Publications

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Page 11 of 68, showing 100 records out of 6,739 total

  • Sherriff-Tadano Sam; Gandy Niall; Ivanovic Ruza; Gregoire Lauren; Lang Charlotte; Gregory J. M.; Smith Robin; Simulations of North American ice sheet at the LGM with FAMOUS-BISICLES and its sensitivity to global temperatures. [doi:10.5194/egusphere-egu22-3293] Mar 2022
  • Dittus Andrea J.; Hawkins Ed; Collins Matthew; Sexton David M. H.; Climate at various global warming levels: importance of scenario differences. [doi:10.5194/egusphere-egu22-12547] Mar 2022
  • Hawkins Ed; Burt Stephen; McCarthy Mark; Murphy Conor; Ross Catherine; Baldock Mike; Brazier John; Hersee Gill; Huntley Jacqui; Meats Richard; O’Grady John; Scrimgeour Ian; Silk Tim; Millions of historical monthly rainfall observations taken in the UK and Ireland rescued by citizen scientists. Geoscience Data Journal [doi:10.1002/gdj3.157] Mar 2022
  • Zanchettin D.; Timmreck C.; Khodri M.; Schmidt A.; Toohey M.; Abe M.; Bekki S.; Cole J.; Fang S. -W.; Feng W.; Hegerl G.; Johnson B.; Lebas N.; LeGrande A. N.; Mann G. W.; Marshall L.; Rieger L.; Robock A.; Rubinetti S.; Tsigaridis K.; Weierbach H.; Effects of forcing differences and initial conditions on inter-model agreement in the VolMIP volc-pinatubo-full experiment. Geosci. Model Dev., Gmd, 15 (5) , 2265--2292, Mar 2022
  • Hindley Neil P.; Hoffman Lars; Alexander M. Joan; Mitchell Cathryn; Osprey S. M.; Randall Cora; Wright Corwin J.; Yue Jia; The global reach of gravity waves at the stratospheric speed limit from the 2022 Hunga Tonga volcanic eruption. [doi:10.5194/egusphere-egu22-10645] Mar 2022
  • García-Franco Jorge L.; Gray Lesley J.; Osprey S. M.; Chadwick Rob; Martin Zane; Supplementary material to "The tropical route of QBO teleconnections in a climate model". [doi:10.5194/wcd-2022-14-supplement] Mar 2022
  • Preusse Peter; Osprey S. M.; Polichtchouk Inna; Ungermann Jörn; Chipperfield Martyn; Errera Quentin; Friedl-Vallon Felix; Funke Bernd; Godin-Beekmann Sophie; Hoffmann Alex; Malavart Alizee; Raspollini Piera; Sinnhuber Bjoern-Martin; Verronen Pekka T.; Walker Kaley; The CAIRT Earth Explorer 11 mission: A way towards global GW momentum budgets. [doi:10.5194/egusphere-egu22-2446] Mar 2022
  • García-Franco Jorge L.; Gray Lesley J.; Osprey S. M.; Chadwick Rob; Martin Zane; The tropical route of QBO teleconnections in a climate model. Weather And Climate Dynamics [doi:10.5194/wcd-2022-14] Mar 2022
  • Russo Maria R.; Kerridge Brian J.; Abraham NL; Keeble James M.; Latter Barry G.; Siddans Richard; Weber James; Griffiths Paul; Pyle John A.; Archibald A. T.; Seasonal, interannual and decal variability of Tropospheric Ozone in the North Atlantic: Comparison of UM-UKCA and remote sensing observations for 2005–2018. [doi:10.5194/acp-2022-99] Mar 2022
  • Russo Maria R.; Kerridge Brian J.; Abraham NL; Keeble James; Latter Barry G.; Siddans Richard; Weber James; Griffiths Paul; Pyle John A.; Archibald A. T.; Supplementary material to "Seasonal, interannual and decal variability of Tropospheric Ozone in the North Atlantic: Comparison of UM-UKCA and remote sensing observations for 2005–2018". [doi:10.5194/acp-2022-99-supplement] Mar 2022
  • Awal MD Rabiul; Turner A.G.; David Ferreira; The relationship between atmospheric heat transport and monsoonal precipitation variability. [doi:10.5194/egusphere-egu22-7957] Mar 2022
