Publications

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Page 10 of 67, showing 100 records out of 6,687 total

  • Deoras A.; Turner A.G.; Hunt K. M. R.; The structure of strong Indian monsoon low‐pressure systems in subseasonal‐to‐seasonal prediction models. Quarterly Journal Of The Royal Meteorological Society, 148 (746) , 2147–2166, [doi:10.1002/qj.4296] Jun 2022
  • Feng Xiangbo; Hodges Kevin I.; Hoang Lam; Pura Alvin G.; Yang G. -Y.; Luu Huyen; David Shirley J.; Duran Ger Anne M. W.; Guo Yi-Peng; A New Approach to Skillful Seasonal Prediction of Southeast Asia Tropical Cyclone Occurrence. Journal Of Geophysical Research: Atmospheres, 127 (12) , [doi:10.1029/2022jd036439] Jun 2022
  • Zhang Jiankai; Tian Wenshou; Pyle John A.; Keeble James; Abraham Nathan Luke; Chipperfield Martyn P.; Xie Fei; Yang Qinghua; Mu Longjiang; Ren Hong-Li; Wang Lin; Xu Mian; Responses of Arctic sea ice to stratospheric ozone depletion. Science Bulletin, 67 (11) , 1182--1190, [doi:10.1016/j.scib.2022.03.015] Jun 2022
  • Fung Fai; Goddard Christopher; McSweeney Carol; Crocker Tom; Matte Dominic; Ballinger Andrew; Hegerl Gabi; O'Reilly Christopher H.; Weisheimer A.; van der Wiel Karin; Wilcke Renate; Building storylines for applications: what have we learned in the EUCP project?. [doi:10.5194/ems2022-444] Jun 2022
  • Suitters Charlie; Martínez-Alvarado Oscar; Hodges Kevin; Schiemann R.; Ackerley Duncan; The Importance of Anticyclonic Transient Eddies for Atmospheric Block Persistence. [doi:10.5194/ems2022-272] Jun 2022
  • Weng Xiang; Forster Grant L.; Nowack Peer; A machine learning approach to quantify meteorological drivers of ozone pollution in China from 2015 to 2019. Atmospheric Chemistry And Physics, 22 (12) , 8385--8402, [doi:10.5194/acp-22-8385-2022] Jun 2022
  • Mattu Kanzis L.; Bloomfield Hannah C.; Thomas Simon; Martínez-Alvarado Oscar; Rodríguez-Hernández Osvaldo; The impact of tropical cyclones on potential offshore wind farms. Energy For Sustainable Development, 68, 29--39, [doi:10.1016/j.esd.2022.02.005] Jun 2022
  • Baker Alexander J.; Global decline in frequency. Nature Climate Change, 12 (7) , 615--617, [doi:10.1038/s41558-022-01414-5] Jun 2022
  • Sainsbury Elliott M.; Schiemann Reinhard K. H.; Hodges Kevin I.; Baker Alexander J.; Shaffrey Len C.; Bhatia Kieran T.; What Governs the Interannual Variability of Recurving North Atlantic Tropical Cyclones?. Journal Of Climate, 35 (12) , 3627--3641, [doi:10.1175/jcli-d-21-0712.1] Jun 2022
  • Miller James; Taylor Chris; Guichard Françoise; Peyrillé Phillippe; Vischel Théo; Fowe Tazen; Panthou Geremey; Visman Emma; Bologo Maimouna; Traore Karim; Coulibaly Gnenakantanhan; Chapelon Nicolas; Beucher Florent; Rowell David P.; Parker Douglas J.; High-impact weather and urban flooding in the West African Sahel – A multidisciplinary case study of the 2009 event in Ouagadougou. Weather And Climate Extremes, 36, 100462, [doi:10.1016/j.wace.2022.100462] Jun 2022
  • Wright Madeleine L.; Lewis Alastair C.; Emissions of NOx from blending of hydrogen and natural gas in space heating boilers. Elementa: Science Of The Anthropocene, 10 (1) , 15, [doi:10.1525/elementa.2021.00114] May 2022
  • Volonté A.; Turner A.G.; Schiemann R.; Vidale P. L.; Klingaman N. P.; Characterising the interaction of tropical and extratropical air masses controlling East Asian summer monsoon progression using a novel frontal detection approach. Weather And Climate Dynamics, 3 (2) , 575–599, [doi:10.5194/wcd-3-575-2022] May 2022
