Articles citing this paper
The CLAW hypothesis: a review of the major developments
Greg P. Ayers A and Jill M. Cainey B C
+ Author Affiliations
- Author Affiliations
A CSIRO Marine and Atmospheric Research, Aspendale, Vic. 3195, Australia.
B Cape Grim Baseline Air Pollution Station, Bureau of Meteorology, Smithton, Tas. 7330, Australia.
C Corresponding author. Email: j.cainey@bom.gov.au
Environmental Chemistry 4(6) 366-374 https://doi.org/10.1071/EN07080
Submitted: 29 October 2007 Accepted: 12 November 2007 Published: 6 December 2007
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Volatile Organic Compound Emissions From Soil Following Wetting Events
Rossabi Sam,
Choudoir Mallory,
Helmig Detlev,
Hueber Jacques, Fierer Noah
Journal of Geophysical Research: Biogeosciences. 2018 123(6). p.1988
Sulfur isotope variability of oceanic DMSP generation and its contributions to marine biogenic sulfur emissions
Oduro Harry,
Van Alstyne Kathryn L., Farquhar James
Proceedings of the National Academy of Sciences. 2012 109(23). p.9012
The Nexus between Sea Ice and Polar Emissions of Marine Biogenic Aerosols
Gabric Albert,
Matrai Patricia,
Jones Graham, Middleton Julia
Bulletin of the American Meteorological Society. 2018 99(1). p.61
A look at the CLAW hypothesis from an atmospheric chemistry point of view
von Glasow Roland
Environmental Chemistry. 2007 4(6). p.379
Summertime Primary and Secondary Contributions to Southern Ocean Cloud Condensation Nuclei
Fossum Kirsten N.,
Ovadnevaite Jurgita,
Ceburnis Darius,
Dall’Osto Manuel,
Marullo Salvatore,
Bellacicco Marco,
Simó Rafel,
Liu Dantong,
Flynn Michael,
Zuend Andreas, O’Dowd Colin
Scientific Reports. 2018 8(1).
Impacts of methanesulfonate on the cloud condensation nucleation activity of sea salt aerosol
Tang Mingjin,
Guo Liya,
Bai Yao,
Huang Ru-Jin,
Wu Zhijun,
Wang Zhe,
Zhang Guohua,
Ding Xiang,
Hu Min, Wang Xinming
Atmospheric Environment. 2019 201 p.13
Transcriptome reconstruction and functional analysis of eukaryotic marine plankton communities via high-throughput metagenomics and metatranscriptomics
Vorobev Alexey,
Dupouy Marion,
Carradec Quentin,
Delmont Tom O.,
Annamalé Anita,
Wincker Patrick, Pelletier Eric
Genome Research. 2020 30(4). p.647
CCN activity of size-selected aerosol at a Pacific coastal location
Yakobi-Hancock J. D.,
Ladino L. A.,
Bertram A. K.,
Huffman J. A.,
Jones K.,
Leaitch W. R.,
Mason R. H.,
Schiller C. L.,
Toom-Sauntry D.,
Wong J. P. S., Abbatt J. P. D.
Atmospheric Chemistry and Physics. 2014 14(22). p.12307
Southern Ocean phytoplankton increases cloud albedo and reduces precipitation
Krüger Olaf, Graßl Hartmut
Geophysical Research Letters. 2011 38(8). p.n/a
Brazilian Studies in Philosophy and History of Science (2011)
Spatiotemporal Variability of Dimethylsulphoniopropionate on a Fringing Coral Reef: The Role of Reefal Carbonate Chemistry and Environmental Variability
Burdett Heidi L.,
Donohue Penelope J. C.,
Hatton Angela D.,
Alwany Magdy A.,
Kamenos Nicholas A., Harder Tilmann
PLoS ONE. 2013 8(5). p.e64651
Decreasing particle number concentrations in a warming atmosphere and implications
Yu F.,
Luo G.,
Turco R. P.,
Ogren J. A., Yantosca R. M.
