Longer and more frequent marine heatwaves over the past century ECJ Oliver, MG Donat, MT Burrows, PJ Moore, DA Smale, LV Alexander, ... Nature communications 9 (1), 1-12, 2018 | 1665 | 2018 |
A hierarchical approach to defining marine heatwaves AJ Hobday, LV Alexander, SE Perkins, DA Smale, SC Straub, ECJ Oliver, ... Progress in oceanography 141, 227-238, 2016 | 1571 | 2016 |
Marine heatwaves threaten global biodiversity and the provision of ecosystem services DA Smale, T Wernberg, ECJ Oliver, M Thomsen, BP Harvey, SC Straub, ... Nature Climate Change 9 (4), 306-312, 2019 | 1325 | 2019 |
On the measurement of heat waves SE Perkins, LV Alexander Journal of climate 26 (13), 4500-4517, 2013 | 1078 | 2013 |
Increasing frequency, intensity and duration of observed global heatwaves and warm spells SE Perkins, LV Alexander, JR Nairn Geophysical Research Letters 39 (20), 2012 | 1076 | 2012 |
Increasing trends in regional heatwaves SE Perkins-Kirkpatrick, SC Lewis Nature communications 11 (1), 3357, 2020 | 995 | 2020 |
Evaluation of the AR4 climate models’ simulated daily maximum temperature, minimum temperature, and precipitation over Australia using probability density functions SE Perkins, AJ Pitman, NJ Holbrook, J McAneney Journal of climate 20 (17), 4356-4376, 2007 | 841 | 2007 |
A review on the scientific understanding of heatwaves—Their measurement, driving mechanisms, and changes at the global scale SE Perkins Atmospheric Research 164, 242-267, 2015 | 670 | 2015 |
The unprecedented 2015/16 Tasman Sea marine heatwave ECJ Oliver, JA Benthuysen, NL Bindoff, AJ Hobday, NJ Holbrook, ... Nature communications 8 (1), 16101, 2017 | 527 | 2017 |
A global assessment of marine heatwaves and their drivers NJ Holbrook, HA Scannell, A Sen Gupta, JA Benthuysen, M Feng, ... Nature communications 10 (1), 2624, 2019 | 510 | 2019 |
Biological responses to the press and pulse of climate trends and extreme events RMB Harris, LJ Beaumont, TR Vance, CR Tozer, TA Remenyi, ... Nature climate change 8 (7), 579-587, 2018 | 492 | 2018 |
Projected marine heatwaves in the 21st century and the potential for ecological impact ECJ Oliver, MT Burrows, MG Donat, A Sen Gupta, LV Alexander, ... Frontiers in Marine Science 6, 734, 2019 | 458 | 2019 |
Which is a better predictor of plant traits: temperature or precipitation? AT Moles, SE Perkins, SW Laffan, H Flores‐Moreno, M Awasthy, ... Journal of vegetation science 25 (5), 1167-1180, 2014 | 438 | 2014 |
Impacts of climate change on the world's most exceptional ecoregions LJ Beaumont, A Pitman, S Perkins, NE Zimmermann, NG Yoccoz, ... Proceedings of the National Academy of Sciences 108 (6), 2306-2311, 2011 | 438 | 2011 |
Potential applications of subseasonal‐to‐seasonal (S2S) predictions CJ White, H Carlsen, AW Robertson, RJT Klein, JK Lazo, A Kumar, ... Meteorological applications 24 (3), 315-325, 2017 | 405 | 2017 |
Changes in regional heatwave characteristics as a function of increasing global temperature SE Perkins-Kirkpatrick, PB Gibson Scientific Reports 7 (1), 12256, 2017 | 368 | 2017 |
More frequent, longer, and hotter heat waves for Australia in the twenty-first century T Cowan, A Purich, S Perkins, A Pezza, G Boschat, K Sadler Journal of Climate 27 (15), 5851-5871, 2014 | 331 | 2014 |
Drivers and impacts of the most extreme marine heatwave events A Sen Gupta, M Thomsen, JA Benthuysen, AJ Hobday, E Oliver, ... Scientific reports 10 (1), 19359, 2020 | 281 | 2020 |
State of the Climate in 2018 J Blunden, DS Arndt Bulletin of the American Meteorological Society 100 (9), Si-S306, 2019 | 235* | 2019 |
The timing of anthropogenic emergence in simulated climate extremes AD King, MG Donat, EM Fischer, E Hawkins, LV Alexander, DJ Karoly, ... Environmental Research Letters 10 (9), 094015, 2015 | 183 | 2015 |