  • Mayhew Alfred W.; Lee Ben H.; Thornton Joel A.; Bannan Thomas J.; Brean James; Hopkins J. R.; Lee J. D.; Nelson Beth S.; Percival Carl; Rickard Andrew R.; Shaw Marvin D.; Edwards P.; Hamilton Jacqueline F.; Supplementary material to "Evaluation of Isoprene Nitrate Chemistry in Detailed Chemical Mechanisms". [doi:10.5194/acp-2022-333-supplement] May 2022
  • Mayhew Alfred W.; Lee Ben H.; Thornton Joel A.; Bannan Thomas J.; Brean James; Hopkins J. R.; Lee J. D.; Nelson Beth S.; Percival Carl; Rickard Andrew R.; Shaw Marvin D.; Edwards P.; Hamilton Jacqueline F.; Evaluation of Isoprene Nitrate Chemistry in Detailed Chemical Mechanisms. [doi:10.5194/acp-2022-333] May 2022
  • Tsiligiannis Epameinondas; Wu Rongrong; Lee B.H.; Salvador Christian Mark; Priestley Michael; Carlsson Philip T. M.; Kang Sungah; Novelli Anna; Vereecken Luc; Fuchs H.; Mayhew Alfred W.; Hamilton Jacqueline F.; Edwards P.; Fry Juliane L.; Brownwood Bellamy; Brown S.S.; Wild Robert J.; Bannan Thomas J.; Coe Hugh; Allan James Donald; Surratt Jason D.; Bacak Asan; Artaxo Paulo E.; Percival Carl; Guo Song; Hu Min; Wang Tao; Mentel Thomas F.; Thornton J.A.; Hallquist Mattias; A Four Carbon Organonitrate as a Significant Product of Secondary Isoprene Chemistry. Geophysical Research Letters, 49 (11) , [doi:10.1029/2021gl097366] May 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 CH₂OO Criegee intermediate. Atmospheric Measurement Techniques, 15 (9) , 2875--2887, [doi:10.5194/amt-15-2875-2022] May 2022
  • Newland Mike J.; Mouchel-Vallon Camille; Valorso Richard; Aumont Bernard; Vereecken Luc; Jenkin Michael; Rickard Andrew R.; Estimation of mechanistic parameters in the gas-phase reactions of ozone with alkenes for use in automated mechanism construction. Atmospheric Chemistry And Physics, 22 (9) , 6167--6195, [doi:10.5194/acp-22-6167-2022] May 2022
  • García-Franco Jorge L.; Chadwick R.; GRAY L. J.; Osprey S. M.; Adams D. K.; Revisiting mechanisms of the Mesoamerican Midsummer drought. Climate Dynamics [doi:10.1007/s00382-022-06338-6] May 2022
  • Ayesiga Godwin; Holloway Christopher E.; Williams Charles J. R.; Yang G. -Y.; Stratton Rachel; Roberts Malcolm; Linking Equatorial African Precipitation to Kelvin Wave Processes in the CP4-Africa Convection-Permitting Regional Climate Simulation. Journal Of The Atmospheric Sciences, 79 (5) , 1271–1289, [doi:10.1175/jas-d-21-0039.1] May 2022
  • Lukach Maryna; Dally Thomas; Evans William; Hassall Christopher; Duncan Elizabeth J.; Bennett Lindsay; Lumb Freya; Kunin William E.; Chapman Jason W.; Neely Ryan R.; (ed: Sankey Temuulen; Broeke Matthew Van Den; ) The development of an unsupervised hierarchical clustering analysis of dual-polarization weather surveillance radar observations to assess nocturnal insect abundance and diversity. Remote Sensing In Ecology And Conservation, 8 (5) , 698--716, [doi:10.1002/rse2.270] May 2022
  • Brean James; Beddows David C. S.; Harrison Roy M.; Song Congbo; Tunved Peter; Strom Johan; Krejci Radovan; Freud Eyal; Massling Andreas; Mahmood R.; Asmi Eija; Lupi Angelo; Dall'Osto Manuel; Collective geographical eco-regions and precursor sources driving Arctic new particle formation. [doi:10.5194/acp-2022-280] May 2022
