| ACE-AFRICA |
2019 |
Marthews T.R. |
The impact of human-induced climate change on regional drought in the Horn of Africa |
111, 107 |
| AFLAME |
2021 |
Li |
Identifying local-scale meteorological conditions favorable to large fires in Brazil |
|
| DOCILE |
2021 |
Bevacqua |
Larger Spatial Footprint of Wintertime Total Precipitation Extremes in a Warmer Climate |
842, 852, 861, 863 |
| EASHA |
2019 |
Min |
Quantifying Human Impact on the 2018 Summer Longest Heat Wave in South Korea |
787, 788 |
| EASHA |
2018 |
Min |
Anthropogenic contribution to the 2017 earliest summer onset in South Korea
|
499, 711, 712 |
| EUCLEIA |
2018 |
Kay |
Flood event attribution and damage estimation using national‐scale grid‐based modelling: Winter 2013/2014 in Great Britain |
52 |
| FMEC |
2019 |
Linnia R. Hawkins |
Parametric Sensitivity of Vegetation Dynamics in the TRIFFID Model and the Associated Uncertainty in Projected Climate Change Impacts on Western U.S. Forests |
452 |
| FMEC |
2019 |
Sihan Li |
Improving climate model accuracy by exploring parameter space with an O(105) member ensemble and emulator |
533, 406, 384, 345 |
| FMEC |
2016 |
David Rupp and Sihan Li |
Less warming projected during heavy winter precipitation in the Cascades and Sierra Nevada |
178 |
| FMEC |
2016 |
Rupp |
Seasonal spatial patterns of projected anthropogenic warming in complex terrain: a modeling study of the western US |
178, 182 |
| HAPPI |
2019 |
Hugh Baker |
Forced Summer Stationary Waves: The Opposing Effects of Direct Radiative Forcing and Sea Surface Warming |
518, 521, 522, 523, 524, 525 |
| HAPPI |
2019 |
Lo |
Increasing mitigation ambition to meet the Paris Agreement's temperature goal avoids substantial heat-related mortality in U.S. cities |
518, 519, 520, 773, 696 |
| HAPPI |
2018 |
Baker |
Higher CO2 concentrations increase extreme event risk in a 1.5 °C world |
518, 519, 520, 521, 522 |
| HAPPI |
2018 |
Hirsch |
Biogeophysical Impacts of Land‐Use Change on Climate Extremes in Low‐Emission Scenarios: Results From HAPPI‐Land
|
609, 615 |
| HIASA |
2019 |
Fuckar |
On High Precipitation in Mozambique, Zimbabwe and Zambia in February 2018 |
790, 791 |
| HIASA |
2018 |
Otto |
Anthropogenic influence on the drivers of the Western Cape drought 2015–2017 |
523, 518, 519 |
| LOTUS |
2019 |
Chen |
Anthropogenic Warming has Substantially Increased the Likelihood of July 2017–Like Heat Waves over Central Eastern China |
|
| LOTUS |
2018 |
Freychet |
Impacts of Anthropogenic Forcings and El Niño on Chinese Extreme Temperatures
|
499, 505, 506, 507 |
| LOTUS |
2018 |
Sparrow |
Attributing human influence on the July 2017 Chinese heatwave: the influence of sea-surface temperatures |
499, 712, 711 |
| MARIUS |
2018 |
Guillod, B.P. |
A large set of potential past, present and future hydro-meteorological time series for the UK |
366, 377, 378, 394, 395, 398, 399, 400, 401, 402, 403 |
| MARIUS |
2017 |
Guillod, B.P. |
weather@home 2: validation of an improved global–regional climate modelling system |
366 |
| OpenIFSATHOME |
2023 |
Jamie Towner |
OpenIFS@home: Using land surface uncertainties and large ensembles for seasonal heatwave prediction |
|
| OpenIFSATHOME |
2021 |
Sparrow |
OpenIFS@home version 1: a citizen science project for ensemble weather and climate forecasting |
|
| RAPID_CHAAOS |
2018 |
Sparrow |
Finding Ocean States That Are Consistent with Observations from a Perturbed Physics Parameter Ensemble
|
104, 168, 172, 186, 198, 671 |
| RAPID_CHAAOS |
2016 |
Mulholland |
Climate model forecast biases assessed with a perturbed physics ensemble |
170, 197 |
| SCIENCE |
2020 |
Leach |
Anthropogenic influence on the 2018 summer warm spell in Europe: the impact of different spatio-temporal scales. |
800, 801 |
| SCIENCE |
2020 |
Tozer |
A 1-day extreme rainfall event in Tasmania: Process evaluation and long tail attribution |
793, 794 |
| SCIENCE |
2020 |
Undorf |
Learning from the 2018 heatwave in the context of climate change: Are high-temperature extremes important for adaptation in Scotland? |
800, 801 |
| SCIENCE |
2019 |
de Abreu |
Contribution of Anthropogenic Climate Change to April–May 2017 Heavy Precipitation over the Uruguay River Basin |
|
| SCIENCE |
2019 |
Huntingford |
Assessing changes in risk of amplified planetary waves in a warming world. |
164, 165, 294, 215, 276, 347, 371 |
| SCIENCE |
2018 |
Schaller |
Ensemble of European regional climate simulations for the winter of 2013 and 2014 from HadAM3P-RM3P
|
52 |
| SCIENCE |
2016 |
Mitchell |
Assessing mid-latitude dynamics in extreme event attribution systems |
204 |
| SCIENCE |
2016 |
Schaller |
Human influence on climate in the 2014 southern England winter floods and their impacts |
52 |
| SCIENCE |
2016 |
Sippel |
A novel bias correction methodology for climate impact simulations |
48 |
| SCIENCE |
2016 |
Uhe |
Comparison of methods: Attributing the 2014 record European temperatures to human influences |
43, 45, 100, 166 |
| SCIENCE |
2013 |
Otto |
Attribution of changes in precipitation patterns in African rainforests |
34, 35 |
| SCIENCE |
2012 |
Otto |
Reconciling two approaches to attribution of the 2010 Russian heat wave |
34, 35 |
| TNC |
2020 |
Sihan Li |
A pan-South-America assessment of avoided exposure to dangerous extreme precipitation by limiting to 1.5° C warming |
633, 634, 635 |
| UCS |
2016 |
Mitchell |
Attributing human mortality during extreme heat waves to anthropogenic climate change |
164, 165 |
| WWA |
2021 |
Geert Jan Van Oldenborgh |
Attribution of the Australian bushfire risk to anthropogenic climate change |
864, 865 |
| WWA |
2019 |
Philip |
Attributing the 2017 Bangladesh floods from meteorological and hydrological perspectives |
706, 707, 713, 633, 634, 635, 631, 632, 530, 531, 591, 592 |
| WWA |
2017 |
Phillip |
Western US high June 2015 temperatures and their relation to global warming and soil moisture |
404, 405 |
| WWA |
2016 |
Haustein |
Real-time extreme weather event attribution with forecast seasonal SSTs |
48, 52, 100, 113, 114, 115, 121, 122, 123, 124, 135, 136, 137, 138, 139,
|
| WWA |
2016 |
Mote |
Perspectives on the causes of exceptionally low 2015 snowpack in the western United States |
181 |
| WWA |
2016 |
van Oldenborgh |
The Heavy Precipitation Event of December 2015 In Chennai, India |
367, 370, 387 |