Atmospheric Chemistry and Physics. 2012 12(5). p.2399
A Coupled Evaluation of Operational MODIS and Model Aerosol Products for Maritime Environments Using Sun Photometry: Evaluation of the Fine and Coarse Mode
Reid Jeffrey S.,
Gumber Amanda,
Zhang Jianglong,
Holz Robert E.,
Rubin Juli I.,
Xian Peng,
Smirnov Alexander,
Eck Thomas F.,
O’Neill Norman T.,
Levy Robert C.,
Reid Elizabeth A.,
Colarco Peter R.,
Benedetti Angela, Tanaka Taichu
Remote Sensing. 2022 14(13). p.2978
Climate Change Impacts on the Marine Cycling of Biogenic Sulfur: A Review
Jackson Rebecca, Gabric Albert
Microorganisms. 2022 10(8). p.1581
Profiles of volatile organic compound emissions from soils amended with organic waste products
Abis Letizia,
Loubet Benjamin,
Ciuraru Raluca,
Lafouge Florence,
Dequiedt Samuel,
Houot Sabine,
Maron Pierre Alain, Bourgeteau-Sadet Sophie
Science of The Total Environment. 2018 636 p.1333
Seasonal variations and vertical features of aerosol particles in the Antarctic troposphere
Hara K.,
Osada K.,
Nishita-Hara C., Yamanouchi T.
Atmospheric Chemistry and Physics. 2011 11(11). p.5471
An assessment of the significance of sulphate sources over the Atlantic Ocean based on sulphur isotope data
Lin C.T.,
Baker A.R.,
Jickells T.D.,
Kelly S., Lesworth T.
Atmospheric Environment. 2012 62 p.615
The future of the northeast Atlantic benthic flora in a high CO2 world
Brodie Juliet,
Williamson Christopher J.,
Smale Dan A.,
Kamenos Nicholas A.,
Mieszkowska Nova,
Santos Rui,
Cunliffe Michael,
Steinke Michael,
Yesson Christopher,
Anderson Kathryn M.,
Asnaghi Valentina,
Brownlee Colin,
Burdett Heidi L.,
Burrows Michael T.,
Collins Sinead,
Donohue Penelope J. C.,
Harvey Ben,
Foggo Andrew,
Noisette Fanny,
Nunes Joana,
Ragazzola Federica,
Raven John A.,
Schmidt Daniela N.,
Suggett David,
Teichberg Mirta, Hall‐Spencer Jason M.
Ecology and Evolution. 2014 4(13). p.2787
Extension, development, and evaluation of the representation of the OH-initiated dimethyl sulfide (DMS) oxidation mechanism in the Master Chemical Mechanism (MCM) v3.3.1 framework
Jacob Lorrie Simone Denise,
Giorio Chiara, Archibald Alexander Thomas
Atmospheric Chemistry and Physics. 2024 24(5). p.3329
Relationships between atmospheric organic compounds and air-mass exposure to marine biology
Arnold S. R.,
Spracklen D. V.,
Gebhardt S.,
Custer T.,
Williams J.,
Peeken I., Alvain S.
Environmental Chemistry. 2010 7(3). p.232
Dimethyl sulfide dynamics in first-year sea ice melt ponds in the Canadian Arctic Archipelago
Gourdal Margaux,
Lizotte Martine,
Massé Guillaume,
Gosselin Michel,
Poulin Michel,
Scarratt Michael,
Charette Joannie, Levasseur Maurice
Biogeosciences. 2018 15(10). p.3169
The Future of the World's Climate (2012)
Cloud condensation nuclei over the Southern Ocean: wind dependence and seasonal cycles
Gras John L., Keywood Melita
Atmospheric Chemistry and Physics. 2017 17(7). p.4419
Strong linkages between dimethylsulphoniopropionate (DMSP) and phytoplankton community physiology in a large subtropical and tropical Atlantic Ocean data set
Bell Thomas G.,
Poulton Alex J., Malin Gill
Global Biogeochemical Cycles. 2010 24(3).
ESD Reviews: Climate feedbacks in the Earth system and prospects for their evaluation
Heinze Christoph,
Eyring Veronika,
Friedlingstein Pierre,
Jones Colin,
Balkanski Yves,
Collins William,
Fichefet Thierry,
Gao Shuang,
Hall Alex,
Ivanova Detelina,
Knorr Wolfgang,
Knutti Reto,
Löw Alexander,
Ponater Michael,
Schultz Martin G.,
Schulz Michael,
Siebesma Pier,
Teixeira Joao,
Tselioudis George, Vancoppenolle Martin
Earth System Dynamics. 2019 10(3). p.379
Forests, atmospheric water and an uncertain future: the new biology of the global water cycle
Sheil Douglas
Forest Ecosystems. 2018 5(1).
