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Page 32 of 67, showing 100 records out of 6,687 total

  • Finney D. L.; Doherty R. M.; Wild O.; Abraham N. L.; The impact of lightning on tropospheric ozone chemistry using a new global lightning parametrisation. Atmospheric Chemistry And Physics, 16 (12) , 7507–7522, [doi:10.5194/acp-16-7507-2016] Jun 2016
  • Davini Paolo; von Hardenberg Jost; Corti Susanna; CHRISTENSEN HANNAH M.; JURICKE STEPHAN; Subramanian Aneesh; Watson Peter A. G.; Weisheimer A.; Palmer Tim N.; Climate SPHINX: evaluating the impact of resolution and stochastic physics parameterisations in climate simulations. [doi:10.5194/gmd-2016-115] Jun 2016
  • McNorton Joe; Chipperfield Martyn P.; Gloor Manuel; Wilson Chris; Feng Wuhu; Hayman Garry D.; Rigby Matt; Krummel Paul B.; O'Doherty Simon; Prinn Ronald G.; Weiss Ray F.; Young Dickon; Dlugokencky Ed; Montzka Steve A.; Role of OH variability in the stalling of the global atmospheric CH₄ growth rate from 1999 to 2006. Atmospheric Chemistry And Physics, 16 (12) , 7943--7956, [doi:10.5194/acp-16-7943-2016] Jun 2016
  • Pope R. J.; Richards N. A. D.; Chipperfield M. P.; Moore D. P.; Monks S. A.; Arnold S. R.; Glatthor N.; Kiefer M.; Breider T. J.; Harrison J. J.; Remedios J. J.; Warneke C.; Roberts J. M.; Diskin G. S.; Huey L. G.; Wisthaler A.; Apel E. C.; Bernath P. F.; Feng W.; Intercomparison and evaluation of satellite peroxyacetyl nitrate observations in the upper troposphere - lower stratosphere. Atmospheric Chemistry And Physics Discussions, 2016, 1--44, Jun 2016
  • McNorton J.; Chipperfield M. P.; Gloor M.; Wilson C.; Feng W.; Hayman G. D.; Rigby M.; Krummel P. B.; O'Doherty S.; Prinn R. G.; Weiss R. F.; Young D.; Dlugokencky E.; Montzka S. A.; Role of OH variability in the stalling of the global atmospheric CH4. Atmospheric Chemistry And Physics, 16 (12) , 7943--7956, Jun 2016
  • Abbott B. P.; Abbott R.; Abbott T. D.; Abernathy M. R.; Acernese F.; Ackley K.; Adams C.; Adams T.; Addesso P.; Adhikari R. X.; Adya V. B.; Affeldt C.; Agathos M.; Agatsuma K.; Aggarwal N.; Aguiar O. D.; Aiello L.; Ain A.; Ajith P.; Allen B.; Allocca A.; Altin P. A.; Anderson S. B.; Anderson W. G.; Arai K.; Araya M. C.; Arceneaux C. C.; Areeda J. S.; Arnaud N.; Arun K. G.; Ascenzi S.; Ashton G.; Ast M.; Aston S. M.; Astone P.; Aufmuth P.; Aulbert C.; Babak S.; Bacon P.; Bader M. K. M.; Baker P. T.; Baldaccini F.; Ballardin G.; Ballmer S. W.; Barayoga J. C.; Barclay S. E.; Barish B. C.; Barker D.; Barone F.; Barr B.; Barsotti L.; Barsuglia M.; Barta D.; Bartlett J.; Bartos I.; Bassiri R.; Basti A.; Batch J. C.; Baune C.; Bavigadda V.; Bazzan M.; Behnke B.; Bejger M.; Bell A. S.; Bell C. J.; Berger B. K.; Bergman J.; Bergmann G.; Berry C. P. L.; Bersanetti D.; Bertolini A.; Betzwieser J.; Bhagwat S.; Bhandare R.; Bilenko I. A.; Billingsley G.; Birch J.; Birney R.; Biscans S.; Bisht A.; Bitossi M.; Biwer C.; Bizouard M. A.; Blackburn J. K.; Blair C. D.; Blair D. G.; Blair R. M.; Bloemen S.; Bock O.; Bodiya T. P.; Boer M.; Bogaert G.; Bogan C.; Bohe A.; Bohémier K.; Bojtos P.; Bond C.; Bondu F.; Bonnand R.; Boom B. A.; Bork R.; Boschi V.; Bose S.; Bouffanais Y.; Bozzi A.; Bradaschia C.; Brady P. R.; Braginsky V. B.; Branchesi M.; Brau J. E.; Briant T.; Brillet A.; Brinkmann M.; Brisson V.; Brockill P.; Brooks A. F.; Brown D. A.; Brown D. D.; Brown N. M.; Buchanan C. C.; Buikema A.; Bulik T.; Bulten H. J.; Buonanno A.; Buskulic D.; Buy C.; Byer R. L.; Cabero M.; Cadonati L.; Cagnoli G.; Cahillane C.; Calderón Bustillo J.; Callister T.; Calloni E.; Camp J. B.; Cannon K. C.; Cao J.; Capano C. D.; Capocasa E.; Carbognani F.; Caride S.; Casanueva Diaz J.; Casentini C.; Caudill S.; Cavaglià M.; Cavalier F.; Cavalieri R.; Cella G.; Cepeda C. B.; Cerboni Baiardi L.; Cerretani G.; Cesarini E.; Chakraborty R.; Chalermsongsak T.; Chamberlin S. J.; Chan M.; Chao S.; Charlton P.; Chassande-Mottin E.; Chen H. Y.; Chen Y.; Cheng C.; Chincarini A.; Chiummo A.; Cho H. S.; Cho M.; Chow J. H.; Christensen N.; Chu Q.; Chua S.; Chung S.; Ciani G.; Clara F.; Clark J. A.; Clayton J. H.; Cleva F.; Coccia E.; Cohadon P.-F.; Cokelaer T.; Colla A.; Collette C. G.; Cominsky L.; Constancio M.; Conte A.; Conti L.; Cook D.; Corbitt T. R.; Cornish N.; Corsi A.; Cortese S.; Costa C. A.; Coughlin M. W.; Coughlin S. B.; Coulon J.-P.; Countryman S. T.; Couvares P.; Cowan E. E.; Coward D. M.; Cowart M. J.; Coyne D. C.; Coyne R.; Craig K.; Creighton J. D. E.; Creighton T. D.; Cripe J.; Crowder S. G.; Cumming A.; Cunningham L.; Cuoco E.; Dal Canton T.; Danilishin S. L.; D’Antonio S.; Danzmann K.; Darman N. S.; Dattilo V.; Dave I.; Daveloza H. P.; Davier M.; Davies G. S.; Daw E. J.; Day R.; De S.; DeBra D.; Debreczeni G.; Degallaix J.; De Laurentis M.; Deléglise S.; Del Pozzo W.; Denker T.; Dent T.; Dereli H.; Dergachev V.; DeRosa R. T.; De Rosa R.; DeSalvo R.; Dhurandhar S.; Díaz M. C.; Dietz A.; Di Fiore L.; Di Giovanni M.; Di Lieto A.; Di Pace S.; Di Palma I.; Di Virgilio A.; Dojcinoski G.; Dolique V.; Donovan F.; Dooley K. L.; Doravari S.; Douglas R.; Downes T. P.; Drago M.; Drever R. W. P.; Driggers J. C.; Du Z.; Ducrot M.; Dwyer S. E.; Edo T. B.; Edwards M. C.; Effler A.; Eggenstein H.