P185
Iodide accumulation provides kelp with an inorganic antioxidant impacting atmospheric chemistryA pervasive role for biomass burning in tropical high ozone/low water structuresThe Essential Role for Laboratory Studies in Atmospheric Chemistry.Iodine in the marine boundary layer.In vivo speciation studies and antioxidant properties of bromine in Laminaria digitata reinforce the significance of iodine accumulation for kelps.Commemorating two centuries of iodine research: an interdisciplinary overview of current research.Ocean-atmosphere trace gas exchange.Chemistry and release of gases from the surface ocean.The air we breathe: Past, present, and future: general discussion.The distribution of iodide at the sea surface.Multiannual observations of acetone, methanol, and acetaldehyde in remote tropical atlantic air: implications for atmospheric OVOC budgets and oxidative capacity.Extensive halogen-mediated ozone destruction over the tropical Atlantic Ocean.Measurement and modelling of air pollution and atmospheric chemistry in the U.K. West Midlands conurbation: overview of the PUMA Consortium project.Microfluidic derivatisation technique for determination of gaseous molecular iodine with GC-MS.Water-soluble organic composition of the Arctic sea surface microlayer and association with ice nucleation ability.Effects of halogens on European air-quality.Basin-Scale Observations of Monoterpenes in the Arctic and Atlantic Oceans.Highlights from the Faraday Discussion meeting "Atmospheric chemistry in the Anthropocene", York, 2017.Modification of ozone deposition and I2 emissions at the air-aqueous interface by dissolved organic carbon of marine origin.New tools for atmospheric chemistry: general discussion.Atmospheric chemistry and the biosphere: general discussion.The Convective Transport of Active Species in the Tropics (CONTRAST) Experiment.Evidence of reactive iodine chemistry in the Arctic boundary layerAutomated measurement and calibration of reactive volatile halogenated organic compounds in the atmosphereAtmospheric chemistry processes: general discussionEnergy and ozone fluxes over sea iceEmission of volatile halogenated compounds, speciation and localization of bromine and iodine in the brown algal genome model Ectocarpus siliculosusGlobal impacts of tropospheric halogens (Cl, Br, I) on oxidants and composition in GEOS-ChemHalogen chemistry reduces tropospheric O<sub>3</sub> radiative forcingFour years (2011–2015) of total gaseous mercury measurements from the Cape Verde Atmospheric ObservatoryEvidence for renoxification in the tropical marine boundary layerHONO measurement by differential photolysisA comparison of very short lived halocarbon (VSLS) and DMS aircraft measurements in the tropical west Pacific from CAST, ATTREX and CONTRASTSurface fluxes of bromoform and dibromomethane over the tropical western Pacific inferred from airborne in situ measurementsA self-consistent, multivariate method for the determination of gas-phase rate coefficients, applied to reactions of atmospheric