Biogeochemical Coupling between Ocean and Atmosphere—A Tribute to the Lifetime Contribution of Robert A. Duce
Brooks Sarah D.,
Jickells Tim D.,
Liss Peter S.,
Thornton Daniel C. O., Zhang Renyi
Journal of the Atmospheric Sciences. 2019 76(11). p.3289
On the link between ocean biota emissions, aerosol, and maritime clouds: Airborne, ground, and satellite measurements off the coast of California
Sorooshian Armin,
Padró Luz T.,
Nenes Athanasios,
Feingold Graham,
McComiskey Allison,
Hersey Scott P.,
Gates Harmony,
Jonsson Haflidi H.,
Miller Steven D.,
Stephens Graeme L.,
Flagan Richard C., Seinfeld John H.
Global Biogeochemical Cycles. 2009 23(4).
The effect of CO2 concentration on DMSP production in Gephyrocapsa oceanica (Isochrysidales, Coccolithophyceae)
Larsen S.H., Beardall J.
Phycologia. 2021 60(5). p.439
The Pacific Arctic Region (2014)
Dissolved organic matter (DOM) release by phytoplankton in the contemporary and future ocean
Thornton Daniel C.O.
European Journal of Phycology. 2014 49(1). p.20
Fine-scale spatial and temporal variability of surface water dimethylsufide (DMS) concentrations and sea–air fluxes in the NE Subarctic Pacific
Asher Elizabeth C.,
Merzouk Anissa, Tortell Philippe D.
Marine Chemistry. 2011 126(1-4). p.63
Insights into the molecular composition of semi-volatile aerosols in the summertime central Arctic Ocean using FIGAERO-CIMS
Siegel Karolina,
Karlsson Linn,
Zieger Paul,
Baccarini Andrea,
Schmale Julia,
Lawler Michael,
Salter Matthew,
Leck Caroline,
Ekman Annica M. L.,
Riipinen Ilona, Mohr Claudia
Environmental Science: Atmospheres. 2021 1(4). p.161
Important Roles and Formation of Atmospheric Organosulfates in Marine Organic Aerosols: Influence of Phytoplankton Emissions and Anthropogenic Pollutants
Wang Yujue,
Zhang Yanjing,
Li Wenshuai,
Wu Guanru,
Qi Yuxuan,
Li Shubin,
Zhu Wenqing,
Yu Jian Zhen,
Yu Xu,
Zhang Hong-Hai,
Sun Jun,
Wang Wencai,
Sheng Lifang,
Yao Xiaohong,
Gao Huiwang,
Huang Cheng,
Ma Yingge, Zhou Yang
Environmental Science & Technology. 2023 57(28). p.10284
Methods for biogeochemical studies of sea ice: The state of the art, caveats, and recommendations
Miller Lisa A.,
Fripiat Francois,
Else Brent G.T.,
Bowman Jeff S.,
Brown Kristina A.,
Collins R. Eric,
Ewert Marcela,
Fransson Agneta,
Gosselin Michel,
Lannuzel Delphine,
Meiners Klaus M.,
Michel Christine,
Nishioka Jun,
Nomura Daiki,
Papadimitriou Stathys,
Russell Lynn M.,
Sørensen Lise Lotte,
Thomas David N.,
Tison Jean-Louis,
van Leeuwe Maria A.,
Vancoppenolle Martin,
Wolff Eric W.,
Zhou Jiayun,
Deming Jody W., Ackley Stephen F.