-B.; Ehrens P.; Eichholz J.; Eikenberry S. S.; Engels W.; Essick R. C.; Etzel T.; Evans M.; Evans T. M.; Everett R.; Factourovich M.; Fafone V.; Fair H.; Fairhurst S.; Fan X.; Fang Q.; Farinon S.; Farr B.; Farr W. M.; Favata M.; Fays M.; Fehrmann H.; Fejer M. M.; Ferrante I.; Ferreira E. C.; Ferrini F.; Fidecaro F.; Fiori I.; Fiorucci D.; Fisher R. P.; Flaminio R.; Fletcher M.; Fotopoulos N.; Fournier J.-D.; Franco S.; Frasca S.; Frasconi F.; Frei M.; Frei Z.; Freise A.; Frey R.; Frey V.; Fricke T. T.; Fritschel P.; Frolov V. V.; Fulda P.; Fyffe M.; Gabbard H. A. G.; Gair J. R.; Gammaitoni L.; Gaonkar S. G.; Garufi F.; Gatto A.; Gaur G.; Gehrels N.; Gemme G.; Gendre B.; Genin E.; Gennai A.; George J.; Gergely L.; Germain V.; Ghosh A.; Ghosh S.; Giaime J. A.; Giardina K. D.; Giazotto A.; Gill K.; Glaefke A.; Goetz E.; Goetz R.; Goggin L. M.; Gondan L.; González G.; Gonzalez Castro J. M.; Gopakumar A.; Gordon N. A.; Gorodetsky M. L.; Gossan S. E.; Gosselin M.; Gouaty R.; Graef C.; Graff P. B.; Granata M.; Grant A.; Gras S.; Gray C.; Greco G.; Green A. C.; Groot P.; Grote H.; Grunewald S.; Guidi G. M.; Guo X.; Gupta A.; Gupta M. K.; Gushwa K. E.; Gustafson E. K.; Gustafson R.; Hacker J. J.; Hall B. R.; Hall E. D.; Hammond G.; Haney M.; Hanke M. M.; Hanks J.; Hanna C.; Hannam M. D.; Hanson J.; Hardwick T.; Harms J.; Harry G. M.; Harry I. W.; Hart M. J.; Hartman M. T.; Haster C.-J.; Haughian K.; Heidmann A.; Heintze M. C.; Heitmann H.; Hello P.; Hemming G.; Hendry M.; Heng I. S.; Hennig J.; Heptonstall A. W.; Heurs M.; Hild S.; Hoak D.; Hodge K. A.; Hofman D.; Hollitt S. E.; Holt K.; Holz D. E.; Hopkins P.; Hosken D. J.; Hough J.; Houston E. A.; Howell E. J.; Hu Y. M.; Huang S.; Huerta E. A.; Huet D.; Hughey B.; Husa S.; Huttner S. H.; Huynh-Dinh T.; Idrisy A.; Indik N.; Ingram D. R.; Inta R.; Isa H. N.; Isac J.-M.; Isi M.; Islas G.; Isogai T.; Iyer B. R.; Izumi K.; Jacqmin T.; Jang H.; Jani K.; Jaranowski P.; Jawahar S.; Jiménez-Forteza F.; Johnson W. W.; Jones D. I.; Jones G.; Jones R.; Jonker R. J. G.; Ju L.; K. Haris; Kalaghatgi C. V.; Kalogera V.; Kandhasamy S.; Kang G.; Kanner J. B.; Karki S.; Kasprzack M.; Katsavounidis E.; Katzman W.; Kaufer S.; Kaur T.; Kawabe K.; Kawazoe F.; Kéfélian F.; Kehl M. S.; Keitel D.; Kelley D. B.; Kells W.; Keppel D. G.; Kennedy R.; Key J. S.; Khalaidovski A.; Khalili F. Y.; Khan I.; Khan S.; Khan Z.; Khazanov E. A.; Kijbunchoo N.; Kim C.; Kim J.; Kim K.; Kim Nam-Gyu; Kim Namjun; Kim Y.-M.; King E. J.; King P. J.; Kinzel D. L.; Kissel J. S.; Kleybolte L.; Klimenko S.; Koehlenbeck S. M.; Kokeyama K.; Koley S.; Kondrashov V.; Kontos A.; Korobko M.; Korth W. Z.; Kowalska I.; Kozak D. B.; Kringel V.; Krishnan B.; Królak A.; Krueger C.; Kuehn G.; Kumar P.; Kuo L.; Kutynia A.; Lackey B. D.; Landry M.; Lange J.; Lantz B.; Lasky P. D.; Lazzarini A.; Lazzaro C.; Leaci P.; Leavey S.; Lebigot E. O.; Lee C. H.; Lee H. K.; Lee H. M.; Lee K.; Lenon A.; Leonardi M.; Leong J. R.; Leroy N.; Letendre N.; Levin Y.; Levine B. M.; Li T. G. F.; Libson A.; Littenberg T. B.; Lockerbie N. A.; Logue J.; Lombardi A. L.; Lord J. E.; Lorenzini M.; Loriette V.; Lormand M.; Losurdo G.; Lough J. D.; Lück H.; Lundgren A. P.; Luo J.; Lynch R.; Ma Y.; MacDonald T.; Machenschalk B.; MacInnis M.; Macleod D. M.; Magaña-Sandoval F.; Magee R. M.; Mageswaran M.; Majorana E.; Maksimovic I.; Malvezzi V.; Man N.; Mandel I.; Mandic V.; Mangano V.; Mansell G. L.; Manske M.; Mantovani M.; Marchesoni F.; Marion F.; Márka S.; Márka Z.; Markosyan A. S.; Maros E.; Martelli F.; Martellini L.; Martin I. W.; Martin R. M.; Martynov D. V.; Marx J. N.; Mason K.; Masserot A.; Massinger T. J.; Masso-Reid M.; Matichard F.; Matone L.; Mavalvala N.; Mazumder N.; Mazzolo G.; McCarthy R.; McClelland D. E.; McCormick S.; McGuire S. C.; McIntyre G.; McIver J.; McKechan D. J. A.; McManus D. J.; McWilliams S. T.; Meacher D.; Meadors G. D.; Meidam J.; Melatos A.; Mendell G.; Mendoza-Gandara D.; Mercer R. A.; Merilh E.; Merzougui M.; Meshkov S.; Messaritaki E.; Messenger C.; Messick C.; Meyers P. M.; Mezzani F.; Miao H.; Michel C.; Middleton H.; Mikhailov E. E.; Milano L.; Miller J.; Millhouse M.; Minenkov Y.; Ming J.; Mirshekari S.; Mishra C.; Mitra S.; Mitrofanov V. P.; Mitselmakher G.; Mittleman R.; Moggi A.; Mohan M.; Mohapatra S. R. P.; Montani M.; Moore B. C.; Moore C. J.; Moraru D.; Moreno G.; Morriss S. R.; Mossavi K.; Mours B.; Mow-Lowry C. M.; Mueller C. L.; Mueller G.; Muir A. W.; Mukherjee Arunava; Mukherjee D.; Mukherjee S.; Mukund N.; Mullavey A.; Munch J.; Murphy D. J.; Murray P. G.; Mytidis A.; Nardecchia I.; Naticchioni L.; Nayak R. K.; Necula V.; Nedkova K.; Nelemans G.; Neri M.; Neunzert A.; Newton G.; Nguyen T. T.; Nielsen A. B.; Nissanke S.; Nitz A.; Nocera F.; Nolting D.; Normandin M. E.; Nuttall L. K.; Oberling J.; Ochsner E.; O’Dell J.; Oelker E.; Ogin G. H.; Oh J. J.; Oh S. H.; Ohme F.; Oliver M.; Oppermann P.; Oram Richard J.; O’Reilly B.; O’Shaughnessy R.; Ottaway D. J.; Ottens R. S.; Overmier H.; Owen B. J.; Pai A.; Pai S. A.; Palamos J. R.; Palashov O.; Palomba C.; Pal-Singh A.; Pan H.; Pan Y.; Pankow C.; Pannarale F.; Pant B. C.; Paoletti F.; Paoli A.; Papa M. A.; Paris H. R.; Parker W.; Pascucci D.; Pasqualetti A.; Passaquieti R.; Passuello D.; Patricelli B.; Patrick Z.; Pearlstone B. L.; Pedraza M.; Pedurand R.; Pekowsky L.; Pele A.; Penn S.; Perreca A.; Phelps M.; Piccinni O.; Pichot M.; Piergiovanni F.; Pierro V.; Pillant G.; Pinard L.; Pinto I. M.; Pitkin M.; Poggiani R.; Popolizio P.; Post A.; Powell J.; Prasad J.; Predoi V.; Premachandra S. S.; Prestegard