, Stewart L, Finney BP and Smol JP. 2004. The influence of flushing rates, terrestrial input and low salmon escapement densities on paleolimnological reconstructions of sockeye salmon (Oncorhynchus nerka) nutrient dynamics in Alaska and British Columbia. Journal of Paleolimnology 32:255-271.
2003
Krümmel E, Macdonald RW, Kimpe LE, Gregory-Eaves I, Demers M, Smol JP, Finney B and Blais JM. 2003. Delivery of pollutants by spawning salmon. Nature 425: 255-256.
Gregory-Eaves I, Smol JP, Douglas MSV and Finney BP. 2003. Diatoms and sockeye salmon (Oncorhynchus nerka) population dynamics: Reconstructions of salmon-derived nutrients in two lakes from Kodiak Island, Alaska. Journal of Paleolimnology 30: 35-53.
Kaufman DS, Hu F-S, Briner JP, Werner A, Finney B and Gregory-Eaves I. 2003. A 33,000 year record of environmental change from Arolik Lake, Ahklun Mountains, Alaska. Journal of Paleolimnology 30: 343-361.
2002
Finney BP#, Gregory-Eaves I#, Douglas MSV and Smol JP. 2002. Fisheries productivity in the northeast Pacific over the past 2,200 years. Nature 416: 729-733. #equal contributors.
2000
Finney B. P., Gregory-Eaves I, Sweetman J, Douglas MSV and Smol JP. 2000. Impacts of climatic change and fishing on Pacific salmon abundance over the past three hundred years. Science 290: 795-799.
Turgeon K, Solomon CT, Nozais C and Gregory-Eaves I. 2016. Do novel ecosystems follow predictable trajectories? Testing the Trophic Surge Hypothesis in reservoirs with fish. Ecosphere. vol. 7: e01617.
Jenny JP, Normandeau A, Francus P, Taranu ZE, Gregory-Eaves I, Lapointe F, Jautzy J, Ojala AEK, Dorioz JM, Schimmelmann A, Zolitschka B. 2016. Urbanization was the leading cause for the historical spread of hypoxia across European lakes, not intensified agriculture. Proceedings of the National Academy of Sciences of the United States. vol. 113: 12655–12660.
2015
Taranu ZE, Gregory-Eaves I, Leavitt P, Bunting L, Buchaca T, Catalan J, Domaizon I, Guilizzoni P, Lami L, McGowan S, Moorhouse H, Morabito G, Pick F, Stevenson MA, Thompson PL, and Vinebrooke RD. 2015. Acceleration of cyanobacterial dominance in north temperate-subarctic lakes during the Anthropocene. Ecology Letters 18: 375-384.
Cumming BF, Laird KR, Gregory-Eaves I, Simpson KG, Sokal MA, Nordin R and
Walker IR. 2015. Tracking past changes in lake-water phosphorus with a 251-lake calibration dataset in British Columbia: tool development and application in a multiproxy assessment of eutrophication and recovery in Osoyoos Lake, a transboundary lake in western North America. Frontiers in Ecology and Evolution. doi: 10.3389/fevo.2015.00084
Saulnier-Talbot E, Larocque-Tobler I, Gregory-Eaves I and Pienitz R. 2015. Response of lacustrine biota to Late Holocene climate and environmental conditions in northernmost Ungava (Canada). Arctic 68:153-168.
Pal S, Gregory-Eaves I, Pick FR. 2015. Temporal trends in cyanobacteria revealed through DNA and pigments analyses of temperate lake sediment cores. Journal of Paleolimnology 54: 87-101.
Ziegler J, Solomon CT, Finney BP and Gregory-Eaves I. 2015. Macrophyte biomass predicts food chain length in shallow lakes. Ecosphere 6: 5.
Winegardner A, Beisner B, Legendre P and Gregory-Eaves I. 2015. Landscape-level drivers of diatom communities: how different are they between water-column and surface sediment samples? Freshwater Biology 60: 267- 281.