Elementa: Science of the Anthropocene. 2015 3
Effect of ocean acidification on marine phytoplankton and biogeochemical cycles
Sugie Koji, Yoshimura Takeshi
Oceanography in Japan. 2011 20(5). p.101
Observational evidence for the formation of DMS-derived aerosols during Arctic phytoplankton blooms
Park Ki-Tae,
Jang Sehyun,
Lee Kitack,
Yoon Young Jun,
Kim Min-Seob,
Park Kihong,
Cho Hee-Joo,
Kang Jung-Ho,
Udisti Roberto,
Lee Bang-Yong, Shin Kyung-Hoon
Atmospheric Chemistry and Physics. 2017 17(15). p.9665
Hygroscopicity and CCN potential of DMS-derived aerosol particles
Rosati Bernadette,
Isokääntä Sini,
Christiansen Sigurd,
Jensen Mads Mørk,
Moosakutty Shamjad P.,
Wollesen de Jonge Robin,
Massling Andreas,
Glasius Marianne,
Elm Jonas,
Virtanen Annele, Bilde Merete
Atmospheric Chemistry and Physics. 2022 22(20). p.13449
Multiphase Chemistry at the Atmosphere–Biosphere Interface Influencing Climate and Public Health in the Anthropocene
Pöschl Ulrich, Shiraiwa Manabu
Chemical Reviews. 2015 115(10). p.4440
Nitrate radical addition–elimination reactions of atmospherically relevant sulfur-containing molecules
Kurtén Theo,
Lane Joseph R.,
Jørgensen Solvejg, Kjaergaard Henrik G.
Physical Chemistry Chemical Physics. 2010 12(39). p.12833
The validation and measurement uncertainty of an automated gas chromatograph for marine studies of atmospheric dimethylsulfide
Swan Hilton B.,
Ivey John P.,
Jones Graham B., Eyre Bradley D.
Analytical Methods. 2015 7(9). p.3893
Dimethyl Sulfide‐Induced Increase in Cloud Condensation Nuclei in the Arctic Atmosphere
Park Ki‐Tae,
Yoon Young Jun,
Lee Kitack,
Tunved Peter,
Krejci Radovan,
Ström Johan,
Jang Eunho,
Kang Hyo Jin,
Jang Sehyun,
Park Jiyeon,
Lee Bang Yong,
Traversi Rita,
Becagli Silvia, Hermansen Ove
Global Biogeochemical Cycles. 2021 35(7).
Coupling between dimethylsulfide emissions and the ocean - atmosphere exchange of ammonia
Johnson M. T., Bell T. G.
Environmental Chemistry. 2008 5(4). p.259
Algal volatiles – the overlooked chemical language of aquatic primary producers
Saha Mahasweta, Fink Patrick
Biological Reviews. 2022 97(6). p.2162
Study of global cloud droplet number concentration with A-Train satellites
Zeng S.,
Riedi J.,
Trepte C. R.,
Winker D. M., Hu Y.-X.
Atmospheric Chemistry and Physics. 2014 14(14). p.7125
Dimethyl sulfide air-sea fluxes and biogenic sulfur as a source of new aerosols in the Arctic fall
Rempillo Ofelia,
Seguin Alison Michelle,
Norman Ann-Lise,
Scarratt Michael,
Michaud Sonia,
Chang Rachel,
Sjostedt Steve,
Abbatt Jon,
Else Brent,
Papakyriakou Tim,
Sharma Sangeeta,
Grasby Steve, Levasseur Maurice
Journal of Geophysical Research. 2011 116
Oceanic Dimethyl Sulfide Emission and New Particle Formation around the Coast of Antarctica: A Modeling Study of Seasonal Variations and Comparison with Measurements
Yu Fangqun, Luo Gan
Atmosphere. 2010 1(1). p.34
Southern Ocean latitudinal gradients of cloud condensation nuclei
Humphries Ruhi S.,
Keywood Melita D.,
Gribben Sean,
McRobert Ian M.,
Ward Jason P.,
Selleck Paul,
Taylor Sally,
Harnwell James,
Flynn Connor,
Kulkarni Gourihar R.,
Mace Gerald G.,
Protat Alain,
Alexander Simon P., McFarquhar Greg
Atmospheric Chemistry and Physics. 2021 21(16). p.12757
Influence of dimethyl sulfide on the carbon cycle and biological production
Wang Shanlin,
Maltrud Mathew,
Elliott Scott,
Cameron-Smith Philip, Jonko Alexandra
Biogeochemistry. 2018 138(1). p.49
Optimisation of a fast DMS sensor (FDS) for real time quantification of dimethyl sulfide production by algae
Green Benjamin C.,
Suggett David J.,
Hills Alan, Steinke Michael
Biogeochemistry. 2012 110(1-3). p.163
Wet deposition in shallow convection over the Southern Ocean
Alinejadtabrizi T.,
Lang F.,
Huang Y.,
Ackermann L.,
Keywood M.,
Ayers G.,
Krummel P.,
Humphries R.,
Williams A. G.,
Siems S. T., Manton M.
npj Climate and Atmospheric Science. 2024 7(1).