T.; Price L. R.; Prijatelj M.; Principe M.; Privitera S.; Prodi G. A.; Prokhorov L.; Puncken O.; Punturo M.; Puppo P.; Pürrer M.; Qi H.; Qin J.; Quetschke V.; Quintero E. A.; Quitzow-James R.; Raab F. J.; Rabeling D. S.; Radkins H.; Raffai P.; Raja S.; Rakhmanov M.; Rapagnani P.; Raymond V.; Razzano M.; Re V.; Read J.; Reed C. M.; Regimbau T.; Rei L.; Reid S.; Reitze D. H.; Rew H.; Reyes S. D.; Ricci F.; Riles K.; Robertson N. A.; Robie R.; Robinet F.; Robinson C.; Rocchi A.; Rodriguez A. C.; Rolland L.; Rollins J. G.; Roma V. J.; Romano R.; Romanov G.; Romie J. H.; Rosińska D.; Rowan S.; Rüdiger A.; Ruggi P.; Ryan K.; Sachdev S.; Sadecki T.; Sadeghian L.; Salconi L.; Saleem M.; Salemi F.; Samajdar A.; Sammut L.; Sanchez E. J.; Sandberg V.; Sandeen B.; Sanders J. R.; Santamaría L.; Sassolas B.; Sathyaprakash B. S.; Saulson P. R.; Sauter O.; Savage R. L.; Sawadsky A.; Schale P.; Schilling R.; Schmidt J.; Schmidt P.; Schnabel R.; Schofield R. M. S.; Schönbeck A.; Schreiber E.; Schuette D.; Schutz B. F.; Scott J.; Scott S. M.; Sellers D.; Sengupta A. S.; Sentenac D.; Sequino V.; Sergeev A.; Serna G.; Setyawati Y.; Sevigny A.; Shaddock D. A.; Shah S.; Shahriar M. S.; Shaltev M.; Shao Z.; Shapiro B.; Shawhan P.; Sheperd A.; Shoemaker D. H.; Shoemaker D. M.; Siellez K.; Siemens X.; Sigg D.; Silva A. D.; Simakov D.; Singer A.; Singer L. P.; Singh A.; Singh R.; Singhal A.; Sintes A. M.; Slagmolen B. J. J.; Smith J. R.; Smith N. D.; Smith R. J. E.; Son E. J.; Sorazu B.; Sorrentino F.; Souradeep T.; Srivastava A. K.; Staley A.; Steinke M.; Steinlechner J.; Steinlechner S.; Steinmeyer D.; Stephens B. C.; Stone R.; Strain K. A.; Straniero N.; Stratta G.; Strauss N. A.; Strigin S.; Sturani R.; Stuver A. L.; Summerscales T. Z.; Sun L.; Sutton P. J.; Swinkels B. L.; Szczepańczyk M. J.; Tacca M.; Talukder D.; Tanner D. B.; Tápai M.; Tarabrin S. P.; Taracchini A.; Taylor R.; Theeg T.; Thirugnanasambandam M. P.; Thomas E. G.; Thomas M.; Thomas P.; Thorne K. A.; Thorne K. S.; Thrane E.; Tiwari S.; Tiwari V.; Tokmakov K. V.; Tomlinson C.; Tonelli M.; Torres C. V.; Torrie C. I.; Töyrä D.; Travasso F.; Traylor G.; Trifirò D.; Tringali M. C.; Trozzo L.; Tse M.; Turconi M.; Tuyenbayev D.; Ugolini D.; Unnikrishnan C. S.; Urban A. L.; Usman S. A.; Vahlbruch H.; Vajente G.; Valdes G.; van Bakel N.; van Beuzekom M.; van den Brand J. F. J.; Van Den Broeck C.; Vander-Hyde D. C.; van der Schaaf L.; van Heijningen J. V.; van Veggel A. A.; Vardaro M.; Vass S.; Vasuth M.; Vaulin R.; Vecchio A.; Vedovato G.; Veitch J.; Veitch P. J.; Venkateswara K.; Verkindt D.; Vetrano F.; Viceré A.; Vinciguerra S.; Vine D. J.; Vinet J.-Y.; Vitale S.; Vo T.; Vocca H.; Vorvick C.; Voss D.; Vousden W. D.; Vyatchanin S. P.; Wade A. R.; Wade L. E.; Wade M.; Walker M.; Wallace L.; Walsh S.; Wang G.; Wang H.; Wang M.; Wang X.; Wang Y.; Ward R. L.; Warner J.; Was M.; Weaver B.; Wei L.-W.; Weinert M.; Weinstein A. J.; Weiss R.; Welborn T.; Wen L.; Weßels P.; West M.; Westphal T.; Wette K.; Whelan J. T.; White D. J.; Whiting B. F.; Wiesner K.; Williams R. D.; Williamson A. R.; Willis J. L.; Willke B.; Wimmer M. H.; Winkler W.; Wipf C. C.; Wiseman A. G.; Wittel H.; Woan G.; Worden J.; Wright J. L.; Wu G.; Yablon J.; Yam W.; Yamamoto H.; Yancey C. C.; Yap M. J.; Yu H.; Yvert M.; Zadrożny A.; Zangrando L.; Zanolin M.; Zendri J.-P.; Zevin M.; Zhang F.; Zhang L.; Zhang M.; Zhang Y.; Zhao C.; Zhou M.; Zhou Z.; Zhu X. J.; Zucker M. E.; Zuraw S. E.; Zweizig J.; Collaboration LIGO Scientific Collaboration and Virgo; GW150914: First results from the search for binary black hole coalescence with Advanced LIGO. Physical Review D, 93 (12) , [doi:10.1103/physrevd.93.122003] Jun 2016
  • Solomon Susan; Ivy Diane J.; Kinnison Doug; Mills Michael J.; Neely Ryan R.; Schmidt Anja; Emergence of healing in the Antarctic ozone layer. Science, 353 (6296) , 269–274, [doi:10.1126/science.aae0061] Jun 2016
  • Hawcroft Matt; Dacre Helen; Forbes Richard; Hodges Kevin; Shaffrey Len; Stein Thorwald; Using satellite and reanalysis data to evaluate the representation of latent heating in extratropical cyclones in a climate model. Climate Dynamics [doi:10.1007/s00382-016-3204-6] Jun 2016
  • Warwick Nicola J.; Cain Michelle L.; Fisher Rebecca; France James L.; Lowry David; Michel Sylvia E.; Nisbet Euan G.; Vaughn Bruce H.; White James W. C.; Pyle J. A.; Using δ¹³C-CH₄ and δD-CH₄ to constrain Arctic methane emissions. [doi:10.5194/acp-2016-408-supplement] Jun 2016
  • Warwick Nicola J.; Cain Michelle L.; Fisher Rebecca; France James L.; Lowry David; Michel Sylvia E.; Nisbet Euan G.; Vaughn Bruce H.; White James W. C.; Pyle J. A.; Using δ¹³C-CH₄ and δD-CH₄ to constrain Arctic methane emissions. Atmospheric Chemistry And Physics Discussions 1--28, [doi:10.5194/acp-2016-408] Jun 2016
  • Hunt Kieran M. R.; Parker Douglas J.; The movement of Indian monsoon depressions by interaction with image vortices near the Himalayan wall. Quarterly Journal Of The Royal Meteorological Society, 142 (698) , 2224–2229, [doi:10.1002/qj.2812] Jun 2016
  • Ridley D. A.; Heald C. L.; Pierce J. R.; Evans M. J.; Toward resolution-independent dust emissions in global models: Impacts on the seasonal and spatial distribution of dust. Geophysical Research Letters, 40 (11) , 2873--2877, [doi:10.1002/grl.50409] JUN 16 2013 2013