  • Coney Jonathan; Pickering Ben; Dufton David; Lukach Maryna; Brooks Barbara; Neely Ryan R.; How useful are crowdsourced air temperature observations? An assessment of Netatmo stations and quality control schemes over the United Kingdom. Meteorological Applications, 29 (3) , [doi:10.1002/met.2075] May 2022
  • Weisheimer A.; Balmaseda Magdalena A.; Stockdale T. N.; Mayer Michael; Sharmila S.; Hendon Harry; Alves Oscar; Variability of ENSO Forecast Skill in 2-Year Global Reforecasts Over the 20th Century. Geophysical Research Letters, 49 (10) , [doi:10.1029/2022gl097885] May 2022
  • Yu Bingkun; Xue X.; Scott Christopher J.; Jia Mingjiao; Feng W.; Plane John; Marsh Daniel R.; Hedin Jonas; Gumbel Jörg; Dou Xiankang; Comparison of middle- and low-latitude sodium layer from a ground-based lidar network, the Odin satellite, and WACCM-Na model. [doi:10.5194/egusphere-2022-187] May 2022
  • Cuckow Sophie; Dacre Helen F.; Martínez-Alvarado Oscar; Moisture transport contributing to precipitation at the centre of storm Bronagh. Weather, 77 (6) , 196--201, [doi:10.1002/wea.4212] May 2022
  • Bulgin Claire E.; Embury Owen; Maidment Ross I.; Merchant Christopher J.; Bayesian Cloud Detection over Land for Climate Data Records. Remote Sensing, 14 (9) , 2231, [doi:10.3390/rs14092231] May 2022
  • Bulgin Claire E.; Embury Owen; Maidment Ross I.; Merchant Christopher J.; Bayesian Cloud Detection over Land for Climate Data Records. Remote Sensing, 14 (9) , 2231, [doi:10.3390/rs14092231] May 2022
  • Bulgin Claire E.; Embury Owen; Maidment Ross I.; Merchant Christopher J.; Bayesian Cloud Detection over Land for Climate Data Records. Remote Sensing, 14 (9) , 2231, [doi:10.3390/rs14092231] May 2022
  • Bhatia Kieran; Baker Alexander J.; Yang Wenchang; Vecchi Gabriel; Knutson Thomas; Murakami Hiroyuki; Kossin James; Hodges Kevin; Dixon Keith; Whitlock Carolyn; Bronselaer Benjamin; Tropical Cyclone Rapid Intensification: An Explanation for the Global Increase. [doi:10.21203/rs.3.rs-1617224/v1] May 2022
  • Cohen M.; Bollasina Massimo A.; Palmer Paul; Sergeev Denis E.; Boutle Ian A.; Mayne Nathan; Manners James; Longitudinally Asymmetric Stratospheric Oscillation on a Tidally Locked Exoplanet. The Astrophysical Journal, 930 (2) , 152, [doi:10.3847/1538-4357/ac625d] May 2022
  • Vessey Alexander F.; Hodges Kevin I.; Shaffrey Len C.; Day Jonathan J.; The composite development and structure of intense synoptic-scale Arctic cyclones. [doi:10.5194/egusphere-2022-351] May 2022
  • Weber James; Archer-Nicholls Scott; Abraham Luke; Shin Youngsub Matthew; Griffiths Paul; Grosvenor Daniel; Scott Catherine; Archibald Alexander; Chemistry-driven changes strongly influence climate forcing from vegetation emissions. [doi:10.21203/rs.3.rs-1646168/v1] May 2022
  • Dimdore‐Miles Oscar B.; Gray Lesley; Osprey S. M.; Robson J. I.; Sutton R.T.; Sinha Bablu; Interactions between the stratospheric polar vortex and Atlantic circulation on seasonal to multi-decadal timescales. Atmospheric Chemistry And Physics, 22 (7) , 4867--4893, [doi:10.5194/acp-22-4867-2022] Apr 2022
  • Yu Chenjie; Liu Dantong; Hu Kang; Tian Ping; Wu Yangzhou; Zhao Delong; Wu Huihui; Hu Dawei; Guo Wenbo; Li Qiang; Huang Mengyu; Ding Deping; Allan James Donald; Aerodynamic size-resolved composition and cloud condensation nuclei properties of aerosols in a Beijing suburban region. Atmospheric Chemistry And Physics, 22 (7) , 4375--4391, [doi:10.5194/acp-22-4375-2022] Apr 2022
