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Linke J, Fortin M-J, Courtenay S, Cormier R. 2017. High-resolution global maps of 21st-century annual forest loss: Independent accuracy assessment in a temperate forest region of Atlantic Canada. Remote Sensing of Environment. 188: 164-176.
MacLeod J, Keller W, Paterson A, Dyer R, Gunn J. 2017. Scale and watershed features determine lake chemistry patterns across physiographic regions in the far north of Ontario, Canada. Journal of Limnology. 76(1): 211-220.
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Chu C, Lester NP, Giacomini HC, Shuter BJ, and Jackson DA. 2016. Catch-per-unit-effort and size spectra of lake fish assemblages reflect underlying patterns in ecological conditions and anthropogenic activities across regional and local scales 1. Canadian Journal of Fisheries and Aquatic Sciences. 73(4): 535-546.
Creed IF, Cormier R, Laurent KL, Accatino F, Igras J, Henley P, Friedman KB, Johnson LB, Crossman J, Dillon PJ, and Trick CG. 2016. Formal integration of science and management systems needed to achieve thriving and prosperous Great Lakes. BioScience. 66(5):408-18.
Cruz-Font L, Shuter BJ, and Blanchfield PJ. 2016. Energetic costs of activity in wild lake trout: a calibration study using acceleration transmitters and positional telemetry. Canadian Journal of Fisheries and Aquatic Sciences. 73(8): 1237-1250.
Dieleman CM, Lindo Z, McLaughlin JW, Craig AE, Branfireun BA. 2016. Climate change effects on peatland decomposition and porewater dissolved organic carbon biogeochemistry. Biogeochemistry.128(3): 385-396.
Giacomini HC, Shuter BS, Baum J.2016. Introduction to the Special Issue: Size-based approaches to aquatic ecosystems and fisheries science – a Symposium in Honour of Rob Peters. Canadian Journal of Fisheries and Aquatic Sciences. 73(4): 471-476.
de Kerckhove DT, Shuter BJ, and Milne S. 2016. Acoustically derived fish size-spectra within a lake and the statistical power to detect environmental change. Canadian Journal of Fisheries and Aquatic Sciences. 73(4): 565-574.
Lee WS, Mangel M, Peres-Neto P. 2016. Environmental integration: patterns of correlation between environmental factors, early life decisions, and their long-term consequences. Evolutionary Ecology Research. 17(1):1-9.
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Shuter B, Giacomini H, Baum J. 2016. Fish life history dynamics: Shifts in prey size structure evoke shifts in fish life histories.
Tomscha S, Sutherland I, Renard D, Gergel S, Rhemtulla J, Bennett E, Eddy I, Daniels L, and Clark E. 2016. A Guide to Historical Data Sets for Reconstructing Ecosystem Service Change over Time. Bioscience. 66(9): 747-762. Doi: 10.1093/biosci/biw086
Chételat J, Amyot M, Arp P, Blais J, Depew D, van der Velden S, Emmerton C, Evans M, Gamberg M, Gantner N, Girard C, Graydon J, Kirk J, Lean D, Lehnherr I, Muir D, Nasr M, Poulain A, Power M, Rencz A, Roach P, Stern G and Swanson HK. 2015. Mercury in freshwater ecosystems of the Canadian Arctic: Recent advances on its cycling and fate. Science of the Total Environment. 10.1016/j.scitotenv.2014.05.151. (509-510): 41-66.
Creed IF, McKnight DM, Pellerin B, Green MB, Bergamaschi B, Aiken G, Findlay SEG, Burns D, Shanley J, Striegl R, Aulenbach B, Clow D, Laudon H, McGlynn B, McGuire K, Smith R, and Stackpoole S. 2015.The river as a chemostat: fresh perspectives on dissolved organic matter flowing down the river continuum. Canadian Journal of Fisheries and Aquatic Sciences. 72: 1272-1285.
Creed IF, Hwang T, Lutz B, and Way D. 2015. Climate warming causes intensification of the hydrological cycle resulting in changes in the vernal and autumnal windows in a northern temperate forest. Invited contribution to Special Issue: “Runoff Generation in a Nordic Light: 30 Years with Water’s Way from Rain to Stream.” Hydrological Processes. 29(16):3519–3534.
Dieleman CM, Branfireun BA, McLaughlin JW, and Lindo Z. 2015. Climate change drives a shift in peatland ecosystem plant community: Implications for ecosystem function and stability. Global Change Biology. (21)1: 388-395.
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Jacobson B, Grant JW, Peres‐Neto PR. 2015. The interaction between the spatial distribution of resource patches and population density: consequences for intraspecific growth and morphology. Journal of Animal Ecology. 84(4):934-942.
Jeziorski A, Keller B, Dyer RD, A.M. Paterson, and Smol JP. 2015. Differences among modern-day and historical cladoceran communities from the “Ring of Fire” lake region of northern Ontario: Identifying responses to climate warming. Fundamental and Applied Limnology. 186(3): 203–216.
Layeghifard M, Makarenkov V, and Peres-Neto PR. 2015. Spatial and species compositional networks for inferring connectivity patterns in ecological communities. Global Ecology and Biogeography. 24(6):718-727. DOI: 10.1111/geb.12293
Melles SJ, Chu C, Alofs K, and Jackson DA. 2015. Potential spread of Great Lakes fishes given climate change and proposed dams: an approach using circuit theory to evaluate invasion risk. Landscape Ecology.30(5): 919 – 935, 10.1007/s10980-014-0114-z.