  • Sonderfeld Hannah; White Iain R.; Goodall Iain C. A.; Hopkins J. R.; Lewis Alastair C.; Koppmann Ralf; Monks Paul S.; What effect does VOC sampling time have on derived OH reactivity?. Atmospheric Chemistry And Physics, 16 (10) , 6303--6318, [doi:10.5194/acp-16-6303-2016] May 2016
  • Dong Buwen; Sutton Rowan T.; Shaffrey Len; Understanding the rapid summer warming and changes in temperature extremes since the mid-1990s over Western Europe. Climate Dynamics [doi:10.1007/s00382-016-3158-8] May 2016
  • Young G.; Jones H. M.; Choularton T. W.; Crosier J.; Bower K. N.; Gallagher M.; Davies R. S.; Renfrew I. A.; Elvidge A. D.; Darbyshire E.; Marenco F.; Brown P. R. A.; Connolly P. J.; Lloyd G.; Williams P. I.; Allan James Donald; Taylor Jonathan; Liu D.; Flynn M. J.; Observed microphysical changes in Arctic mixed-phase clouds when transitioning from sea ice to open ocean. Atmospheric Chemistry And Physics Discussions 1--33, [doi:10.5194/acp-2016-409] May 2016
  • Ots Riinu; Young Dominique E.; Vieno Massimo; Xu Lu; Dunmore Rachel E.; Allan James D.; Coe Hugh; Williams Leah R.; Herndon Scott C.; Ng Nga L.; Hamilton Jacqueline F.; Bergström Robert; Di Marco Chiara; Nemitz Eiko; MacKenzie Ian A.; Kuenen Jeroen J. P.; Green David C.; Reis Stefan; Heal Mathew R.; Simulating secondary organic aerosol from missing diesel-related intermediate-volatility organic compound emissions during the Clean Air for London (ClearfLo) campaign. Atmospheric Chemistry And Physics, 16 (10) , 6453–6473, [doi:10.5194/acp-16-6453-2016] May 2016
  • Bossioli E.; Tombrou M.; Kalogiros J.; Allan J.; Bacak A.; Bezantakos S.; Biskos G.; Coe H.; Jones B. T.; Kouvarakis G.; Mihalopoulos N.; Percival C. J.; Atmospheric composition in the Eastern Mediterranean: Influence of biomass burning during summertime using the WRF-Chem model. Atmospheric Environment, 132, 317–331, [doi:10.1016/j.atmosenv.2016.03.011] May 2016
  • Nowicki Sophie M. J.; Payne Tony; Larour Eric; Seroussi Helene; Goelzer Heiko; Lipscomb William; Gregory J. M.; Abe‐Ouchi Ayako; Shepherd Andrew; Ice Sheet Model Intercomparison Project (ISMIP6) contribution to CMIP6. [doi:10.5194/gmd-2016-105] May 2016
  • Guilyardi Eric; Wittenberg Andrew; Balmaseda Magdalena; Cai Wenju; Collins Matthew; McPhaden Michael J.; Watanabe Masahiro; Yeh Sang-Wook; Fourth CLIVAR Workshop on the Evaluation of ENSO Processes in Climate Models: ENSO in a Changing Climate. Bulletin Of The American Meteorological Society, 97 (5) , 817--820, [doi:10.1175/bams-d-15-00287.1] May 2016
  • Simmons Adrian; Fellous Jean-Louis; Ramaswamy Venkatachalam; Trenberth Kevin; Asrar Ghassem; Balmaseda Magdalena; Burrows John P.; Ciais Philippe; Drinkwater Mark; Friedlingstein Pierre; Gobron Nadine; Guilyardi Eric; Halpern David; Heimann Martin; Johannessen Johnny; Levelt Pieternel F.; Lopez-Baeza Ernesto; Penner Joyce; Scholes Robert; Shepherd Ted; Observation and integrated Earth-system science: A roadmap for 2016–2025. Advances In Space Research, 57 (10) , 2037--2103, [doi:10.1016/j.asr.2016.03.008] May 2016
  • Harrington Luke J; Frame David J; Fischer Erich M; Hawkins Ed; Joshi Manoj; Jones Chris; Poorest countries experience earlier anthropogenic emergence of daily temperature extremes. Environmental Research Letters, 11 (5) , 055007, [doi:10.1088/1748-9326/11/5/055007] May 2016
  • Parker Douglas J.; Willetts Peter; Birch Cathryn; Turner Andrew G.; Marsham John H.; Taylor Christopher M.; Kolusu Seshagirirao; Martin Gill M.; The interaction of moist convection and mid-level dry air in the advance of the onset of the Indian monsoon. Quarterly Journal Of The Royal Meteorological Society, 142 (699) , 2256–2272, [doi:10.1002/qj.2815] May 2016
  • Provod M.; Marsham J. H.; Parker D. J.; Birch C. E.; A Characterization of Cold Pools in the West African Sahel. Monthly Weather Review, 144 (5) , 1923–1934, [doi:10.1175/mwr-d-15-0023.1] May 2016
  • Lowry D.; Lanoisellé M. E.; Fisher R. E.; Martin M.; Fowler C. M. R.; France J. L.; Hernández-Paniagua I. Y.; Novelli P. C.; Sriskantharajah S.; O’Brien P.; Rata N. D.; Holmes C. W.; Fleming Z. L.; Clemitshaw K. C.; Zazzeri G.; Pommier M.; McLinden C. A.; Nisbet E. G.; Marked long-term decline in ambient CO mixing ratio in SE England, 1997–2014: evidence of policy success in improving air quality. Scientific Reports, 6 (1) , [doi:10.1038/srep25661] May 2016
  • Sherwen T.; Schmidt J. A.; Evans Mathew J.; Carpenter L. J.; Großmann K.; Eastham S. D.; Jacob D. J.; Dix B.; Koenig T. K.; Sinreich R.; Ortega I.; Volkamer R.; Saiz-Lopez A.; Prados-Roman C.; Mahajan A. S.; Ordóñez C.; Global impacts of tropospheric halogens (Cl, Br, I) on oxidants and composition in GEOS-Chem. Atmospheric Chemistry And Physics Discussions 1--52, [doi:10.5194/acp-2016-424] May 2016
  • Kourtchev I.; Godoi R. H. M.; Connors S.; Levine J. G.; Archibald A. T.; Godoi A. F. L.; Paralovo S.; Barbosa C. G. G.; Souza R. A. F.; Manzi A. O.; Seco R.; Sjostedt S.; Park J.-H.; Guenther A.; Kim S.; Smith J.; Martin S. T.; Kalberer M.; Molecular composition of organic aerosols in central Amazonia: an ultra-high resolution mass spectrometry study. [doi:10.5194/acp-2016-404-supplement] May 2016
  • Kourtchev I.; Godoi R. H. M.; Connors S.; Levine J. G.; Archibald A. T.; Godoi A. F. L.; Paralovo S.; Barbosa C. G. G.; Souza R. A. F.; Manzi A. O.; Seco R.; Sjostedt S.; Park J.-H.; Guenther A.; Kim S.; Smith J.; Martin S. T.; Kalberer M.; Molecular composition of organic aerosols in central Amazonia: an ultra-high resolution mass spectrometry study. Atmospheric Chemistry And Physics Discussions 1--31, [doi:10.5194/acp-2016-404] May 2016