  • Webber Ben; Uppara Umakanth; Joshi Manoj; Turner A.G.; The influence of cold SST anomalies surrounding the Maritime Continent on the El Niño-Indian monsoon teleconnection . [doi:10.5194/egusphere-egu22-13381] Mar 2022
  • Doyle Alex; Stein Thorwald; Turner A.G.; Evaluating characteristics of Indian monsoon convection in high-resolution models with ground-based weather radars. [doi:10.5194/egusphere-egu22-12304] Mar 2022
  • Turner A.G.; Hunt K. M. R.; Phadtare Jayesh; Chattopadhyay Rajib; Das Subrata Kumar; Deshpande Sachin; Fletcher Jennifer K.; Kalshetti Mahesh; Menon Arathy; Ross Andrew; Schiemann R.; Stein Thorwald; Bhowmik Utsav; Orographic rainfall processes in India – results from the IMPROVE project. [doi:10.5194/egusphere-egu22-12069] Mar 2022
  • Monerie Paul‐Arthur; Dittus Andrea J.; Wilcox L. J.; Turner A.G.; Uncertainty in effects of anthropogenic aerosols on Sahel precipitation. [doi:10.5194/egusphere-egu22-1628] Mar 2022
  • Vannière Benoît; Roberts Malcolm; Hodges Kevin; Vidale P. L.; Tropical Cyclones in Future HighResMIP Experiments : Explaining and Reconciling Projections. [doi:10.5194/egusphere-egu22-11988] Mar 2022
  • Martins Palma Perez Gabriel; Vidale P. L.; Dacre Helen; Garcia-Franco Jorge; A global climatology of the kinematical skeletons organising subtropical and tropical convergence zones. [doi:10.5194/egusphere-egu22-12085] Mar 2022
  • Baker Alexander J.; Vidale P. L.; Roberts Malcolm; Hodges Kevin; Seddon Jon; Tourigny Etienne; Lohmann Katja; Roberts Christopher; Terray Laurent; Impact of Atlantic multidecadal variability on North Atlantic tropical cyclones and extratropical transition. [doi:10.5194/egusphere-egu22-2314] Mar 2022
  • Smith Isabel H.; Williams Paul D.; Schiemann R.; Using high-resolution climate models to predict increases in atmospheric turbulence. [doi:10.5194/egusphere-egu22-2905] Mar 2022
  • Klein Cornelia; Parker D. J.; Jackson Lawrence S.; Marsham John H.; Taylor Chris; Rowell David P.; Guichard Françoise; Vischel Théo; Famien Adjoua Moïse; Diedhiou Arona; Combining CMIP data with a convection-permitting model and observations to project extreme rainfall under climate change. [doi:10.5194/egusphere-egu22-5269] Mar 2022
  • Taylor Chris; Klein Cornelia; Dione Cheikh; Parker D. J.; Marsham John; Abdoulahat Diop Cheikh; Fletcher Jennifer K.; Saidou Chaibou Abdoul Aziz; Nafissa Dignon Bertin; Semeena Valiyaveetil Shamsudheen; Cole Steven J; Anderson Seonaid R; Nowcasting Tracks of Severe Convective Storms in West Africa from Observations of Land Surface State. [doi:10.5194/egusphere-egu22-2915] Mar 2022
  • Wang Yu; Voliotis Aristeidis; Hu Dawei; Shao Yunqi; Du Mao; Chen Ying; Kleinheins Judith; Marcolli Claudia; Alfarra M. R.; MCfiggans Gordan; On the evolution of sub- and super-saturated water uptake of secondary organic aerosol in chamber experiments from mixed precursors. Atmospheric Chemistry And Physics, 22 (6) , 4149--4166, [doi:10.5194/acp-22-4149-2022] Mar 2022
  • Weber James; Archer‐Nicholls Scott; Abraham NL; Shin Youngsub Matthew; Griffiths Paul; Grosvenor D. P.; Scott Catherine E.; Archibald A. T.; Climate feedback from vegetation emissions strongly dependent on modelling of atmospheric chemistry.. [doi:10.5194/egusphere-egu22-6446] Mar 2022