  • Foulds Amy; Allen Grant; Shaw Jacob T.; Bateson Prudence; Barker Patrick A.; Huang Langwen; Pitt Joseph; Lee J. D.; Wilde Shona E.; Dominutti Pamela A.; Purvis R. M.; Lowry David; France James L.; Fisher Rebecca E.; Fiehn Alina; Pühl Magdalena; Bauguitte Stéphane J. B.; Conley Stephen A.; Smith Mackenzie L.; Lachlan-Cope Tom; Pisso Ignacio; Schwietzke Stefan; Quantification and assessment of methane emissions from offshore oil and gas facilities on the Norwegian continental shelf. Atmospheric Chemistry And Physics, 22 (7) , 4303--4322, [doi:10.5194/acp-22-4303-2022] Apr 2022
  • Woodward-Massey Robert; Sommariva Roberto; Whalley Lisa K.; Cryer Danny R.; Ingham Trevor; Bloss William J.; Ball Stephen M.; Lee J. D.; Reed Chris; Crilley Leigh; Kramer Louisa J.; Bandy Brian J.; Forster Grant L.; Reeves Claire E.; Monks Paul S.; Heard Dwayne E.; Radical chemistry at a UK coastal receptor site – Part 2: experimental radical budgets and ozone production. [doi:10.5194/acp-2022-213] Apr 2022
  • Salvi Pietro; Ceppi Paulo; Gregory J. M.; Interpreting Differences in Radiative Feedbacks From Aerosols Versus Greenhouse Gases. Geophysical Research Letters, 49 (8) , [doi:10.1029/2022gl097766] Apr 2022
  • Joshi Manoj; Hall Robert; Stevens David; Hawkins Ed; The modelled climatic response to the 18.6-year lunar nodal cycle and its role in decadal temperature trends. [doi:10.5194/egusphere-2022-151] Apr 2022
  • Serva F; Anstey J. A.; Bushell A. C.; Butchart N.; Cagnazzo C.; GRAY L. J.; Kawatani Y.; Osprey S. M.; Richter J; Simpson I. R.; The impact of the QBO on the region of the tropical tropopause in QBOi models: present-day simulations. Quarterly Journal Of The Royal Meteorological Society [doi:10.1002/qj.4287] Apr 2022
  • Hunt K. M. R.; Turner A.G.; Schiemann Reinhard K. H.; Katabatic and convective processes drive two preferred peaks in the precipitation diurnal cycle over the Central Himalaya. Quarterly Journal Of The Royal Meteorological Society, 148 (745) , 1731–1751, [doi:10.1002/qj.4275] Apr 2022
  • Gudoshava Masilin; Wainwright Caroline; Hirons Linda; Endris Hussen S.; Segele Zewdu T.; Woolnough Steven; Atheru Zachary; Artan Guleid; Atmospheric and oceanic conditions associated with early and late onset for Eastern Africa short rains. International Journal Of Climatology, 42 (12) , 6562--6578, [doi:10.1002/joc.7627] Apr 2022
  • Warwick L.; Brindley H.; Di Roma A.; Fox Stuart; Havemann S.; Murray J.; Oetjen H.; Price Hannah C; Schüttemeyer D.; Sgheri L.; Tiddeman D. A.; Retrieval of Tropospheric Water Vapor From Airborne Far-Infrared Measurements: A Case Study. Journal Of Geophysical Research: Atmospheres, 127 (7) , [doi:10.1029/2020jd034229] Apr 2022
  • Li Yajuan; Dhomse Sandip S.; Chipperfield Martyn P.; Feng W.; Chrysanthou Andreas; Xia Yuan; Guo Dong; Supplementary material to "Effects of Reanalysis Forcing Fields on Ozone Trends from a Chemical Transport Model". [doi:10.5194/acp-2022-182-supplement] Apr 2022
  • Li Yajuan; Dhomse Sandip S.; Chipperfield Martyn P.; Feng W.; Chrysanthou Andreas; Xia Yuan; Guo Dong; Effects of Reanalysis Forcing Fields on Ozone Trends from a Chemical Transport Model. [doi:10.5194/acp-2022-182] Apr 2022
  • Dyer Ellen; Hirons Linda; Taye Meron Teferi; July–September rainfall in the Greater Horn of Africa: the combined influence of the Mascarene and South Atlantic highs. Climate Dynamics, 59 (11–12) , 3621–3641, [doi:10.1007/s00382-022-06287-0] Apr 2022