  • Gressent Alicia; Sauvage Bastien; Cariolle Daniel; Evans Mathew J.; Leriche Maud; Mari Celine; Thouret Valérie; Modeling lightning-NOₓ chemistry on a sub-grid scale in a global chemical transport model. Atmospheric Chemistry And Physics, 16 (9) , 5867--5889, [doi:10.5194/acp-16-5867-2016] May 2016
  • Willis D. M.; Wild M. N.; Appleby G. M.; Macdonald L. T.; The Greenwich Photo-heliographic Results (1874 – 1885): Observing Telescopes, Photographic Processes, and Solar Images. Solar Physics, 291 (9-10) , 2553–2586, [doi:10.1007/s11207-016-0894-1] May 2016
  • Tilmes Simone; Lamarque Jean-Francois; Emmons Louisa K.; Kinnison Doug E.; Marsh Dan; Garcia Rolando R.; Smith Anne K.; Neely Ryan R.; Conley Andrew; Vitt Francis; Val Martin Maria; Tanimoto Hiroshi; Simpson Isobel; Blake Don R.; Blake Nicola; Representation of the Community Earth System Model (CESM1) CAM4-chem within the Chemistry-Climate Model Initiative (CCMI). Geoscientific Model Development, 9 (5) , 1853–1890, [doi:10.5194/gmd-9-1853-2016] May 2016
  • Kremser Stefanie; Thomason Larry W.; von Hobe Marc; Hermann Markus; Deshler Terry; Timmreck Claudia; Toohey Matthew; Stenke Andrea; Schwarz Joshua P.; Weigel Ralf; Fueglistaler Stephan; Prata Fred J.; Vernier Jean-Paul; Schlager Hans; Barnes John E.; Antuña-Marrero Juan-Carlos; Fairlie Duncan; Palm Mathias; Mahieu Emmanuel; Notholt Justus; Rex Markus; Bingen Christine; Vanhellemont Filip; Bourassa Adam; Plane John M. C.; Klocke Daniel; Carn Simon A.; Clarisse Lieven; Trickl Thomas; Neely Ryan; James Alexander D.; Rieger Landon; Wilson James C.; Meland Brian; Stratospheric aerosol-Observations, processes, and impact on climate. Reviews Of Geophysics, 54 (2) , 278–335, [doi:10.1002/2015rg000511] May 2016
  • Thorne P. W.; Donat M. G.; Dunn R. J. H.; Williams C. N.; Alexander L. V.; Caesar J.; Durre I.; Harris I.; Hausfather Z.; Jones P. D.; Menne M. J.; Rohde R.; Vose R. S.; Davy R.; Klein‐Tank A. M. G.; Lawrimore J. H.; Peterson T. C.; Rennie J. J.; Reassessing changes in diurnal temperature range: Intercomparison and evaluation of existing global data set estimates. Journal Of Geophysical Research: Atmospheres, 121 (10) , 5138--5158, [doi:10.1002/2015jd024584] May 2016
  • Gonzalez Paula L. M.; Goddard Lisa; Long-lead ENSO predictability from CMIP5 decadal hindcasts. Climate Dynamics, 46 (9) , 3127--3147, [doi:10.1007/s00382-015-2757-0] May 2016
  • Wiseman S.M.; Arvidson R.E.; Wolff M.J.; Smith M.D.; Seelos F.P.; Morgan F.; Murchie S.L.; Mustard J.F.; Morris R.V.; Humm D.; McGuire P. C.; Characterization of artifacts introduced by the empirical volcano-scan atmospheric correction commonly applied to CRISM and OMEGA near-infrared spectra. Icarus, 269, 111--121, [doi:10.1016/j.icarus.2014.10.012] May 2016
  • Zielinski Arthur T.; Kalberer Markus; Jones Roderic L.; Prasad Abhinav; Seshia Ashwin A.; Particulate mass sensing with piezoelectric bulk acoustic mode resonators In 2016 IEEE International Frequency Control Symposium (IFCS), {IEEE}, [doi:10.1109/fcs.2016.7563576] May 2016
  • GRAY L. J.; Woollings T. J.; Andrews M.; Knight J.; Eleven-year solar cycle signal in the NAO and Atlantic/European blocking. Quarterly Journal Of The Royal Meteorological Society, 142 (698) , 1890--1903, [doi:10.1002/qj.2782] May 2016
  • Hartley Andrew J.; Parker Douglas J.; Garcia-Carreras Luis; Webster Stuart; Simulation of vegetation feedbacks on local and regional scale precipitation in West Africa. Agricultural And Forest Meteorology, 222, 59–70, [doi:10.1016/j.agrformet.2016.03.001] May 2016
  • Armstrong Alona; Burton Ralph R.; Lee Susan E; Mobbs Stephen; Ostle Nicholas; Smith Victoria; Waldron Susan; Whitaker Jeanette; Ground-level climate at a peatland wind farm in Scotland is affected by wind turbine operation. Environmental Research Letters, 11 (4) , 044024, [doi:10.1088/1748-9326/11/4/044024] Apr 2016
  • White B. A.; Blyth A. M.; Marsham J. H.; Simulations of an observed elevated mesoscale convective system over southern England during CSIP IOP 3. Quarterly Journal Of The Royal Meteorological Society, 142 (698) , 1929–1947, [doi:10.1002/qj.2787] Apr 2016
  • Andrews Stephen J.; Carpenter Lucy J.; Apel Eric C.; Atlas Elliot; Donets Valeria; Hopkins J. R.; Hornbrook Rebecca; Lewis Alastair C.; Lidster Richard T.; Lueb Richard; Minaeian Jamie; Navarro Maria; Punjabi Shalini; Riemer Daniel; Schauffler Susan; A comparison of very short-lived halocarbon (VSLS) and DMS aircraft measurements in the Tropical West Pacific from CAST, ATTREX and CONTRAST. [doi:10.5194/amt-2016-94] Apr 2016
  • Shaffrey Len; Hodson D.; Robson J.; Stevens D. P.; Hawkins E.; Polo I.; Stevens I.; Sutton R. T.; Lister G.; Iwi A.; Smith D.; Stephens A.; Decadal predictions with the HiGEM high resolution global coupled climate model: description and basic evaluation. Climate Dynamics, 48 (1-2) , 297–311, [doi:10.1007/s00382-016-3075-x] Apr 2016
  • Reed Chris; Evans Mathew J.; Di Carlo Piero; Lee James D.; Carpenter Lucy J.; Interferences in photolytic NO2 measurements: explanation for an apparent missing oxidant?. Atmospheric Chemistry And Physics, 16 (7) , 4707–4724, [doi:10.5194/acp-16-4707-2016] Apr 2016