  • Griffiths Paul; Keeble James; Hickman Sebastian; Shin Youngsub Matthew; Abraham NL; Pyle John; Archibald A. T.; Studies of the effect of stratospheric ozone depletion on tropospheric oxidising capacity over the period 1979-2010 using the UKCA Chemistry-Climate model. [doi:10.5194/egusphere-egu22-3754] Mar 2022
  • Staniaszek Zosia; Griffiths Paul; Folberth Gerd A.; O'Connor Fiona; Abraham N. Luke; Archibald Alexander T.; The role of future anthropogenic methane emissions in air quality and climate. Npj Climate And Atmospheric Science, 5 (1) , [doi:10.1038/s41612-022-00247-5] Mar 2022
  • Kuhlbrodt T.; Voldoire Aurore; Killick Rachel; Palmer Matthew; The global and regional structure of simulated historical ocean heat content change in CMIP6 models. [doi:10.5194/egusphere-egu22-4148] Mar 2022
  • Archibald A. T.; Collins W.; Evans Mathew J.; Griffiths Paul; O'Connor Fiona; Wild Oliver; Young Paul J.; Ace in the hole or a house of cards: Will a DeCK experiment help atmospheric chemistry?. [doi:10.5194/egusphere-egu22-9442] Mar 2022
  • Hickman Sebastian; Griffiths Paul; Weber James; Archibald A. T.; Can simple machine learning methods predict concentrations of OH betterthan state of the art chemical mechanisms?. [doi:10.5194/egusphere-egu22-6553] Mar 2022
  • Yuan Le; Popoola Olalekan; Hood Christina; Carruthers David; Jones Roderic L.; Sun Haitong Zhe; Liu Huan; Zhang Qiang; Archibald A. T.; Supplementary material to "Improving NOₓ emissions in Beijing using network observations and a novel perturbed emissions ensemble". [doi:10.5194/acp-2022-161-supplement] Mar 2022
  • Yuan Le; Popoola Olalekan; Hood Christina; Carruthers David; Jones Roderic L.; Sun Haitong Zhe; Liu Huan; Zhang Qiang; Archibald A. T.; Improving NOₓ emissions in Beijing using network observations and a novel perturbed emissions ensemble. [doi:10.5194/acp-2022-161] Mar 2022
  • Penn Alexandra S.; Bartington Suzanne E.; Moller S. J.; Hamilton I.; Levine James G.; Hatcher Kirstie; Gilbert Nigel; Adopting a Whole Systems Approach to Transport Decarbonisation, Air Quality and Health: An Online Participatory Systems Mapping Case Study in the UK. Atmosphere, 13 (3) , 492, [doi:10.3390/atmos13030492] Mar 2022
  • Befort Daniel J.; Brunner Lukas; Borchert L. F.; O'Reilly Christopher H.; Weisheimer A.; Temporal merging of decadal predictions and climate projections to obtain seamless information: challenges and potential solutions. [doi:10.5194/egusphere-egu22-9477] Mar 2022
  • O'Reilly Christopher H.; Booth Ben; Brunner Lukas; Qasmi Said; Nogherotto Rita; Ballinger Andrew; Befort Daniel J.; Weisheimer A.; Testing methods to constrain future European climate projections in an “out-of-sample” framework. [doi:10.5194/egusphere-egu22-8104] Mar 2022
  • Hempel Tim; Weisheimer A.; Palmer Tim; The seasonal teleconnections of the Indian Ocean Dipole to the North Atlantic region. [doi:10.5194/egusphere-egu22-7631] Mar 2022
  • Leach Nicholas; Roberts Chris; Palmer Tim; Allen Myles R.; Weisheimer A.; Towards forecast-based attribution of isolated extreme events: perturbed initial condition simulations of the Pacific Northwest heatwave. [doi:10.5194/egusphere-egu22-5949] Mar 2022
  • Patterson Matthew; Weisheimer A.; Befort Daniel J.; O'Reilly Christopher H.; The strong role of external forcing in seasonal forecasts of European summer temperatures. [doi:10.5194/egusphere-egu22-1793] Mar 2022