2014
Botrel M, Gregory-Eaves I and Maranger R. 2014. Defining drivers of nitrogen stable isotopes (d15N) of surface sediments in temperate lakes. Journal of Paleolimnology 52: 419-433.
Beaulieu M, Pick F, Palmer M, Watson S, Winters J, Zurawell R and Gregory-Eaves I. 2014. Comparing predictive cyanobacterial models from temperate regions. Canadian Journal of Fisheries and Aquatic Sciences. 71: 1830-1839.
Chen G, Selbie D, Griffiths K, Sweetman J, Botrel M, Taranu Z, Knops S, Bondy J, Michelutti N, Smol J and Gregory-Eaves I. 2014. Proximity to ice fields and lake depth as modulators of paleoclimate records: a regional study from southwest Yukon, Canada. Journal of Paleolimnology. 52:185–200.
Gregory-Eaves I and Domaizon I. 2014. Analysis of DNA archived in lake sediments. ASLO e-lecture. DOI: 10:4319/lol.2014.igregory-eaves.idomaizon.7.
Saulnier-Talbot É, Gregory-Eaves I, Simpson KG, Jackson E, Nowlan TE, Taranu ZE Chapman LJ. 2014. Small changes in climate can profoundly alter the dynamics and services of equatorial crater lakes. PLoS ONE 9(1): e86561.
Adams K, Taranu Z, Zurawell R, Cumming BF and Gregory-Eaves I. 2014. Insights for lake management gained when paleolimnological and water column monitoring studies are combined: A case study from Baptiste Lake. Lake and Reservoir Management 30: 11- 22.
2013
Vermaire J, Greffard M-H, Saulnier-Talbot E and Gregory-Eaves I 2013. Changes in submerged macrophyte abundance altered diatom and chironomid assemblages in a shallow lake. Journal of Paleolimnology. 50: 447-456.
Beaulieu M, Pick F and Gregory-Eaves I. 2013. Nutrients and water temperature are significant predictors of cyanobacteria biomass in a ~1000 lake dataset. Limnology and Oceanography. 58: 1736–1746.
Velghe K and Gregory-Eaves I. 2013. Body size is a significant predictor of congruency in species richness patterns: A meta-analysis. PLoS ONE. 8(2): e57019.
Rogers LA, Schindler DE, Lisi PJ, Holtgrieve GW, Leavitt PR, Bunting L, Finney BP, Selbie DT, Chen G, Gregory-Eaves I, Lisac MJ, Walsh PB. 2013. Centennial-scale fluctuations and regional complexity characterize Pacific salmon population dynamics over the last five centuries. Proceedings of the National Academy of Sciences. 110: 1750-1755.
2012
Taranu Z, Zurawell R, Pick F and Gregory-Eaves I. 2012. Predicting cyanobacterial dynamics in the face of global change: The importance of scale and environmental context. Global Change Biology. 18: 3477–3490. The Society for Canadian Limnologists selected this paper as the best student paper in 2013 (Rob Peters prize).
Velghe K, Vermaire J and Gregory-Eaves I. 2012. Declines in littoral species richness across both spatial and temporal nutrient gradients: A palaeolimnological study of two taxonomic groups. Freshwater Biology. 57:2378-2389.
Greffard M-H, Saulnier-Talbot E and Gregory-Eaves I. 2012. Sub-fossil chironomids are significant indicators of turbidity in shallow lakes of northeastern USA. Journal of Paleolimnology. 47:561–581.
Vermaire J, Prairie Y and Gregory-Eaves I. 2012. Diatom-inferred decline of macrophyte abundance in lakes of southern Quebec, Canada. Canadian Journal of Fisheries and Aquatic Sciences. 69: 511–524.