  • Lakey Pascale S. J.; Berkemeier Thomas; Krapf Manuel; Dommen Josef; Steimer Sarah S.; Whalley Lisa K.; Ingham Trevor; Baeza-Romero Maria T.; Pöschl Ulrich; Shiraiwa Manabu; Ammann Markus; Heard Dwayne E.; The effect of viscosity on the HO₂ uptake by sucrose and secondary organic aerosol particles. [doi:10.5194/acp-2016-284] Apr 2016
  • Black Emily; Tarnavsky Elena; Maidment Ross; Greatrex Helen; Mookerjee Agrotosh; Quaife Tristan; Brown Matthew; The Use of Remotely Sensed Rainfall for Managing Drought Risk: A Case Study of Weather Index Insurance in Zambia. Remote Sensing, 8 (4) , 342, [doi:10.3390/rs8040342] Apr 2016
  • Good P.; Andrews T.; Chadwick R.; Dufresne J. L.; Gregory J. M.; Lowe J. A.; Schaller N.; Shiogama H.; The nonlinMIP intercomparison project: physical basis, experimental design and analysis principles. [doi:10.5194/gmd-2016-56] Apr 2016
  • Gregory J. M.; Andrews T.; Variation in climate sensitivity and feedback parameters during the historical period. Geophysical Research Letters, 43 (8) , 3911–3920, [doi:10.1002/2016gl068406] Apr 2016
  • Zhou Tianjun; Turner A.G.; Kinter James; Wang Bin; Qian Yun; Chen Xiaolong; Liu Bo; Wu Bo; Zou Liwei; Overview of the Global Monsoons Model Inter-comparison Project (GMMIP). Geoscientific Model Development Discussions 1--25, [doi:10.5194/gmd-2016-69] Apr 2016
  • Haarsma R. J.; Roberts M.; Vidale P. L.; Senior C. A.; Bellucci A.; Bao Q.; Chang P.; Corti S.; Fučkar N. S.; Guemas V.; von Hardenberg Jost; Hazeleger W.; Kodama C.; Koenigk T.; Leung L. R.; Lu J.; Luo J.-J.; Mao J.; Mizielinski M. S.; Mizuta R.; Nobre P.; Satoh M.; Scoccimarro E.; Semmler T.; Small J.; von Storch J.-S.; High Resolution Model Intercomparison Project (HighResMIP). [doi:10.5194/gmd-2016-66] Apr 2016
  • Fitzpatrick Rory G. J.; Bain Caroline L.; Knippertz Peter; Marsham John H.; Parker Douglas J.; On What Scale Can We Predict the Agronomic Onset of the West African Monsoon?. Monthly Weather Review, 144 (4) , 1571–1589, [doi:10.1175/mwr-d-15-0274.1] Apr 2016
  • Dall'Osto Manuel; Beddows D.C.S; Harrison Roy M.; Onat Burcu; Fine Iron Aerosols Are Internally Mixed with Nitrate in the Urban European Atmosphere. Environmental Science & Technology, 50 (8) , 4212–4220, [doi:10.1021/acs.est.6b01127] Apr 2016
  • Harvey B. J.; Methven J.; Ambaum M. H. P.; Rossby wave propagation on potential vorticity fronts with finite width. Journal Of Fluid Mechanics, 794, 775–797, [doi:10.1017/jfm.2016.180] Apr 2016
  • Moreno-Chamarro Eduardo; Ortega Pablo; González-Rouco Fidel; Montoya Marisa; Assessing reconstruction techniques of the Atlantic Ocean circulation variability during the last millennium. Climate Dynamics [doi:10.1007/s00382-016-3111-x] Apr 2016
  • Birch C. E.; Webster S.; Peatman Simon C.; Parker D. J.; Matthews A. J.; Li Y.; Hassim M. E. E.; Scale Interactions between the MJO and the Western Maritime Continent. Journal Of Climate, 29 (7) , 2471–2492, [doi:10.1175/jcli-d-15-0557.1] Apr 2016
  • Reed Chris; Authors response to anonymous reviewer #2, [doi:10.5194/amt-2016-17-ac2] Apr 2016
  • Reed Chris; Authors response to anonymous reviewer #1, [doi:10.5194/amt-2016-17-ac1] Apr 2016
  • Dearden C.; Vaughan G.; Tsai T.; Chen J. -P.; Exploring the Diabatic Role of Ice Microphysical Processes in Two North Atlantic Summer Cyclones. Monthly Weather Review, 144 (4) , 1249–1272, [doi:10.1175/mwr-d-15-0253.1] Apr 2016
  • Busilacchio Marcella; Di Carlo Piero; Aruffo Eleonora; Biancofiore Fabio; Dari Salisburgo Cesare; Giammaria Franco; Bauguitte Stéphane; Lee James; Moller Sarah; Hopkins J. R.; Punjabi Shalini; Andrews Stephen; Lewis Alastair C.; Parrington Mark; Palmer Paul I.; Hyer Edward; Wolfe Glenn M.; Production of peroxy nitrates in boreal biomass burning plumes over Canada during the BORTAS campaign. Atmospheric Chemistry And Physics, 16 (5) , 3485--3497, [doi:10.5194/acp-16-3485-2016] Mar 2016
  • Hirons Linda; Klingaman Nicholas; El Niño 2015/2016 impact analysis, monthly outlook March 2016 (Technical report), , [doi:10.12774/eod_cr.march2016.hironsletal3] Mar 2016
  • Hirons Linda; Klingaman Nicholas; El Niño 2015/2016 impact analysis, monthly outlook February 2016 (Technical report), , [doi:10.12774/eod_cr.february2016.hironsletal3] Mar 2016
  • Hirons Linda; Klingaman Nicholas; La Niña 2016/2017: Historical impact analysis (Technical report), , [doi:10.12774/eod_cr.february2016.hironsetal4] Mar 2016
  • Hirons Linda; Klingaman Nicholas; El Niño 2015/2016 impact analysis, monthly outlook January 2016 (Technical report), , [doi:10.12774/eod_cr.december2015.hironsletal2] Mar 2016
  • Watson-Parris Duncan; Schutgens Nick A. J.; Cook Nicholas; Kipling Zak; Kershaw P; Gryspeerdt Edward; Lawrence B. N.; Stier Philip; Supplementary material to "Community Intercomparison Suite (CIS) v1.3.2: A tool for intercomparing models and observations". [doi:10.5194/gmd-2016-27-supplement] Mar 2016
  • Watson-Parris Duncan; Schutgens Nick A. J.; Cook Nicholas; Kipling Zak; Kershaw P; Gryspeerdt Edward; Lawrence B. N.; Stier Philip; Community Intercomparison Suite (CIS) v1.3.2: A tool for intercomparing models and observations. [doi:10.5194/gmd-2016-27] Mar 2016
  • Lee J. D.; Whalley L. K.; Heard D. E.; Stone D.; Dunmore R. E.; Hamilton J. F.; Young D. E.; Allan J. D.; Laufs S.; Kleffmann J.; Detailed budget analysis of HONO in central London reveals a missing daytime source. Atmospheric Chemistry And Physics, 16 (5) , 2747–2764, [doi:10.5194/acp-16-2747-2016] Mar 2016