Poulain AJ, Aris-Brosou S, Blais J, Brazeau M, Keller W, and Paterson AM. 2015. Microbial DNA records historical delivery of anthropogenic mercury. ISME Journal. 9: 2541–2550. doi:10.1038/ismej.2015.86.
Shuter BJ, Giacomini HC, de Kerckhove DT, and Vascotto K. 2015. Fish life history dynamics: Shifts in prey size structure evoke shifts in predator maturation traits. Canadian Journal of Fisheries and Aquatic Sciences. 73(4): 693-708.
Webster KL, Beall FD, Creed IF, and Kreutzweiser D. 2015. Impacts and prognosis of natural resource development on water and wetlands in Canada’s boreal forest. Environmental Reviews. 10.1139/er-2014-0063 23(1): 78-131.
Creed IF, Spargo AT, Jones JA, Buttle JM, Adams MB, Beall FD, Booth EG, Campbell JL, Clow DW, Elder K, Green MB, Grimm NB, Miniat C, Ramal PS, Saha AK, Sebestyen SD, Spittlehouse D, Sterling S, Williams MW, Winkler R, and Yao H. 2014. Changing forest water yields in response to climate warming: Results from long-term experimental watershed sites across North America. Global Change Biology 20: 3191-3208.
Grill G, Ouellet Dallaire C, Fluet-Chouinard E, Sindorf N, and Lehner B. 2014. Development of new indicators to evaluate river fragmentation and flow regulation at large scales: a case study for the Mekong River Basin. Ecological Indicators 45: 148-159. DOI: 10.1016/j.ecolind.2014.03.026
Hargan KE, Rühland KM, Paterson AM, Finkelstein SA , Holmquist JR, MacDonald G, Keller W, and Smol JP. 2014. The influence of water table depth and pH on the spatial distribution of diatom species in peatlands of the Boreal Shield and Hudson Plains, Canada. Botany. 2015, 93(2): 57-74, 10.1139/cjb-2014-0138
Jones NE, Schmidt BJ, and Melles S. 2014. Characteristics and distribution of natural flow regimes in Canada: a habitat template approach. Canadian Journal of Fisheries and Aquatic Sciences. dx.doi.org/10.1139/cjfas-2014-0040. 71(11): 1616-1624.
Melles SJ, Jones NE, Schmidt B. 2014. Evaluation of current approaches to stream classification and a heuristic guide to developing integrated aquatic classifications of directional networks. Environmental Management 53(3): 549-566.
Mengistu SG, Creed IF, Webster KL, Enanga EM, Beall FD. 2014. Searching for similarity in topographic controls on carbon, nitrogen and phosphorus export from forested headwater catchments. Hydrological Processes 28: 3201-3216.
Paterson A, Keller B, Jones C, Rühland K and Winter J. 2014. An exploratory survey of water chemistry and plankton communities in lakes near the Sutton River, Hudson Bay Lowlands, Ontario, Canada. Arctic, Antarctic and Alpine Research 46: 121-138.
Perron T, Chételat J, Gunn J, Beisner BE, and Amyot M. 2014. Effects of experimental thermocline and oxycline deepening on methylmercury bioaccumulation in a Canadian shield lake. Environmental Science and Technology. 48(5):2626-2634. doi: 10.1021/es404839t
Persaud A, Leuk A, Keller B, Jones C, Dillon P, Gunn J, and Johnston T. 2014. Trophic dynamics of several fish species in lakes of a climatically sensitive region, the Hudson Bay Lowlands. Polar Biology. 38(5): 651-664. doi10.1007/s00300-014-1628-1
Rühland K, Hargan K , Jeziorski A, Paterson A, Keller W, and Smol J. 2014. A multi-trophic exploratory survey of recent environmental change using lake sediments in the Hudson Bay Lowlands, Ontario. Arctic, Antarctic and Alpine Research. 46: 139-158.
Kreutzweiser D, Beall F, Webster K, Thompson D, and Creed I. 2013. Impacts and prognosis of natural resource development on aquatic biodiversity in Canada’s boreal zone. Environmental Reviews. 21: 227-259.
Lehner B, and Grill G. 2013. Global river hydrography and network routing: baseline data and new approaches to study the world’s large river systems. Hydrological Processes 27(15): 2171–2186. DOI: 10.1002/hyp.9740.
Mengistu SG, Quick C, KulpergerR, Creed I. 2013. Russian nesting dolls effect – Using wavelet analysis to reveal non-stationary and nested stationary signals in water yield from catchments on a northern, forested landscape. Hydrological Processes. 23: 669-686.
Peterson EE, Ver Hoef JM, Isaak DJ, Falke JA, Fortin M-J, Jordan C, McNyset K, Monestiez P, Ruesch, AS, Sengupta A, Som N, Steel A, Theobald DM, Torgersen CE, Wenger SJ. 2013. Modeling dendritic ecological networks in space: An integrated network perspective. Ecology Letters. 16:707-719
Tang R, Johnston T, Gunn J, and Bhavsar S. 2013. Temporal changes in mercury concentrations of large-bodied fishes in the boreal shield ecoregion of northern Ontario, Canada. Science of the Total Environment. 444: 409-416.
Mengistu SG, Creed IF, Kulperger RJ, Quick C. Discriminating between non-stationary and stationary responses in water yields from catchments on a northern forested landscape. Hydrological Processes. Invited contribution to Special Issue: “Catchments of the future North: creating science for management in 2050.”
Creed I, Aldred D, Serran J, Accatino F. Maintaining the portfolio of wetland functions on landscapes: A rapid evaluation tool for estimated wetland functions and values.