2011
Holtgrieve GW, Schindler DE, Hobbs WO, Leavitt PR, Ward EJ, Bunting L, Chen G, Finney BP, Gregory-Eaves I, Holmgren S, Lisac MJ, Lisi PJ, Nydick K, Rogers LA, Saros JE, Selbie DT, Shapley MD, Walsh PJ and Wolfe AP. 2011. A coherent signature of anthropogenic nitrogen deposition to remote watersheds of the Northern Hemisphere. Science. 334: 1545-1548.
Gregory-Eaves I. and Beisner B. 2011. Palaeolimnological insights for biodiversity science: An emerging field. Freshwater Biology 56: 2653–2661.
Keatley BE, Bennett E*, MacDonald GK, Taranu ZE and Gregory-Eaves I. 2011a. Land-use legacies are important determinants of lake eutrophication in the Anthropocene. PLoS ONE 6: e15913. * Dr. Bennett and I co-led this project
Chen G, Selbie DT, Finney BP, Schindler DE, Bunting L, Leavitt PR, and Gregory-Eaves I. 2011a. Long-term zooplankton responses to nutrient and consumer subsidies arising from migratory sockeye salmon (Oncorhynchus nerka). Oikos 120: 1317–1326.
Chen G, Saulnier-Talbot E, Selbie DT, Brown E, Schindler DE, Bunting L, Leavitt PR, Finney BP and Gregory-Eaves I. 2011b. Salmon-derived nutrients drive diatom beta-diversity patterns. Freshwater Biology 56: 292–301.
Greffard M-H, Saulnier-Talbot E and Gregory-Eaves I. 2011. A comparative analysis of fine versus coarse taxonomic resolution in benthic chironomid community analyses. Ecological Indicators 11:1541-1551.
Vermaire J, Prairie Y and Gregory-Eaves I. 2011. The influence of submerged macrophytes on sedimentary diatom assemblages. Journal of Phycology. 47: 1230–1240.
Keatley BE, Blais JM, Douglas MSV, Gregory-Eaves I, Mallory ML, Michelutti N and Smol JP. 2011b. Historical seabird population dynamics and their effects on Arctic pond ecosystems: a multi-proxy paleolimnological study from Cape Vera, Devon Island, Arctic Canada. Fundamental and Applied Limnology 179: 51-66.
Shaw V, Bennett E and Gregory-Eaves I. 2011. Conservation of a transboundary lake: Application of historical watershed and paleolimnological analyses inform management strategies. Lake and Reservoir Management. 27: 355-364.
2010
Richard Albert M, Chen G, MacDonald GK, Vermaire J, Bennett EM and Gregory-Eaves I. 2010. Phosphorus and land-use changes are significant drivers of cladoceran community composition and diversity: An analysis over spatial and temporal scales. Canadian Journal of Fisheries and Aquatic Sciences 67:1262-1273.
Taranu Z, Köster D, Hall RI, Charette T, Forrest F, Cwynar L, Gregory-Eaves I. 2010. Contrasting responses of dimictic and polymictic lakes to environmental change: A spatial and temporal study. Aquatic Sciences 72: 97-115.
2009
Selbie DT, Finney B, Barto D, Bunting L, Chen G, Leavitt P, MacIsaac E, Schindler DE, Shapley M and Gregory-Eaves I. 2009. Ecological, landscape, and climatic regulation of sedimentary geochemistry in North American sockeye salmon nursery lakes: Insights for paleoecological salmon investigations. Limnology and Oceanography 54: 1733-1745.
Krümmel E, Scheer M, Gregory-Eaves I, Macdonald RW, Kimpe L, Smol JP, Finney B and Blais JM. 2009. Historical analysis of salmon-derived polychlorinated biphenyls (PCBs) in lake sediments. Science of the Total Environment 407: 1977-1989.
Chipman ML, Clarke GH, Clegg B, Gregory-Eaves I and Hu F.S. 2009. A 2000-year record of climatic change at Ongoke Lake, southwest Alaska. Journal of Paleolimnology 41: 57-75.