The Potential for Great Barrier Reef Regional Climate Regulation via Dimethylsulfide Atmospheric Oxidation Products
Swan Hilton B.
Frontiers in Marine Science. 2022 9
Insights into the Regulation of DMSP Synthesis in the Diatom Thalassiosira pseudonana through APR Activity, Proteomics and Gene Expression Analyses on Cells Acclimating to Changes in Salinity, Light and Nitrogen
Kettles Nicola Louise,
Kopriva Stanislav,
Malin Gill, De Smet Ive
PLoS ONE. 2014 9(4). p.e94795
A study on the low‐altitude clouds over the Southern Ocean using the DARDAR‐MASK
Huang Yi,
Siems Steven T.,
Manton Michael J.,
Protat Alain, Delanoë Julien
Journal of Geophysical Research: Atmospheres. 2012 117(D18).
Dimethylated sulfur compounds in coral-reef ecosystems
Deschaseaux Elisabeth,
Jones Graham, Swan Hilton
Environmental Chemistry. 2016 13(2). p.239
Environmental Chemistry: Already having an Impact
Green Alison
Environmental Chemistry. 2008 5(4). p.i
Commentary regarding “Simulated perturbation in the sea-to-air flux of dimethylsulfide and the impact on polar climate”
Yang Guipeng
Journal of Oceanology and Limnology. 2021 39(2). p.385
New Particle Formation and Growth from Dimethyl Sulfide Oxidation by Hydroxyl Radicals
Rosati Bernadette,
Christiansen Sigurd,
Wollesen de Jonge Robin,
Roldin Pontus,
Jensen Mads Mørk,
Wang Kai,
Moosakutty Shamjad P.,
Thomsen Ditte,
Salomonsen Camilla,
Hyttinen Noora,
Elm Jonas,
Feilberg Anders,
Glasius Marianne, Bilde Merete
ACS Earth and Space Chemistry. 2021 5(4). p.801
Reactions of the methylsulfinyl radical [CH3(O)S˙] with oxygen (3O2) in solid argon
Reisenauer Hans Peter,
Romański Jarosław,
Mlostoń Grzegorz, Schreiner Peter R.
Chemical Communications. 2015 51(49). p.10022
Improved prediction of dimethyl sulfide (DMS) distributions in the northeast subarctic Pacific using machine-learning algorithms
McNabb Brandon J., Tortell Philippe D.
Biogeosciences. 2022 19(6). p.1705
An Arctic CCN-limited cloud-aerosol regime
Mauritsen T.,
Sedlar J.,
Tjernström M.,
Leck C.,
Martin M.,
Shupe M.,
Sjogren S.,
Sierau B.,
Persson P. O. G.,
Brooks I. M., Swietlicki E.
Atmospheric Chemistry and Physics. 2011 11(1). p.165
Polar Cooling Effect Due to Increase of Phytoplankton and Dimethyl-Sulfide Emission
Kim Ah-Hyun,
Yum Seong,
Lee Hannah,
Chang Dong, Shim Sungbo
Atmosphere. 2018 9(10). p.384
Global oceanic DMS data inter-comparability
Bell T. G.,
Malin G.,
Lee G. A.,
Stefels J.,
Archer S.,
Steinke M., Matrai P.
Biogeochemistry. 2012 110(1-3). p.147
Sea-salt particles and the CLAW hypothesis
Smith Michael H.
Environmental Chemistry. 2007 4(6). p.391
Ideas and perspectives: climate-relevant marine biologically driven mechanisms in Earth system models
Hense Inga,
Stemmler Irene, Sonntag Sebastian
Biogeosciences. 2017 14(2). p.403
Grazing-induced production of DMS can stabilize food-web dynamics and promote the formation of phytoplankton blooms in a multitrophic plankton model
Lewis Nicola D.,
Breckels Mark N.,
Archer Steve D.,
Morozov Andrew,
Pitchford Jonathan W.,
Steinke Michael, Codling Edward A.
Biogeochemistry. 2012 110(1-3). p.303
In situ observations of wintertime low‐altitude clouds over the Southern Ocean
Ahn Eunmi,
Huang Yi,
Chubb Thomas H.,
Baumgardner Darrel,
Isaac Peter,
de Hoog Mark,
Siems Steven T., Manton Michael J.
