| Detection of hydrologic trends and variability DH Burn, MAH Elnur Journal of hydrology 255 (1-4), 107-122, 2002 | 1750 | 2002 |
| Review of surrogate modeling in water resources S Razavi, BA Tolson, DH Burn Water Resources Research 48 (7), 2012 | 1108 | 2012 |
| Short term streamflow forecasting using artificial neural networks CM Zealand, DH Burn, SP Simonovic Journal of hydrology 214 (1-4), 32-48, 1999 | 791 | 1999 |
| Evaluation of regional flood frequency analysis with a region of influence approach DH Burn Water Resources Research 26 (10), 2257-2265, 1990 | 692 | 1990 |
| Trends and variability in the hydrological regime of the Mackenzie River Basin OI Abdul Aziz, DH Burn Journal of Hydrology 319 (1), 282-294, 2006 | 477 | 2006 |
| Catchment similarity for regional flood frequency analysis using seasonality measures DH Burn Journal of hydrology 202 (1-4), 212-230, 1997 | 422 | 1997 |
| Hydrologic effects of climatic change in west-central Canada DH Burn Journal of Hydrology 160 (1-4), 53-70, 1994 | 413 | 1994 |
| Hydrological trends and variability in the Liard River basin/Tendances hydrologiques et variabilité dans le basin de la rivière Liard DH Burn, JM Cunderlik, A Pietroniro Hydrological Sciences Journal 49 (1), 53-67, 2004 | 343 | 2004 |
| Trends in evaporation for the Canadian Prairies DH Burn, NM Hesch Journal of Hydrology 336 (1-2), 61-73, 2007 | 340 | 2007 |
| Wavelet analysis of variability in annual Canadian streamflows P Coulibaly, DH Burn Water Resources Research 40 (3), 2004 | 314 | 2004 |
| Climate change effects on the hydrologic regime within the Churchill-Nelson River Basin JR Westmacott, DH Burn Journal of Hydrology 202 (1-4), 263-279, 1997 | 303 | 1997 |
| Non-stationary pooled flood frequency analysis JM Cunderlik, DH Burn Journal of Hydrology 276 (1-4), 210-223, 2003 | 283 | 2003 |
| Assessing the effectiveness of hydrological similarity measures for flood frequency analysis A Castellarin, DH Burn, A Brath Journal of Hydrology 241 (3), 270-285, 2001 | 274 | 2001 |
| Earlier springs decrease peak summer productivity in North American boreal forests W Buermann, PR Bikash, M Jung, DH Burn, M Reichstein Environmental Research Letters 8 (2), 024027, 2013 | 264 | 2013 |
| Artificial neural network ensembles and their application in pooled flood frequency analysis C Shu, DH Burn Water Resources Research 40 (9), 2004 | 257 | 2004 |
| Estimation of hydrological parameters at ungauged catchments DH Burn, DB Boorman Journal of Hydrology 143 (3-4), 429-454, 1993 | 255 | 1993 |
| An appraisal of the “region of influence” approach to flood frequency analysis DH BURN Hydrological Sciences Journal 35 (2), 149-165, 1990 | 245 | 1990 |
| Flood frequency analysis for ungauged sites using a region of influence approach Z Zrinji, DH Burn Journal of hydrology 153 (1-4), 1-21, 1994 | 235 | 1994 |
| Climatic influences on streamflow timing in the headwaters of the Mackenzie River Basin DH Burn Journal of Hydrology 352 (1-2), 225-238, 2008 | 229 | 2008 |
| Climate-driven variability in the occurrence of major floods across North America and Europe GA Hodgkins, PH Whitfield, DH Burn, J Hannaford, B Renard, K Stahl, ... Journal of Hydrology 552, 704-717, 2017 | 227 | 2017 |