  • Lakey Pascale S. J.; George Ingrid J.; Baeza-Romero Maria T.; Whalley Lisa K.; Heard Dwayne E.; Organics Substantially Reduce HO2Uptake onto Aerosols Containing Transition Metal ions. The Journal Of Physical Chemistry A, 120 (9) , 1421–1430, [doi:10.1021/acs.jpca.5b06316] Mar 2016
  • Nowack Peer Johannes; Abraham NL; Braesicke Peter; Pyle John Adrian; Stratospheric ozone changes under solar geoengineering: implications for UV exposure and air quality. Atmospheric Chemistry And Physics, 16 (6) , 4191–4203, [doi:10.5194/acp-16-4191-2016] Mar 2016
  • Banerjee Antara; Maycock Amanda C.; Archibald Alexander T.; Abraham N. Luke; Telford Paul; Braesicke Peter; Pyle John A.; Drivers of changes in stratospheric and tropospheric ozone between year 2000 and 2100. Atmospheric Chemistry And Physics, 16 (5) , 2727–2746, [doi:10.5194/acp-16-2727-2016] Mar 2016
  • Gregory J. M.; Andrews T.; Good P.; Mauritsen T.; Forster P. M.; Small global-mean cooling due to volcanic radiative forcing. Climate Dynamics, 47 (12) , 3979–3991, [doi:10.1007/s00382-016-3055-1] Mar 2016
  • Kim Jung-Hoon; Chan William N.; Sridhar Banavar; Sharman Robert D.; Williams Paul D.; Strahan Matt; Impact of the North Atlantic Oscillation on Transatlantic Flight Routes and Clear-Air Turbulence. Journal Of Applied Meteorology And Climatology, 55 (3) , 763–771, [doi:10.1175/jamc-d-15-0261.1] Mar 2016
  • Daleu C. L.; Plant R. S.; Woolnough S.; Sessions S.; Herman M. J.; Sobel A; Wang S.; Kim D.; Cheng A.; Bellon G.; Peyrille P.; Ferry F.; Siebesma P.; van Ulft L.; Intercomparison of methods of coupling between convection and large-scale circulation: 2. Comparison over nonuniform surface conditions. Journal Of Advances In Modeling Earth Systems, 8 (1) , 387–405, [doi:10.1002/2015ms000570] Mar 2016
  • Pantillon Florian; Knippertz Peter; Marsham John H.; Panitz Hans-Jürgen; Bischoff-Gauss Ingeborg; Modeling haboob dust storms in large-scale weather and climate models. Journal Of Geophysical Research, 121 (5) , 2090–2109, [doi:10.1002/2015jd024349] Mar 2016
  • Marsham John H.; Parker Douglas J.; Todd Martin C.; Banks Jamie R.; Brindley Helen E.; Garcia-Carreras Luis; Roberts Alexander J.; Ryder Claire L.; The contrasting roles of water and dust in controlling daily variations in radiative heating of the summertime Saharan heat low. Atmospheric Chemistry And Physics, 16 (5) , 3563–3575, [doi:10.5194/acp-16-3563-2016] Mar 2016
  • Beddows D.C.S; Dall'osto M.; Olatunbosun O. A.; Harrison Roy M.; Detection of brake wear aerosols by aerosol time-of-flight mass spectrometry. Atmospheric Environment, 129, 167-175, [doi:10.1016/j.atmosenv.2016.01.018] MAR 2016
  • Bowdalo Dene R.; Evans Mathew J.; Sofen Eric D.; Spectral analysis of atmospheric composition: application to surface ozone model-measurement comparisons. Atmospheric Chemistry And Physics Discussions 1--24, [doi:10.5194/acp-2016-172] Mar 2016
  • Winiberg Frank A. F.; Dillon Terry J.; Orr Stephanie C.; Groß Christoph B. M; Bejan Iustinian; Brumby Charlotte A.; Evans Mathew J.; Smith Shona C.; Heard Dwayne E.; Seakins Paul W.; Direct measurements of OH and other product yields from the HO₂  + CH₃C(O)O₂ reaction. Atmospheric Chemistry And Physics, 16 (6) , 4023--4042, [doi:10.5194/acp-16-4023-2016] Mar 2016
  • Mills Michael J.; Schmidt Anja; Easter Richard; Solomon Susan; Kinnison Douglas E.; Ghan Steven J.; Neely Ryan R.; Marsh Daniel R.; Conley Andrew; Bardeen Charles G.; Gettelman Andrew; Global volcanic aerosol properties derived from emissions, 1990-2014, using CESM1(WACCM). Journal Of Geophysical Research, 121 (5) , 2332–2348, [doi:10.1002/2015jd024290] Mar 2016
  • Chevuturi A.; Dimri A. P.; Investigation of Uttarakhand (India) disaster-2013 using weather research and forecasting model. Natural Hazards, 82 (3) , 1703–1726, [doi:10.1007/s11069-016-2264-6] Mar 2016
  • Taylor Jonathan; Choularton T. W.; Blyth Alan; Flynn M. J.; Williams P. I.; Young G.; Bower K. N.; Crosier J.; Gallagher M.; Dorsey J. R.; Liu Z.; Rosenberg Phil D.; Aerosol measurements during COPE: composition, size and sources of CCN and IN at the interface between marine and terrestrial influences. Atmospheric Chemistry And Physics Discussions 1--39, [doi:10.5194/acp-2016-84] Feb 2016
  • Whalley Lisa K.; Stone Daniel; Bandy Brian; Dunmore Rachel; Hamilton Jacqueline F.; Hopkins James; Lee James D.; Lewis Alastair C.; Heard Dwayne E.; Atmospheric OH reactivity in central London: observations, model predictions and estimates of in situ ozone production. Atmospheric Chemistry And Physics, 16 (4) , 2109–2122, [doi:10.5194/acp-16-2109-2016] Feb 2016
  • Pookkandy Byju; Dommenget Dietmar; Klingaman Nicholas; Wales Scott; Chung Christine; Frauen Claudia; Wolff Holger; The role of local atmospheric forcing on the modulation of the ocean mixed layer depth in reanalyses and a coupled single column ocean model. Climate Dynamics, 47 (9-10) , 2991–3010, [doi:10.1007/s00382-016-3009-7] Feb 2016
  • Xu L.; Williams L. R.; Young D. E.; Allan J. D.; Coe H.; Massoli P.; Fortner E.; Chhabra P.; Herndon S.; Brooks W. A.; Jayne J. T.; Worsnop D. R.; Aiken A. C.; Liu S.; Gorkowski K.; Dubey M. K.; Fleming Z. L.; Visser S.; Prevot A. S. H.; Ng N. L.; Wintertime aerosol chemical composition, volatility, and spatial variability in the greater London area. Atmospheric Chemistry And Physics, 16 (2) , 1139–1160, [doi:10.5194/acp-16-1139-2016] Feb 2016