VOCs and the hydroxyl radicalDiscrepancy between simulated and observed ethane and propane levels explained by underestimated fossil emissionsGlobal impact of nitrate photolysis in sea-salt aerosol on NOx, OH, and O3 in the marine boundary layerImpacts of bromine and iodine chemistry on tropospheric OH and HO<sub>2</sub>: comparing observations with box and global model perspectivesObservations of ozone-poor air in the tropical tropopause layerQuantifying the vertical transport of CHBr<sub>3</sub> and CH<sub>2</sub>Br<sub>2</sub> over the western Pacific
P50
Q24655400-7CC07517-3D99-4E1A-9F1A-46099CA04A9BQ28601655-4344F5A7-7D4F-4CE5-BEC6-12937EA51E8BQ31160125-4688780A-F2B8-4824-82D7-CA73AE59D26FQ35603745-E457AD1E-5845-45C0-B114-9DD880507C3CQ36972144-24521AF9-5E0B-4C17-B53F-60475F5C0FAEQ37960413-6E5F80CC-329B-46BB-A341-25F8C0F524BFQ38028367-96182209-4263-4A22-A900-D36712AB7F97Q38391793-5E020FFA-13FC-4C8A-9220-C777FC191DB9Q38644493-7F08C56F-7006-47C6-A0FD-D478F8D7A253Q38938012-68B2678A-220F-4B4E-93EA-CD14F3C3A5FFQ39387855-864319C0-BC7A-457A-A361-1766F60DD8FBQ39387863-ABB33D04-65E6-471B-BCA6-E614188EF573Q39736316-09BC8E34-A951-4697-8F9E-3DB831B276A9Q42696120-F003DAA3-8B80-40B2-AC2F-BCE12233F00BQ47700682-A5BE28F2-F848-4896-9E23-0AB06D221368Q48328169-584EEB6C-3A4B-4615-824C-B2A3A1BF66FBQ48330541-EF11AC01-7F3E-4A63-B790-E2212EA0CEF2Q50096023-DCAFE0C3-AA63-4F73-9432-CEFBF3CB7FA6Q53102378-31028983-76CF-408C-A8D3-4E764A621210Q53119139-F6CBF90B-8E6A-4972-A2FE-6E8772C770F4Q53920240-AC7DCD7F-4D8D-4941-95F7-97CE14B201B6Q55031681-94F29CF1-582A-48FB-A618-CDB9F5B49052Q56750197-DECD6B0F-C091-4A32-9FA0-E82FD31C66A4Q56951677-FB7DEBB8-1025-4D53-9303-7EF0A3F7B406Q57589111-4A94D613-5CFA-4162-B443-DC0C73D843D2Q57589189-2D57F25B-362B-4DAE-8DC5-457FF8A4EF84Q57764660-F4243962-DB40-4A21-A836-7378042B9785Q57880631-C902446C-73E8-483C-BDF7-82433BAC8A9EQ57881563-CC6C3A05-6A5D-407A-9667-09C311E6E6D0Q57881975-AAEBE12B-9DF9-4AD7-9F1A-F43B532487AFQ57882122-BD799980-F2BD-447D-9CBC-E5D0E998374DQ57884448-AA147B3A-B910-4704-B5E5-A4541D46567BQ57884634-5A4AF240-B9FE-4BBF-9E3C-23894CFC3DB6Q57895552-51965001-AC8F-479B-9DCB-0B099059F1F5Q57895577-F4F14609-A552-4E87-911F-01DDD6B0A808Q57895590-19FF5A8E-1F63-4632-BDC8-748BD8A711CAQ57895609-9E4A546E-3803-461F-ACA7-E4CDEFFC5E45Q57895619-7DFFEFA1-AA3F-4FFE-AEDA-453CA3F5635AQ57895629-DB70C6B9-393F-4248-B654-7B662229FE50Q57895638-7A61542F-9D0F-4757-96F2-52E9FE5C9B92
P50
description
Professor of physical chemistry
@en
wetenschapper
@nl
name
Lucy Carpenter
@ast
Lucy Carpenter
@en
Lucy Carpenter
@es
Lucy Carpenter
@nl
Lucy Carpenter
@pt
Lucy Carpenter
@sl
type
label
Lucy Carpenter
@ast
Lucy Carpenter
@en
Lucy Carpenter
@es
Lucy Carpenter
@nl
Lucy Carpenter
@pt
Lucy Carpenter
@sl
altLabel
Lucy J. Carpenter
@en
Lucy Jane Carpenter
@en
prefLabel
Lucy Carpenter
@ast
Lucy Carpenter
@en
Lucy Carpenter
@es
Lucy Carpenter
@nl
Lucy Carpenter
@pt
Lucy Carpenter
@sl
P166
P106
P1153
7102689176
P184
P1960
8IClpiUAAAAJ
P21
P213
0000 0001 3520 6867
P31
P463
P4789
P496
0000-0002-6257-3950
P569
1969-01-01T00:00:00Z