  • Pickers Penelope A.; Manning Andrew C.; Le Quéré Corinne; Forster Grant L.; Luijkx Ingrid T.; Gerbig Christoph; Fleming Leigh S.; Sturges William T.; Novel quantification of regional fossil fuel CO ₂ reductions during COVID-19 lockdowns using atmospheric oxygen measurements. Science Advances, 8 (16) , [doi:10.1126/sciadv.abl9250] Apr 2022
  • Woodward Stephanie; Sellar Alistair; Tang Yongming; Stringer Marc; Yool A.; Robertson Eddy; Wiltshire Andy; The simulation of mineral dust in the United Kingdom Earth System Model UKESM1. [doi:10.5194/acp-2022-228] Apr 2022
  • Boland Emma J.D.; Dittus Andrea J.; Jones Dan; Josey Simon A.; Sinha Bablu; Ocean Heat Content responses to changing Anthropogenic Aerosol Forcing Strength: regional and multi-decadal variability. [doi:10.1002/essoar.10511062.1] Apr 2022
  • Friedlingstein Pierre; Jones Matthew W.; O'Sullivan Michael; Andrew Robbie M.; Bakker Dorothee C. E.; Hauck Judith; Le Quéré Corinne; Peters Glen P.; Peters Wouter; Pongratz Julia; Sitch Stephen; Canadell Josep G.; Ciais Philippe; Jackson Robert B.; Alin Simone R.; Anthoni Peter; Bates Nicholas R.; Becker Meike; Bellouin Nicolas; Bopp Laurent; Chau Thi Tuyet Trang; Chevallier Frederic; Chini Louise P.; Cronin Margot; Currie Kim I.; Decharme Bertrand; Djeutchouang Laique M.; Dou Xinyu; Evans Wiley; Feely Richard A.; Feng Liang; Gasser Thomas; Gilfillan Dennis; Gkritzalis Thanos; Grassi Giacomo; Gregor Luke; Gruber Nicolas; Gürses Özgür; Harris Ian; Houghton Richard A.; Hurtt George; Iida Yosuke; Ilyina Tatiana; Luijkx Ingrid T.; Jain Atul K.; Jones Steve D.; Kato Etsushi; Kennedy Daniel; Klein Goldewijk Kees; Knauer Jürgen; Korsbakken Jan Ivar; Körtzinger Arne; Landschützer Peter; Lauvset Siv K.; Lefèvre Nathalie; Lienert Sebastian; Liu Junjie; Marland Gregg; McGuire P. C.; Melton Joe R.; Munro David R.; Nabel Julia E. M. S.; Nakaoka Shin-Ichiro; Niwa Yosuke; Ono Tsuneo; Pierrot Denis; Poulter Benjamin; Rehder Gregor; Resplandy Laure; Robertson Eddy; Rödenbeck Christian; Rosan Thais M.; Schwinger Jörg; Schwingshackl Clemens; Séférian Roland; Sutton Adrienne J.; Sweeney Colm; Tanhua Toste; Tans Pieter P.; Tian Hanqin; Tilbrook Bronte; Tubiello Francesco N.; van der Werf Guido R.; Vuichard Nicolas; Wada Chisato; Wanninkhof R.; Watson Andrew J.; Willis David; Wiltshire Andrew J.; Yuan Wenping; Yue Chao; Yue Xu; Zaehle Sönke; Zeng Jiye; Global Carbon Budget 2021. Earth System Science Data, 14 (4) , 1917--2005, [doi:10.5194/essd-14-1917-2022] Apr 2022
  • Cui Zhiqiang; Blyth Alan; Boeing Steve; Burton Ralph; An observational study of the detrainment layer of a flower system during EUREC4A. [doi:10.5194/egusphere-egu22-7436] Mar 2022
  • Saffin Leo; Marsham John; Blyth Alan; Parker D. J.; Mesoscale organisation transition during the 2nd Feb EUREC4A case study simulated by a high-resolution weather model. [doi:10.5194/egusphere-egu22-2408] Mar 2022
  • Lloyd Gary; Choularton Thomas; Blyth Alan; Gallagher M.; Bower Keith; Cui Zhiqiang; Denby Leif; Cloud Microphysics Measurements and the Development of Precipitation During EUREC4A. [doi:10.5194/egusphere-egu22-12948] Mar 2022
  • Gao Yang; Ma Mingchen; Yan Feifan; Su Hang; Wang Shuxiao; Liao Hong; Zhao Bin; Wang Xuemei; Sun Yele; Hopkins James R.; Chen Qi; Fu Pingqing; Lewis Alastair C.; Qiu Qionghui; Yao Xiaohong; Gao Huiwang; Impacts of biogenic emissions from urban landscapes on summer ozone and secondary organic aerosol formation in megacities. Science Of The Total Environment, 814, 152654, [doi:10.1016/j.scitotenv.2021.152654] Mar 2022