  • Cartwright Michael P.; Pope Richard J.; Harrison Jeremy J.; Chipperfield Martyn P.; Wilson Chris; Feng W.; Moore David P.; Suntharalingam Parvadha; Modelling atmospheric carbonyl sulfide using gross primary productivity to constrain vegetative uptake. [doi:10.5194/acp-2022-215] Mar 2022
  • Crismani Matteo; Tyo Robert; Schneider Nicholas; Plane John; Feng W.; Villanueva Geronimo; Jain Sonal; Deighan Justin; A Global Perspective on Martian Meteoric Mg+. [doi:10.5194/egusphere-egu22-10708] Mar 2022
  • Walach Maria-Theresia; Grocott Adrian; Orr Lauren; Feng W.; Marsh Daniel; Aruliah Anasuya; Ionosphere and Thermosphere Observations in the Context of Whole Atmosphere Modelling. [doi:10.5194/egusphere-egu22-8322] Mar 2022
  • Pazmino Andrea; Goutail Florence; Pommereau Jean-Pierre; Lefèvre Franck; Godin-Beekmann Sophie; Hauchecorne Alain; Lecouffe Audrey; Chipperfield Martyn; Feng W.; Van Roozendael Michel; Jepsen Nis; Hansen Georg; Kivi Rigel; Alwarda Ramina; Strong Kimberly; Walker Kaley; Total ozone loss during the 2021/22 Arctic winter and comparison to previous years. [doi:10.5194/egusphere-egu22-7991] Mar 2022
  • Zanchettin Davide; Timmreck Claudia; Khodri Myriam; Schmidt Anja; Toohey Matthew; Abe Manabu; Bekki Slimane; Cole Jason N.S.; Fang Shih-Wei; Feng W.; Hegerl Gabriele; Johnson Ben T.; Lebas Nicolas; LeGrande Allegra N.; Mann Graham W.; Marshall Lauren; Rieger Landon; Robock Alan; Rubinetti Sara; Tsigaridis Kostas; Weierbach Helen; Effects of forcing differences and initial conditions on inter-model agreement in the VolMIP volc-pinatubo-full experiment. Geoscientific Model Development, 15 (5) , 2265–2292, [doi:10.5194/gmd-15-2265-2022] Mar 2022
  • Ardra Divakaran; Kuttippurath Jayanarayanan; Roy Raina; Kumar Pankaj; Raj Sarath; Müller Rolf; Feng Wuhu; The Unprecedented Ozone Loss in the Arctic Winter and Spring of 2010/2011 and 2019/2020. Acs Earth And Space Chemistry, Acs Earth Space Chem., 6 (3) , 683--693, Mar 2022
  • Marcheggiani Andrea; Robson J. I.; Monerie Paul-Arthur; Bracegirdle Tom; Smith Doug; Decadal predictability of the North Atlantic eddy-driven jet in winter and summer within CMIP6. [doi:10.5194/egusphere-egu22-9892] Mar 2022
  • Bracegirdle Tom; Lu Hua; Robson J. I.; Equatorward North Atlantic jet biases in CMIP models and implications for simulated regional atmosphere-ocean linkages. [doi:10.5194/egusphere-egu22-6401] Mar 2022
  • Mecking Jenny; Sinha Bablu; Harvey Benjamin J.; Robson J. I.; Bracegirdle Tom; Seasonal differences in the persistence of SST’s Response to the North Atlantic Jet Stream. [doi:10.5194/egusphere-egu22-5829] Mar 2022
  • Petit Tillys; Robson J. I.; David Ferreira; Formation of dense water over the North Atlantic subpolar gyre in a hierarchy of climate models. [doi:10.5194/egusphere-egu22-3068] Mar 2022
  • Jackson Laura C.; Biastoch Arne; Buckley Martha W.; Desbruyères Damien G.; Frajka-Williams Eleanor; Moat Ben; Robson J. I.; The evolution of the North Atlantic Meridional Overturning Circulation since 1980. Nature Reviews Earth {\&}Amp$\Mathsemicolon$ Environment, 3 (4) , 241--254, [doi:10.1038/s43017-022-00263-2] Mar 2022
  • Volonté A.; Methven John; Gray Suzanne; Harvey Benjamin J.; Martínez-Alvarado Oscar; Boundary layer dependence of atmosphere-ocean coupling in operational weather forecast models over the marginal ice zone. [doi:10.5194/egusphere-egu22-5316] Mar 2022