Quarterly Journal of the Royal Meteorological Society. 2017 143(704). p.1381
Marine Aerosols and Clouds
Brooks Sarah D., Thornton Daniel C.O.
Annual Review of Marine Science. 2018 10(1). p.289
Biogenic, anthropogenic and sea salt sulfate size-segregated aerosols in the Arctic summer
Ghahreman Roya,
Norman Ann-Lise,
Abbatt Jonathan P. D.,
Levasseur Maurice, Thomas Jennie L.
Atmospheric Chemistry and Physics. 2016 16(8). p.5191
A review on air–sea exchange of reactive trace gases over the northern Indian Ocean
Gupta Mansi,
Tripathi Nidhi,
Malik T G, Sahu L K
Journal of Earth System Science. 2024 133(2).
Atmospheric Aerosols (2015)
The biogeochemistry of marine dimethylsulfide
Hopkins Frances E.,
Archer Stephen D.,
Bell Thomas G.,
Suntharalingam Parvadha, Todd Jonathan D.
Nature Reviews Earth & Environment. 2023 4(6). p.361
Dynamic photoinhibition exhibited by red coralline algae in the red sea
Burdett Heidi L,
Keddie Victoria,
MacArthur Nicola,
McDowall Laurin,
McLeish Jennifer,
Spielvogel Eva,
Hatton Angela D, Kamenos Nicholas A
BMC Plant Biology. 2014 14(1). p.139
Characteristics of aerosol aminiums over a coastal city in North China: Insights from the divergent impacts of marine and terrestrial influences
Yang Yiyan,
Sun Mingge,
Wu Guanru,
Qi Yuxuan,
Zhu Wenqing,
Zhao Yunhui,
Zhu Yujiao,
Li Wenshuai,
Zhang Yanjing,
Wang Nana,
Sheng Lifang,
Wang Wencai,
Yu Xu,
Yu Jianzhen,
Yao Xiaohong, Zhou Yang
Science of The Total Environment. 2024 918 p.170672
Where to now? A synthesis of current views of the CLAW hypothesis
Cainey Jill M.,
Sievering Herman, Ayers Greg P.
Environmental Chemistry. 2007 4(6). p.406
Cloud, precipitation and radiation responses to large perturbations in global dimethyl sulfide
Fiddes Sonya L.,
Woodhouse Matthew T.,
Nicholls Zebedee,
Lane Todd P., Schofield Robyn
Atmospheric Chemistry and Physics. 2018 18(14). p.10177
Dimethyl sulfide and its role in aerosol formation and growth in the Arctic summer – a modelling study
Ghahreman Roya,
Gong Wanmin,
Galí Martí,
Norman Ann-Lise,
Beagley Stephen R.,
Akingunola Ayodeji,
Zheng Qiong,
Lupu Alexandru,
Lizotte Martine,
Levasseur Maurice, Leaitch W. Richard
Atmospheric Chemistry and Physics. 2019 19(23). p.14455
Spatial variability and temporal dynamics of surface water pCO2, ΔO2/Ar and dimethylsulfide in the Ross Sea, Antarctica
Tortell P.D.,
Guéguen C.,
Long M.C.,
Payne C.D.,
Lee P., DiTullio G.R.
Deep Sea Research Part I: Oceanographic Research Papers. 2011 58(3). p.241
Life and Evolution (2020)
Global biogeochemical impacts of phytoplankton: a trait‐based perspective
Litchman Elena,
de Tezanos Pinto Paula,
Edwards Kyle F.,
Klausmeier Christopher A.,
Kremer Colin T.,
Thomas Mridul K., Austin Amy
Journal of Ecology. 2015 103(6). p.1384
Aerosolization flux, bio-products, and dispersal capacities in the freshwater microalga Limnomonas gaiensis (Chlorophyceae)
Tesson Sylvie V. M.,
Barbato Marta, Rosati Bernadette
Communications Biology. 2023 6(1).