  • Chevuturi A.; Klingaman N. P.; Turner A.G.; Guo Liang; Vidale P. L.; Projected Changes in the East Asian Hydrological Cycle for Different Levels of Future Global Warming. Atmosphere, 13 (3) , 405, [doi:10.3390/atmos13030405] Mar 2022
  • Schiemann R.; Hatcher Rosalyn; Lawrence Bryan; Lister Grenville; Shaffrey Len C.; Planning for a Large Ensemble based on the HadGEM3 climate model. [doi:10.5194/egusphere-egu22-7280] Mar 2022
  • Dong Buwen; Sutton R.T.; Shaffrey Len C.; Harvey Benjamin J.; Recent decadal weakening of the summer Eurasian westerly jet attributable to anthropogenic aerosol emissions. [doi:10.5194/egusphere-egu22-9731] Mar 2022
  • Lai Michael; Robson J. I.; Wilcox L. J.; Sutton R.T.; Dunstone Nick; Exploring the North Atlantic response to anthropogenic aerosols through idealised single-forcing experiments in a model at two different resolutions. [doi:10.5194/egusphere-egu22-12573] Mar 2022
  • Dong Buwen; Sutton R.T.; Shaffrey Len; Harvey Benjamin J.; Recent decadal weakening of the summer Eurasian westerly jet attributable to anthropogenic aerosol emissions. Nature Communications, 13 (1) , [doi:10.1038/s41467-022-28816-5] Mar 2022
  • Lee J. D.; Hopkins J. R.; Squires Freja; Wilde Shona; Use of a large aircraft to measure composition and chemistry of wildfires. . [doi:10.5194/egusphere-egu22-7139] Mar 2022
  • Pasternak Dominika; Lee J. D.; Hopkins J. R.; Bauguitte Stéphane; Batten Stephanie; Yang Mingxi; Bell Thomas G.; Coe Hugh; Bower Keith; Andrews Stephen; Temple Loren; Vallow Jake; Matthews Emily; Bannan Thomas; Marsden Nicholas; Wu Huihui; Thamban Navaneeth; Airborne measurement of ship emissions in international waters and Sulphur Emission Control Area. [doi:10.5194/egusphere-egu22-5355] Mar 2022
  • Nelson Beth; Lee J. D.; Hopkins J. R.; Rickard Andrew R.; Examining the sensitivity of in situ ozone production to its precursor chemical species in Beijing, China. [doi:10.5194/egusphere-egu22-4282] Mar 2022
  • Damany-Pearce Lilly; Johnson Ben T.; Wells Alice; Osborne Martin; Allan James Donald; Belcher Claire; Haywood Jim; Australian Wildfires cause the largest stratospheric warming since Pinatubo.. [doi:10.5194/egusphere-egu22-7918] Mar 2022
  • Medeiros Diogo J.; Blitz Mark A.; Seakins Paul W.; Whalley Lisa K.; Direct Measurements of Isoprene Autoxidation: Pinpointing Atmospheric Oxidation in Tropical Forests. {Jacs} Au, 2 (4) , 809--818, [doi:10.1021/jacsau.1c00525] Mar 2022
  • Slater Jessica; Coe H; MCfiggans Gordan; Tonttila Juha; Romakkaniemi Sami; The effect of BC on aerosol–boundary layer feedback: potential implications for urban pollution episodes. Atmospheric Chemistry And Physics, 22 (4) , 2937–2953, [doi:10.5194/acp-22-2937-2022] Mar 2022
  • Barrett Paul A.; Abel Steven; Coe H; Crawford Ian; Dobracki Amie; Haywood James M.; Howell Steve; Jones Anthony C.; Langridge Justin; McFarquhar Greg; Nott Graeme; Price Hannah; Redemann Jens; Shinozuka Yohei; Szpek Kate; Taylor Jonathan; Wood Robert; Wu Huihui; Zuidema Paquita; Bauguitte Stéphane; Bennett Ryan; Bower Keith; Chen Hong; Cochrane Sabrina P.; Cotterell Michael I.; Davies Nicholas; Delene David; Flynn Connor; Freedman Andrew; Freitag Steffen; Gupta Siddhant; Noone David; Onasch Timothy B.; Podolske James; Poellot Michael R.; Schmidt Sebastian K.; Springston Stephen; Sedlacek Arthur; Trembath Jamie; Vance Alan; Zawadowicz Maria; Zhang Jianhao; Supplementary material to “Intercomparison of airborne and surface-based measurements during the CLARIFY, ORACLES and LASIC field experiments”. [doi:10.5194/amt-2022-59-supplement] Mar 2022