  • Suitters Charlie; Martínez-Alvarado Oscar; Hodges Kevin; Schiemann R.; Ackerley Duncan; Atmospheric blocking and the contribution of transient waves to its onset, decay and maintenance . [doi:10.5194/egusphere-egu22-12203] Mar 2022
  • Racoma Bernard Alan; Holloway Christopher; Schiemann R.; Feng Xiangbo; Bagtasa Gerry; The Effect of Topography on Tropical Cyclone Precipitation in the Philippines. [doi:10.5194/egusphere-egu22-9043] Mar 2022
  • Ren Qiaoling; Schiemann R.; Hodges Kevin I.; Jiang Xingwen; Yang Song; Behaviors of synoptic eddies around the Tibetan Plateau. [doi:10.5194/egusphere-egu22-3980] Mar 2022
  • Sainsbury Elliott M.; Schiemann R.; Hodges Kevin; Baker Alexander J.; Shaffrey Len C.; Bhatia Kieran; Why do some Recurving Tropical Cyclones Impact Europe as Post-Tropical Cyclones?. [doi:10.5194/egusphere-egu22-2456] Mar 2022
  • Samset Bjørn H.; Persad Geeta; Wilcox L. J.; Rapidly evolving anthropogenic aerosol emissions induce strong and regionally heterogeneous climate impacts on the way to a net-zero world. [doi:10.5194/egusphere-egu22-6910] Mar 2022
  • Wilcox L. J.; Allen Robert; Bauer Susanne E.; Bollasina Massimo; Ekman Annica; Keeble James; Lewinschal Anna; Lund M. T.; Merikanto Joonas; O'Donnell Declan; Paynter David; Persad Geeta; Rumbold Steven; Samset Bjørn; Takemura Toshihiko; Tsigaridis Kostas; Undorf Sabine; Westervelt Daniel; Regional Aerosol Model Intercomparison Project. [doi:10.5194/egusphere-egu22-5540] Mar 2022
  • Hardacre Catherine; Mulcahy Jane; Jones Anthony C.; Jones C.; Nitrate aerosol chemistry in UKESM1.1: impacts on composition and climate . [doi:10.5194/egusphere-egu22-7666] Mar 2022
  • Woolley Maisch Ceres A.; Fisher Rebecca E.; France James L.; Lowry David; Forster Grant L.; Lanoiselle Mathias; Nisbet Euan G.; Determining UK regional isotopic source signatures of methane using long-term records. [doi:10.5194/egusphere-egu22-10056] Mar 2022
  • Bousiotis Dimitrios; Beddows David; Singh Ajit; Haugen Molly; Diez Sebastián; Edwards P.; Boies Adam; Harrison Roy M.; Pope Francis; A study on the performance of low-cost sensors for source apportionment at an urban background site. [doi:10.5194/amt-2022-84] Mar 2022
  • Zeng Xiping; Heymsfield Andrew J.; Ulanowski Zbigniew; Neely III Ryan R.; Li Xiaowen; Gong Jie; Wu Dong L.; The Radiative Effect on Cloud Microphysics from the Arctic to the Tropics. Bulletin Of The American Meteorological Society [doi:10.1175/bams-d-21-0039.1] Mar 2022
  • Guy Heather; Turner David D.; Walden Von; Brooks Ian; Neely Ryan R.; Passive ground-based remote sensing of radiation fog. [doi:10.5194/amt-2022-12] Mar 2022
  • Addison Freya I.; Dally Thomas; Duncan Elizabeth J.; Rouse James; Evans William L.; Hassall Christopher; Neely Ryan R.; Simulation of the Radar Cross Section of a Noctuid Moth. Remote Sensing, 14 (6) , 1494, [doi:10.3390/rs14061494] Mar 2022
  • Verhoef Anne; Zeng Yijian; Cuntz Matthias; Gudmundsson Lukas; Thober Stephan; McGuire P. C.; Bergner Hannah; Boone Aaron; Ducharne Agnes; Ellis Rich; Kim Hyungjun; Koirala Sujan; Lawrence David; Oleson Keith; Swenson Sean; Tafasca Salma; de Vrese Philipp; Seneviratne Sonia; Or Dani; Vereecken Harry; Assessing the variability of soil temperatures in Land Surface Models using outputs from the Soil Parameter Model Intercomparison Project (SP-MIP). [doi:10.5194/egusphere-egu22-4349] Mar 2022