Atmospheric new particle formation and growth: review of field observations
Kerminen Veli-Matti,
Chen Xuemeng,
Vakkari Ville,
Petäjä Tuukka,
Kulmala Markku, Bianchi Federico
Environmental Research Letters. 2018 13(10). p.103003
Response of dimethylsulfoniopropionate (DMSP) and dimethylsulfoxide (DMSO) cell quotas to oxidative stress in three phytoplankton species
Royer C,
Gypens N,
Cardol P,
Borges A V,
Roberty S, Koski Marja
Journal of Plankton Research. 2021 43(5). p.673
CH3CH2SCH3 + OH radicals: temperature‐dependent rate coefficient and product identification under atmospheric pressure of air
Oksdath‐Mansilla Gabriela,
Peñéñory Alicia B.,
Albu Mihaela,
Barnes Ian,
Wiesen Peter, Teruel Mariano A.
Journal of Physical Organic Chemistry. 2010 23(10). p.925
Boundary layer and free-tropospheric dimethyl sulfide in the Arctic spring and summer
Ghahreman Roya,
Norman Ann-Lise,
Croft Betty,
Martin Randall V.,
Pierce Jeffrey R.,
Burkart Julia,
Rempillo Ofelia,
Bozem Heiko,
Kunkel Daniel,
Thomas Jennie L.,
Aliabadi Amir A.,
Wentworth Gregory R.,
Levasseur Maurice,
Staebler Ralf M.,
Sharma Sangeeta, Leaitch W. Richard
Atmospheric Chemistry and Physics. 2017 17(14). p.8757
Mixed-Phase Clouds (2018)
Coral reef aerosol emissions in response to irradiance stress in the Great Barrier Reef, Australia
Cropp Roger,
Gabric Albert,
van Tran Dien,
Jones Graham,
Swan Hilton, Butler Harry
Ambio. 2018 47(6). p.671
Treatise on Geochemistry (2014)
A review of natural aerosol interactions and feedbacks within the Earth system
Carslaw K. S.,
Boucher O.,
Spracklen D. V.,
Mann G. W.,
Rae J. G. L.,
Woodward S., Kulmala M.
Atmospheric Chemistry and Physics. 2010 10(4). p.1701
Microbial diversity and the “lower-limit” problem of biodiversity
Malaterre Christophe
Biology & Philosophy. 2013 28(2). p.219
The Structure of Low-Altitude Clouds over the Southern Ocean as Seen by CloudSat
Huang Yi,
Siems Steven T.,
Manton Michael J.,
Hande Luke B., Haynes John M.
Journal of Climate. 2012 25(7). p.2535
Quantification of DMS aerosol-cloud-climate interactions using the ECHAM5-HAMMOZ model in a current climate scenario
Thomas M. A.,
Suntharalingam P.,
Pozzoli L.,
Rast S.,
Devasthale A.,
Kloster S.,
Feichter J., Lenton T. M.
Atmospheric Chemistry and Physics. 2010 10(15). p.7425
A Bacterial Pathogen Displaying Temperature-Enhanced Virulence of the Microalga Emiliania huxleyi
Mayers Teaghan J.,
Bramucci Anna R.,
Yakimovich Kurt M., Case Rebecca J.
Frontiers in Microbiology. 2016 7
Oscillations in a simple climate–vegetation model
Rombouts J., Ghil M.
Nonlinear Processes in Geophysics. 2015 22(3). p.275
Coral reefs as a source of climate-active aerosols
Jackson Rebecca L.,
Gabric Albert J., Cropp Roger
PeerJ. 2020 8 p.e10023
Low sensitivity of cloud condensation nuclei to changes in the sea-air flux of dimethyl-sulphide
Woodhouse M. T.,
Carslaw K. S.,
Mann G. W.,
Vallina S. M.,
Vogt M.,
Halloran P. R., Boucher O.
Atmospheric Chemistry and Physics. 2010 10(16). p.7545
Effects of high temperature and CO2 on intracellular DMSP in the cold-water coral Lophelia pertusa
Burdett H. L.,
Carruthers M.,
Donohue P. J. C.,
Wicks L. C.,
Hennige S. J.,
Roberts J. M., Kamenos N. A.
Marine Biology. 2014 161(7). p.1499
Dimethylsulfide model calibration in the Barents Sea using a genetic algorithm and neural network
Qu Bo,
Gabric Albert J.,
Zeng Meifang, Lu Zhifeng
Environmental Chemistry. 2016 13(2). p.413
Sensitivity of cloud condensation nuclei to regional changes in dimethyl-sulphide emissions
Woodhouse M. T.,
Mann G. W.,
Carslaw K. S., Boucher O.
Atmospheric Chemistry and Physics. 2013 13(5). p.2723
