|Rapid and highly variable warming of lake surface waters around the globe|
CM O'Reilly, S Sharma, DK Gray, SE Hampton, JS Read, RJ Rowley, ...
Geophysical Research Letters 42 (24), 10,773-10,781, 2015
|Identifying the source of species invasions: sampling intensity vs. genetic diversity|
JR Muirhead, DK Gray, DW Kelly, SM Ellis, DD Heath, HJ Macisaac
Molecular Ecology 17 (4), 1020-1035, 2008
|A global database of lake surface temperatures collected by in situ and satellite methods from 1985–2009|
S Sharma, DK Gray, JS Read, CM O’reilly, P Schneider, A Qudrat, C Gries, ...
Scientific data 2 (1), 1-19, 2015
|Lake Superior: an invasion coldspot?|
IA Grigorovich, AV Korniushin, DK Gray, IC Duggan, RI Colautti, ...
Hydrobiologia 499, 191-210, 2003
|Efficacy of open‐ocean ballast water exchange as a means of preventing invertebrate invasions between freshwater ports|
DK Gray, TH Johengen, DF Reid, HJ MacIsaac
Limnology and Oceanography 52 (6), 2386-2397, 2007
|Lake-wide physical and biological trends associated with warming in Lake Baikal|
LR Izmest'eva, MV Moore, SE Hampton, CJ Ferwerda, DK Gray, KH Woo, ...
Journal of Great Lakes Research 42 (1), 6-17, 2016
|Does dispersal limitation impact the recovery of zooplankton communities damaged by a regional stressor?|
DK Gray, SE Arnott
Ecological Applications 21 (4), 1241-1256, 2011
|The rise and fall of plankton: long-term changes in the vertical distribution of algae and grazers in Lake Baikal, Siberia|
SE Hampton, DK Gray, LR Izmest'eva, MV Moore, T Ozersky
PLoS One 9 (2), e88920, 2014
|Recovery of acid damaged zooplankton communities: measurement, extent, and limiting factors|
DK Gray, SE Arnott
Environmental Reviews 17 (NA), 81-99, 2009
|Relationships of total phosphorus and chlorophyll in lakes worldwide|
R Quinlan, A Filazzola, O Mahdiyan, A Shuvo, K Blagrave, C Ewins, ...
Limnology and Oceanography 66 (2), 392-404, 2021
|Can sodium hypochlorite reduce the risk of species introductions from diapausing invertebrate eggs in non-ballasted ships?|
DK Gray, IC Duggan, HJ MacIsaac
Marine Pollution Bulletin 52 (6), 689-695, 2006
|Viability of invertebrate diapausing eggs exposed to saltwater: implications for Great Lakes’ ship ballast management|
DK Gray, SA Bailey, IC Duggan, HJ MacIsaac
Biological Invasions 7, 531-539, 2005
|The recovery of acid‐damaged zooplankton communities in Canadian Lakes: the relative importance of abiotic, biotic and spatial variables|
DK GRAY, SE ARNOTT, JA SHEAD, AM DERRY
Freshwater Biology, 2012
|The role of dispersal levels, A llee effects and community resistance as zooplankton communities respond to environmental change|
DK Gray, SE Arnott
Journal of Applied Ecology 49 (6), 1216-1224, 2012
|Drivers of water quality changes within the Laurentian Great Lakes region over the past 40 years|
O Mahdiyan, A Filazzola, LA Molot, D Gray, S Sharma
Limnology and Oceanography 66 (1), 237-254, 2021
|Current water quality guidelines across North America and Europe do not protect lakes from salinization|
WD Hintz, SE Arnott, CC Symons, DA Greco, A McClymont, JA Brentrup, ...
Proceedings of the National Academy of Sciences 119 (9), e2115033119, 2022
|A database of chlorophyll and water chemistry in freshwater lakes|
A Filazzola, O Mahdiyan, A Shuvo, C Ewins, L Moslenko, T Sadid, ...
Scientific data 7 (1), 1-10, 2020
|Biological invasions in Lake Ontario: past, present and future|
IC Duggan, SA Bailey, RI Colautti, DK Gray, JC Makarewicz, HJ MacIsaac
State of Lake Ontario: Past, Present and Future. Leiden (The Netherlands …, 2003
|Total phosphorus and climate are equally important predictors of water quality in lakes|
A Shuvo, CM O’Reilly, K Blagrave, C Ewins, A Filazzola, D Gray, ...
Aquatic Sciences 83 (1), 16, 2021
|Changes in water quality related to permafrost thaw may significantly impact zooplankton in small Arctic lakes|
JM Vucic, DK Gray, RS Cohen, M Syed, AD Murdoch, S Sharma
Ecological Applications 30 (8), e02186, 2020