  • Badjana Heou Maleki; Verhoef Anne; Cloke Hannah; Julich Stefan; McGuire P. C.; Camargos Carla; Clark Joanna; Modelling the natural flood management in medium scale lowland catchments in Thames Basin (UK). [doi:10.5194/egusphere-egu22-12430] Mar 2022
  • Sochat Vanessa; May Nicholas; Cosden Ian; Martinez-Ortiz Carlos; Bartholomew Sadie; The Research Software Encyclopedia: A Community Framework to Define Research Software. Journal Of Open Research Software, 10 (1) , 2, [doi:10.5334/jors.359] Mar 2022
  • Maharana P.; Kumar D.; Rai P.; Tiwari P.R.; Dimri A.P.; Simulation of Northeast Monsoon in a coupled regional model framework. Atmospheric Research, 266, 105960, [doi:10.1016/j.atmosres.2021.105960] Mar 2022
  • Wilder Thomas; Zhai Xiaoming; Joshi Manoj; Munday David; The Response of a Baroclinic Anticyclonic Mesoscale Eddy to Relative Wind Stress Forcing. [doi:10.5194/egusphere-egu22-1161] Mar 2022
  • Rinne Janne; Łakomiec Patryk; Vestin Patrik; White Joel D.; Weslien Per; Kelly Julia; Kljun Natascha; Ström Lena; Klemedtsson Leif; Supplementary material to "Spatial and temporal variation of <sup>13</sup>C signature of methane emitted from a temperate mire: Methanogenesis, methanotrophy, and hysteresis". [doi:10.5194/bg-2022-76-supplement] Mar 2022
  • Rinne Janne; Łakomiec Patryk; Vestin Patrik; White Joel D.; Weslien Per; Kelly Julia; Kljun Natascha; Ström Lena; Klemedtsson Leif; Spatial and temporal variation of <sup>13</sup>C signature of methane emitted from a temperate mire: Methanogenesis, methanotrophy, and hysteresis. [doi:10.5194/bg-2022-76] Mar 2022
  • Nguyen Linh N. T.; Meijer Harro A. J.; van Leeuwen Charlotte; Kers Bert A. M.; Scheeren Hubertus A.; Jones Anna; Brough Neil; Barningham Thomas; Pickers Penelope; Manning Andrew C.; Luijkx Ingrid T.; Two decades of flask observations of atmospheric δ(O2∕N2), CO2, and APO at stations Lutjewad (the Netherlands) and Mace Head (Ireland), and 3 years from Halley station (Antarctica). Earth System Science Data, 14 (2) , 991–1014, [doi:10.5194/essd-14-991-2022] Mar 2022
  • Dulac William; Cattiaux Julien; Chauvin Fabrice; Bourdin Stella; Fromang Sébastien; How Realistic are Tropical Cyclones in the ERA5 Reanalysis?. [doi:10.5194/egusphere-egu22-5755] Mar 2022
  • Bourdin Stella; Fromang Sébastien; Dulac William; Cattiaux Julien; Chauvin Fabrice; Tracking tropical cyclones in reanalysis and simulations: guidelines from an intercomparison of four algorithms. [doi:10.5194/egusphere-egu22-1806] Mar 2022
  • Kageyama Masa; Blard Pierre-Henri; Bourdin Stella; Charreau Julien; Kluft Lukas; Leduc Guillaume; Legrain Etienne; Last Glacial Maximum atmospheric lapse rates: a model-data study on the American Cordillera case. [doi:10.5194/egusphere-egu22-11955] Mar 2022
  • Carslaw Nicola; Shaw David; Modification of cleaning product formulations could improve indoor air quality. Indoor Air, 32 (3) , [doi:10.1111/ina.13021] Mar 2022
  • GRAY L. J.; Lu Hua; Brown Matthew; Knight Jeff R.; Andrews Martin B.; Mechanisms of influence of the Semi-Annual Oscillation on stratospheric sudden warmings. Quarterly Journal Of The Royal Meteorological Society, 148 (744) , 1223--1241, [doi:10.1002/qj.4256] Mar 2022
  • Keeble James; Griffiths Paul; Role of Stratosphere-Troposphere Exchange of Ozone in the Earth System. [doi:10.5194/egusphere-egu22-12426] Mar 2022
