Plymouth Marine Science Electronic Archive (PlyMSEA)
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Plymouth Marine Science Electronic Archive (PlyMSEA)
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Bange, HW; Andreae, MO; Lal, S; Law, CS; Naqvi, SWA; Patra, PK; Rixen, T; Upstill-Goddard, RC. 2001 Nitrous oxide emissions from the Arabian Sea: A synthesis. Atmospheric Chemistry and Physics, 1. 61 - 71.
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Bell, TG; De Bruyn, W; Marandino, CA; Miller, SD; Law, CS; Smith, MJ; Saltzman, ES. 2015 Dimethylsulfide gas transfer coefficients from algal blooms in the Southern Ocean. Atmospheric Chemistry and Physics, 15 (4). 1783-1794. https://doi.org/10.5194/acp-15-1783-2015
Bell, TG; De Bruyn, W; Miller, SD; Ward, B; Christensen, K; Saltzman, ES. 2013 Air/sea DMS gas transfer in the North Atlantic: evidence for limited interfacial gas exchange at high wind speed. Atmospheric Chemistry and Physics, 13. 11073-11087. https://doi.org/10.5194/acp-13-11073-2013
Bell, TG; Landwehr, S; Miller, SD; de Bruyn, WJ; Callaghan, AH; Scanlon, B; Ward, B; Yang, M; Saltzman, ES. 2017 Estimation of bubble-mediated air–sea gas exchange from concurrent DMS and CO2 transfer velocities at intermediate–high wind speeds. Atmospheric Chemistry and Physics, 17 (14). 9019-9033. https://doi.org/10.5194/acp-17-9019-2017
Butler, JH; Bell, TG; Hall, BD; Quack, B; Carpenter, LJ; Williams, J. 2010 Technical Note: Ensuring consistent, global measurements of short-lived halocarbon gases in the ocean and atmosphere. Atmospheric Chemistry and Physics, 10. 327-330. https://doi.org/10.5194/acp-10-327-2010
Dong, Y; Yang, M; Bakker, DCE; Kitidis, V; Bell, TG. 2021 Uncertainties in eddy covariance air–sea CO<sub>2</sub> flux measurements and implications for gas transfer velocity parameterisations. Atmospheric Chemistry and Physics, 21 (10). 8089-8110. https://doi.org/10.5194/acp-21-8089-2021
Estelles, V; Campanelli, M; Smyth, TJ; Utrillas, MP; Martínez-Lozano, JA. 2012 Evaluation of the new ESR network software for the retrieval of direct sun products from cimel ce318 and prede pom01 sun-sky radiometers.. Atmospheric Chemistry and Physics. 11619 - 11630. https://doi.org/10.5194/acp-12-11619-2012
Landwehr, S; Miller, SD; Smith, MJ; Bell, TG; Saltzman, ES; Ward, B. 2018 Using eddy covariance to measure the dependence of air–sea CO2 exchange rate on friction velocity. Atmospheric Chemistry and Physics, 18 (6). 4297-4315. https://doi.org/10.5194/acp-18-4297-2018
Law, CS; Smith, MJ; Harvey, MJ; Bell, TG; Cravigan, LT; Elliott, FC; Lawson, SJ; Lizotte, M; Marriner, A; McGregor, J; Ristovski, Z; Safi, KA; Saltzman, ES; Vaattovaara, P; Walker, CF. 2017 Overview and preliminary results of the Surface Ocean Aerosol Production (SOAP) campaign. Atmospheric Chemistry and Physics, 17 (22). 13645-13667. https://doi.org/10.5194/acp-17-13645-2017
Lawson, SJ; Law, CS; Harvey, MJ; Bell, TG; Walker, CF; de Bruyn, WJ; Saltzman, ES. 2020 Methanethiol, dimethyl sulfide and acetone over biologically productive waters in the southwest Pacific Ocean. Atmospheric Chemistry and Physics, 20 (5). 3061-3078. https://doi.org/10.5194/acp-20-3061-2020
Phillips, DP; Hopkins, FE; Bell, TG; Liss, PS; Nightingale, PD; Reeves, CE; Wohl, C; Yang, M. 2021 Air–sea exchange of acetone, acetaldehyde, DMS and isoprene at a UK coastal site. Atmospheric Chemistry and Physics, 21 (13). 10111-10132. https://doi.org/10.5194/acp-21-10111-2021