  • Barrett Paul A.; Abel Steven; Coe H; Crawford Ian; Dobracki Amie; Haywood James M.; Howell Steve; Jones Anthony C.; Langridge Justin; McFarquhar Greg; Nott Graeme; Price Hannah; Redemann Jens; Shinozuka Yohei; Szpek Kate; Taylor Jonathan; Wood Robert; Wu Huihui; Zuidema Paquita; Bauguitte Stéphane; Bennett Ryan; Bower Keith; Chen Hong; Cochrane Sabrina P.; Cotterell Michael I.; Davies Nicholas; Delene David; Flynn Connor; Freedman Andrew; Freitag Steffen; Gupta Siddhant; Noone David; Onasch Timothy B.; Podolske James; Poellot Michael R.; Schmidt Sebastian K.; Springston Stephen; Sedlacek Arthur; Trembath Jamie; Vance Alan; Zawadowicz Maria; Zhang Jianhao; Intercomparison of airborne and surface-based measurements during the CLARIFY, ORACLES and LASIC field experiments. [doi:10.5194/amt-2022-59] Mar 2022
  • Coe H; Aerosol composition, climate and air quality, why molecular scale observations are important and what are the future challenges. [doi:10.5194/egusphere-egu22-4229] Mar 2022
  • Yang Mingxi; Bell Thomas G.; Bower Keith; Carslaw Ken; Choularton Thomas; Christensen Matt; Coe Hugh; Grosvenor D. P.; Lee J. D.; Watson-Parris Duncan; Stier Philip; Yoshioka Masaru; Insights from ACRUISE (Atmospheric Composition and Radiative forcing changes due to UN International Ship Emissions regulations) from aircraft, modelling, and satellite perspectives. [doi:10.5194/egusphere-egu22-7078] Mar 2022
  • Drysdale Will; Stapleton Charlotte; Lee J. D.; Changes in Global Urban Air Quality due to Large Scale Disruptions of Activity. [doi:10.5194/egusphere-egu22-9812] Mar 2022
  • Yu Hongyong; Yu Xiaojing; Zhou Ziwei; Wang Yu; Li Yingxin; Nanding Nergui; Freychet Nicolas; Dong Buwen; Wang Dongqian; Lott Fraser C.; Tett Simon F. B.; Sparrow Sarah; Attribution of April 2020 Exceptional Cold Spell over Northeast China. Bulletin Of The American Meteorological Society, 103 (3) , S61--S67, [doi:10.1175/bams-d-21-0175.1] Mar 2022
  • Tang Haosu; Wang Ziyue; Tang Bin; Ma Yayu; Pei Lin; Tian Fangxing; Wang Jun; Nanding Nergui; Sparrow Sarah; Tett Simon F. B.; Dong Buwen; Lott Fraser C.; Reduced Probability of 2020 June–July Persistent Heavy Mei-yu Rainfall Event in the Middle to Lower Reaches of the Yangtze River Basin under Anthropogenic Forcing. Bulletin Of The American Meteorological Society, 103 (3) , S83--S89, [doi:10.1175/bams-d-21-0167.1] Mar 2022
  • Lang Charlotte; Lee Victoria; Sherriff-Tadano Sam; Gandy Niall; Gregory J. M.; Ivanovic Ruza; Gregoire Lauren; Smith Robin S.; Evaluation of a coupled climate ice sheet model over the Greenland ice sheet and sensitivity to atmospheric, snow and ice sheet parameters. [doi:10.5194/egusphere-egu22-11929] Mar 2022
  • Tett Simon F B; Gregory J. M.; Freychet Nicolas; Cartis Coralia; Mineter Michael; Roberts Lindon; Calibrating Climate Models – what observations matter?. [doi:10.5194/egusphere-egu22-7895] Mar 2022
  • 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

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