  • Parker Douglas J.; Blyth Alan M.; Woolnough Steven J.; Dougill Andrew J.; Bain Caroline L.; de Coning Estelle; Diop-Kane Mariane; Kamga Foamouhoue Andre; Lamptey Benjamin; Ndiaye Ousmane; Ruti Paolo; Adefisan Elijah A.; Amekudzi Leonard K.; Antwi-Agyei Philip; Birch Cathryn E.; Cafaro Carlo; Carr Hamish; Chanzu Benard; Clarke Samantha J.; Coskeran Helen; Danuor Sylvester K.; de Andrade Felipe M.; Diakaria Kone; Dione Cheikh; Diop Cheikh Abdoulahat; Fletcher Jennifer K.; Gaye Amadou T.; Groves James L.; Gudoshava Masilin; Hartley Andrew J.; Hirons Linda C.; Ibrahim Ishiyaku; James Tamora D.; Lawal Kamoru A.; Marsham John H.; Mutemi J. N.; Okogbue Emmanuel Chilekwu; Olaniyan Eniola; Omotosho J. B.; Portuphy Joseph; Roberts Alexander J.; Schwendike Juliane; Segele Zewdu T.; Stein Thorwald H. M.; Taylor Andrea L.; Taylor Christopher M.; Warnaars Tanya A.; Webster Stuart; Woodhams Beth J.; Youds Lorraine; The African SWIFT Project: Growing Science Capability to Bring about a Revolution in Weather Prediction. Bulletin Of The American Meteorological Society, 103 (2) , E349--E369, [doi:10.1175/bams-d-20-0047.1] Feb 2022
  • Cui Zhiqiang; Blyth Alan; Huang Yahui; Lloyd Gary; Choularton Thomas; Bower Keith; Field Paul; Hawker Rachel; Bennett Lindsay; Multi-thermals and high concentrations of secondary ice: a modelling study of convective clouds during the Ice in Clouds Experiment – Dust (ICE-D) campaign. Atmospheric Chemistry And Physics, 22 (3) , 1649--1667, [doi:10.5194/acp-22-1649-2022] Feb 2022
  • Hodson D. L. R.; Bretonnière Pierre-Antoine; Cassou Christophe; Davini Paolo; Klingaman Nicholas P.; Lohmann Katja; Lopez-Parages Jorge; Martín-Rey Marta; Moine Marie-Pierre; Monerie Paul-Arthur; Putrasahan Dian A.; Roberts Christopher D.; Robson Jon; Ruprich-Robert Yohan; Sanchez-Gomez Emilia; Seddon Jon; Senan Retish; Coupled climate response to Atlantic Multidecadal Variability in a multi-model multi-resolution ensemble. Climate Dynamics, 59 (3–4) , 805–836, [doi:10.1007/s00382-022-06157-9] Feb 2022
  • Mir Zara S.; Jamieson Matthew; Greenall Nicholas R.; Seakins Paul W.; Blitz Mark A.; Stone Daniel; Identification, monitoring, and reaction kinetics of reactive trace species using time-resolved mid-infrared quantum cascade laser absorption spectroscopy: Development, characterisation, and initial results for the Criegee intermediate CH₂OO. Atmospheric Measurement Techniques - Discussions [doi:10.5194/amt-2021-421] Feb 2022
  • Freychet Nicolas; Tett Simon F. B.; Tian Fangxing; Li Sihan; Dong Buwen; Sparrow Sarah; Physical processes of summer extreme rainfall interannual variability in Eastern China—part II: evaluation of CMIP6 models. Climate Dynamics, 59 (1-2) , 455--469, [doi:10.1007/s00382-022-06137-z] Feb 2022
  • Andrews Timothy; Gregory J. M.; Dong Yue; Armour Kyle C.; Paynter David; Lin P.; Modak Angshuman; Mauritsen Thorsten; Cole Jason; Medeiros Brian; Benedict James; Douville Hervé; Roehrig Romain; Koshiro Tsuyoshi; Kawai H.; Ogura Tomoo; Dufresne Jean‐Louis; Bodas‐Salcedo Alejandro; Allan R. P.; Liu Chunlei; On the effect of historical SST patterns on radiative feedback. [doi:10.1002/essoar.10510623.2] Feb 2022
  • Andrews Timothy; Gregory J. M.; Dong Yue; Armour Kyle C.; Paynter David; Lin P.; Modak Angshuman; Mauritsen Thorsten; Cole Jason; Medeiros Brian; Benedict James; Douville Hervé; Roehrig Romain; Koshiro Tsuyoshi; Kawai H.; Ogura Tomoo; Dufresne Jean‐Louis; Bodas‐Salcedo Alejandro; Allan R. P.; Liu Chunlei; On the effect of historical SST patterns on radiative feedback. [doi:10.1002/essoar.10510623.1] Feb 2022