Sanchez, KJ; Zhang, B; Liu, H; Brown, MD; Crosbie, EC; Gallo, F; Hair, JW; Hostetler, CA; Jordan, CE; Robinson, CE; Scarino, AJ; Shingler, TJ; Shook, MA; Thornhill, KL; Wiggins, EB; Winstead, EL; Ziemba, LD; Saliba, G; Lewis, SL; Russell, LM; Quinn, PK; Bates, TS; Porter, J; Bell, TG; Gaube, P; Saltzman, ES; Behrenfeld, MJ; Moore, RH. 2022 North Atlantic Ocean SST-gradient-driven variations in aerosol and cloud evolution along Lagrangian cold-air outbreak trajectories. Atmospheric Chemistry and Physics, 22 (4). 2795-2815. https://doi.org/10.5194/acp-22-2795-2022
Sanchez, KJ; Zhang, B; Liu, H; Saliba, G; Chen, C-L; Lewis, SL; Russell, LM; Shook, MA; Crosbie, EC; Ziemba, LD; Brown, MD; Shingler, TJ; Robinson, CE; Wiggins, EB; Thornhill, KL; Winstead, EL; Jordan, C; Quinn, PK; Bates, TS; Porter, J; Bell, TG; Saltzman, ES; Behrenfeld, MJ; Moore, RH. 2021 Linking marine phytoplankton emissions, meteorological processes, and downwind particle properties with FLEXPART. Atmospheric Chemistry and Physics, 21 (2). 831-851. https://doi.org/10.5194/acp-21-831-2021
Smith, MJ; Walker, CF; Bell, TG; Harvey, MJ; Saltzman, ES; Law, CS. 2018 Gradient flux measurements of sea–air DMS transfer during the Surface Ocean Aerosol Production (SOAP) experiment. Atmospheric Chemistry and Physics, 18 (8). 5861-5877. https://doi.org/10.5194/acp-18-5861-2018
Yang, M; Beale, R; Liss, PS; Johnson, M; Blomquist, BW; Nightingale, PD. 2014 Air–sea fluxes of oxygenated volatile organic compounds across the Atlantic Ocean. Atmospheric Chemistry and Physics, 14 (14). 7499-7517. https://doi.org/10.5194/acp-14-7499-2014
Yang, M; Beale, R; Smyth, TJ; Blomquist, BW. 2013 Measurements of OVOC fluxes by eddy covariance using a proton-transfer-reaction mass spectrometer – method development at a coastal site. Atmospheric Chemistry and Physics, 13 (13). 6165-6184. https://doi.org/10.5194/acp-13-6165-2013
Yang, M; Bell, TG; Hopkins, FE; Kitidis, V; Cazenave, P; Nightingale, PD; Yelland, MJ; Pascal, RW; Prytherch, J.; Brooks, I. M.; Smyth, TJ. 2016 Air-sea fluxes of CO2 and CH4 from the Penlee Point Atmospheric Observatory on the south-west coast of the UK. Atmospheric Chemistry and Physics, 16 (9). 5745-5761. https://doi.org/10.5194/acp-16-5745-2016
Yang, M; Fleming, ZL. 2019 Estimation of atmospheric total organic carbon (TOC) – paving the path towards carbon budget closure. Atmospheric Chemistry and Physics, 19 (1). 459-471. https://doi.org/10.5194/acp-19-459-2019
Yang, M; Norris, SJ; Bell, TG; Brooks, IM. 2019 Sea spray fluxes from the southwest coast of the United Kingdom &#8211; dependence on wind speed and wave height. Atmospheric Chemistry and Physics, 19 (24). 15271-15284. https://doi.org/10.5194/acp-19-15271-2019
Ziska, F; Quack, B; Abrahamsson, K; Archer, SD; Atlas, E; Bell, TG; Butler, JH; Carpenter, LJ; Jones, CE; Harris, NRP; Hepach, H; Heumann, KG; Hughes, C; Kuss, J; Krüger, K; Liss, PS; Moore, RM; Orlikowska, A; Raimund, S; Reeves, CE; Reifenhäuser, W; Robinson, AD; Schall, C; Tanhua, T; Tegtmeier, S; Turner, S; Wang, L; Wallace, D; Williams, J; Yamamoto, H; Yvon-Lewis, S; Yokouchi, Y. 2013 Global sea-to-air flux climatology for bromoform, dibromomethane and methyl iodide. Atmospheric Chemistry and Physics, 13 (17). 8915-8934. https://doi.org/10.5194/acp-13-8915-2013