  • Fyfe John C.; Meehl Gerald A.; England Matthew H.; Mann Michael E.; Santer Benjamin D.; Flato Gregory M.; Hawkins Ed; Gillett Nathan P.; Xie Shang-Ping; Kosaka Yu; Swart Neil C.; Making sense of the early-2000s warming slowdown. Nature Climate Change, 6 (3) , 224–228, [doi:10.1038/nclimate2938] Feb 2016
  • Goessling H. F.; Tietsche S.; Day J. J.; Hawkins Ed; Jung T.; Predictability of the Arctic sea ice edge. Geophysical Research Letters, 43 (4) , 1642–1650, [doi:10.1002/2015gl067232] Feb 2016
  • Rajendran K.; Moroz Irene M.; Read Peter L.; Osprey S. M.; Synchronisation of the equatorial QBO by the annual cycle in tropical upwelling in a warming climate. Quarterly Journal Of The Royal Meteorological Society, 142, 1111-1120, [doi:10.1002/qj.2714] Feb 2016
  • Holloway C. E.; Woolnough S.; The sensitivity of convective aggregation to diabatic processes in idealized radiative-convective equilibrium simulations. Journal Of Advances In Modeling Earth Systems, 8 (1) , 166–195, [doi:10.1002/2015ms000511] Feb 2016
  • Hoskins Brian J.; Yang G. -Y.; The Longitudinal Variation of Equatorial Waves due to Propagation on a Varying Zonal Flow. Journal Of The Atmospheric Sciences, 73 (2) , 605--620, [doi:10.1175/jas-d-15-0167.1] Feb 2016
  • Stone Kane A.; Morgenstern Olaf; Karoly David J.; Klekociuk Andrew R.; French W. John; Abraham N. Luke; Schofield Robyn; Evaluation of the ACCESS – chemistry–climate model for the Southern Hemisphere. Atmospheric Chemistry And Physics, 16 (4) , 2401–2415, [doi:10.5194/acp-16-2401-2016] Feb 2016
  • Sherwen Tomás; Evans M. J.; Carpenter L. J.; Andrews S. J.; Lidster R. T.; Dix B.; Koenig T. K.; Sinreich R.; Ortega I.; Volkamer R.; Saiz-Lopez A.; Prados-Roman C.; Mahajan A. S.; Ordóñez C.; Iodine's impact on tropospheric oxidants: a global model study in GEOS-Chem. Atmospheric Chemistry And Physics, 16 (2) , 1161--1186, [doi:10.5194/acp-16-1161-2016] Feb 2016
  • MacLeod Dave; Cloke Hannah; Pappenberger Florian; Weisheimer A.; Evaluating uncertainty in estimates of soil moisture memory with a reverse ensemble approach. [doi:10.5194/hess-2016-28-supplement] Feb 2016
  • MacLeod Dave; Cloke Hannah; Pappenberger Florian; Weisheimer A.; Evaluating uncertainty in estimates of soil moisture memory with a reverse ensemble approach. [doi:10.5194/hess-2016-28] Feb 2016
  • Sofen E. D.; Bowdalo D.; Evans Mathew J.; How to most effectively expand the global surface ozone observing network. Atmospheric Chemistry And Physics, 16 (3) , 1445--1457, [doi:10.5194/acp-16-1445-2016] Feb 2016
  • Sofen E. D.; Bowdalo D.; Evans M. J.; Apadula F.; Bonasoni P.; Cupeiro M.; Ellul R.; Galbally I. E.; Girgzdiene R.; Luppo S.; Mimouni M.; Nahas A. C.; Saliba M.; TORSETH K; Gridded global surface ozone metrics for atmospheric chemistry model evaluation. Earth System Science Data, 8 (1) , 41--59, [doi:10.5194/essd-8-41-2016] Feb 2016
  • Xia L.; Robock A.; Tilmes S.; Neely III R. R.; Stratospheric sulfate geoengineering could enhance the terrestrial photosynthesis rate. Atmospheric Chemistry And Physics, 16 (3) , 1479–1489, [doi:10.5194/acp-16-1479-2016] Feb 2016
  • MacIntosh C. R.; Allan R. P.; Baker L. H.; Bellouin N.; Collins W.; Mousavi Z.; Shine K. P.; Contrasting fast precipitation responses to tropospheric and stratospheric ozone forcing. Geophysical Research Letters, 43 (3) , 1263--1271, [doi:10.1002/2015gl067231] Feb 2016
  • Vinke Kira; Martin Maria A; Adams Sophie; Baarsch Florent; Bondeau Alberte; Coumou Dim; Donner Reik V; Menon Arathy; Perrette Mahé; Rehfeld Kira; Robinson Alexander; Rocha Marcia; Schaeffer Michiel; Schwan Susanne; Serdeczny Olivia; Svirejeva-Hopkins Anastasia; Climatic risks and impacts in South Asia: extremes of water scarcity and excess. Regional Environmental Change [doi:10.1007/s10113-015-0924-9] Feb 2016
  • Curio J.; Scherer Dieter; Seasonality and spatial variability of dynamic precipitation controls on the Tibetan Plateau. [doi:10.5194/esd-2016-1-supplement] Feb 2016
  • Curio J.; Scherer Dieter; Seasonality and spatial variability of dynamic precipitation controls on the Tibetan Plateau. Earth System Dynamics Discussions 1--30, [doi:10.5194/esd-2016-1] Feb 2016
  • Davolio S.; Volonté A.; Manzato A.; Pucillo A.; Cicogna A.; Ferrario M. E.; Mechanisms producing different precipitation patterns over north-eastern Italy: insights from HyMeX-SOP1 and previous events. Quarterly Journal Of The Royal Meteorological Society, 142, 188–205, [doi:10.1002/qj.2731] Feb 2016
  • Michael G.G.; Walter S.H.G.; Kneissl T.; Zuschneid W.; Gross C.; McGuire P. C.; Dumke A.; Schreiner B.; van Gasselt S.; Gwinner K.; Jaumann R.; Systematic processing of Mars Express HRSC panchromatic and colour image mosaics: Image equalisation using an external brightness reference. Planetary And Space Science, 121, 18--26, [doi:10.1016/j.pss.2015.12.002] Feb 2016
  • Han Jongil; Witek Marcin L.; Teixeira Joao; Sun Ruiyu; Pan Hua-Lu; Fletcher Jennifer K.; Bretherton Christopher S.; Implementation in the NCEP GFS of a Hybrid Eddy-Diffusivity Mass-Flux (EDMF) Boundary Layer Parameterization with Dissipative Heating and Modified Stable Boundary Layer Mixing. Weather And Forecasting, 31 (1) , 341--352, [doi:10.1175/waf-d-15-0053.1] Feb 2016

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