  • Taylor Chris; Klein Cornelia; Dione Cheikh; Parker D. J.; Marsham John; Abdoulahat Diop Cheikh; Fletcher Jennifer K.; Saidou Chaibou Abdoul Aziz; Nafissa Dignon Bertin; Semeena Valiyaveetil Shamsudheen; Cole Steven J; Anderson Seonaid R; Nowcasting tracks of severe convective storms in West Africa from observations of land surface state. Environmental Research Letters, 17 (3) , 034016, [doi:10.1088/1748-9326/ac536d] Feb 2022
  • Pimlott Matilda A.; Pope Richard J.; Kerridge Brian J.; Latter Barry G.; Knappett Diane S.; Heard Dwayne E.; Ventress Lucy J.; Siddans Richard; Feng W.; Chipperfield Martyn P.; Supplementary material to "Investigating the Global OH Radical Distribution Using Steady-State Approximations and Satellite Data". [doi:10.5194/acp-2022-79-supplement] Feb 2022
  • Pimlott Matilda A.; Pope Richard J.; Kerridge Brian J.; Latter Barry G.; Knappett Diane S.; Heard Dwayne E.; Ventress Lucy J.; Siddans Richard; Feng W.; Chipperfield Martyn P.; Investigating the Global OH Radical Distribution Using Steady-State Approximations and Satellite Data. [doi:10.5194/acp-2022-79] Feb 2022
  • Bresson H.; Hodges K. I.; Shaffrey Len C.; Zappa G.; Schiemann R.; The Response of Northern Hemisphere Polar Lows to Climate Change in a 25~km High-Resolution Global Climate Model. Journal Of Geophysical Research: Atmospheres, 127 (4) , [doi:10.1029/2021jd035610] Feb 2022
  • Zhao Alcide; Ryder Claire; Wilcox L. J.; How well do the CMIP6 models simulate dust aerosols?. Atmospheric Chemistry And Physics, 22 (3) , 2095--2119, [doi:10.5194/acp-22-2095-2022] Feb 2022
  • Courtier Benjamin M.; Battaglia Alessandro; Huggard Peter G.; Westbrook Chris; Mroz Kamil; Dhillon Ranvir S.; Walden Christopher J.; Howells Gareth; Wang Hui; Ellison Brian N.; Reeves Richard; Robertson Duncan A.; Wylde Richard J.; First observations of G-band radar Doppler spectra. Geophysical Research Letters [doi:10.1029/2021gl096475] Feb 2022
  • Xu Jingsha; Harrison Roy M.; Song Congbo; Hou Siqi; Wei Lianfang; Fu Pingqing; Li Hong; Li Weijun; Shi Zongbo; PM2.5-bound silicon-containing secondary organic aerosols (Si-SOA) in Beijing ambient air. Chemosphere, 288, 132377, [doi:10.1016/j.chemosphere.2021.132377] Feb 2022
  • Faranda Davide; Bourdin Stella; Ginesta Mireia; Krouma Meriem; Messori Gabriele; Noyelle Robin; Pons Flavio; Yiou Pascal; A climate-change attribution retrospective of some impactful weather extremes of 2021. [doi:10.5194/wcd-2022-9] Feb 2022
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  • Burton Ralph; Blyth A. M.; Lamptey B. L.; Fletcher J. K.; Marsham J.H.; Parker D. J.; Roberts A.; Cui Z.; Groves James; Satellite-based nowcasting of West African mesoscale storms has skill at up to four hours lead time. Weather And Forecasting [doi:10.1175/waf-d-21-0051.1] 2022
  • Lewis Alastair C.; Allan James; Carslaw David; Carruthers David; Fuller Gary; Harrison Roy; Heal Mathew; Nemitz Eiko; Reeves Claire; Carslaw Nicola; Dengel Andy; Dimitroulopoulou Sani; Gupta Rajat; Fisher Matthew; Fowler David; Loh Miranda; Moller Sarah; Maggs Richard; Murrells Tim; Quincey Paul; Willis Paul; Indoor Air Quality, https://zenodo.org/record/6523605, [doi:10.5281/zenodo.6523605] 2022
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