2008
Brother S, Vermaire J and Gregory-Eaves I. 2008. Empirical models for describing recent sedimentation rates in lakes distributed across broad spatial scales. Journal of Paleolimnology 40: 1003-1019.
Vermaire J and Gregory-Eaves I. 2008. Reconstructing changes in macrophyte cover in lakes across the northeastern United States based on sedimentary diatom assemblages. Journal of Paleolimnology 39:477-490.
Taranu ZE and Gregory-Eaves I. 2008. Quantifying relationships among phosphorus agriculture and lake depth at an inter-regional scale. Ecosystems 11: 715-725.
Tinner W, Bigler C, Gedye S, Gregory-Eaves I, Jones RT, Kaltenrieder P, Krähenbühl U, and Hu FS. 2008. A 700-year paleoecological record of boreal ecosystem responses to climatic variation from Alaska. Ecology 89: 729–743.
2007
Gregory-Eaves I, Demers MJ, Kimpe L, Krümmel EM, Macdonald RW, Finney BP and Blais JM. 2007. Tracing salmon-derived nutrients and contaminants in freshwater food webs across a pronounced spawner density gradient. Environmental Toxicology and Chemistry 26: 1100-1108.
2005
Poon C, Gregory-Eaves I, Connell LA, Guillore G, Mayer PM, Ridal J and Blais JM. 2005. Air-vegetation partitioning of polychlorinated biphenyls near a point source. Environmental Toxicology and Chemistry 24: 3153-3158.
Krümmel E, Gregory-Eaves I, MacDonald R, Kimpe L, Demers M, Smol JP, Finney B and Blais JM. 2005. Concentrations and fluxes of salmon-derived PCBs in lake sediments. Environmental Science and Technology 39: 7020-7026.
2004
Racca J, Gregory-Eaves I, Pienitz R and Prairie Y. 2004. Tailoring palaeolimnological diatom-based transfer functions. Canadian Journal of Fisheries and Aquatic Sciences 61:2440-2454.
Gregory-Eaves I, Finney BP, Douglas MSV and Smol JP. 2004. Inferring sockeye salmon (Oncorhynchus nerka) population dynamics and water-quality changes in a stained nursery lake over the past ~500 years. Canadian Journal of Fisheries and Aquatic Sciences 61: 1235-1246.
Holtham AJ, Gregory-Eaves I, Pellatt M, Selbie DT, Stewart L, Finney BP and Smol JP. 2004. The influence of flushing rates, terrestrial input and low salmon escapement densities on paleolimnological reconstructions of sockeye salmon (Oncorhynchus nerka) nutrient dynamics in Alaska and British Columbia. Journal of Paleolimnology 32:255-271.
2003
Krümmel E, Macdonald RW, Kimpe LE, Gregory-Eaves I, Demers M, Smol JP, Finney B and Blais JM. 2003. Delivery of pollutants by spawning salmon. Nature 425: 255-256.
Gregory-Eaves I, Smol JP, Douglas MSV and Finney BP. 2003. Diatoms and sockeye salmon (Oncorhynchus nerka) population dynamics: Reconstructions of salmon-derived nutrients in two lakes from Kodiak Island, Alaska. Journal of Paleolimnology 30: 35-53.
Kaufman DS, Hu F-S, Briner JP, Werner A, Finney B and Gregory-Eaves I. 2003. A 33,000 year record of environmental change from Arolik Lake, Ahklun Mountains, Alaska. Journal of Paleolimnology 30: 343-361.
2002
Finney BP#, Gregory-Eaves I#, Douglas MSV and Smol JP. 2002. Fisheries productivity in the northeast Pacific over the past 2,200 years. Nature 416: 729-733. #equal contributors.
2000
Finney B. P., Gregory-Eaves I, Sweetman J, Douglas MSV and Smol JP. 2000. Impacts of climatic change and fishing on Pacific salmon abundance over the past three hundred years. Science 290: 795-799.