Literature DB >> 33483480

New particle formation in the remote marine boundary layer.

Guangjie Zheng1,2, Yang Wang1,3, Robert Wood4, Michael P Jensen2, Chongai Kuang2, Isabel L McCoy4, Alyssa Matthews5, Fan Mei5, Jason M Tomlinson5, John E Shilling5, Maria A Zawadowicz5, Ewan Crosbie6,7, Richard Moore6, Luke Ziemba6, Meinrat O Andreae8,9, Jian Wang10,11.   

Abstract

Marine low clouds play an important role in the climate system, and their properties are sensitive to cloud condensation nuclei concentrations. While new particle formation represents a major source of cloud condensation nuclei globally, the prevailing view is that new particle formation rarely occurs in remote marine boundary layer over open oceans. Here we present evidence of the regular and frequent occurrence of new particle formation in the upper part of remote marine boundary layer following cold front passages. The new particle formation is facilitated by a combination of efficient removal of existing particles by precipitation, cold air temperatures, vertical transport of reactive gases from the ocean surface, and high actinic fluxes in a broken cloud field. The newly formed particles subsequently grow and contribute substantially to cloud condensation nuclei in the remote marine boundary layer and thereby impact marine low clouds.

Entities:  

Year:  2021        PMID: 33483480      PMCID: PMC7822916          DOI: 10.1038/s41467-020-20773-1

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  7 in total

Review 1.  The case against climate regulation via oceanic phytoplankton sulphur emissions.

Authors:  P K Quinn; T S Bates
Journal:  Nature       Date:  2011-11-30       Impact factor: 49.962

2.  Particle nucleation in the tropical boundary layer and its coupling to marine sulfur sources

Authors: 
Journal:  Science       Date:  1998-10-02       Impact factor: 47.728

3.  Global airborne sampling reveals a previously unobserved dimethyl sulfide oxidation mechanism in the marine atmosphere.

Authors:  Patrick R Veres; J Andrew Neuman; Timothy H Bertram; Emmanuel Assaf; Glenn M Wolfe; Christina J Williamson; Bernadett Weinzierl; Simone Tilmes; Chelsea R Thompson; Alexander B Thames; Jason C Schroder; Alfonso Saiz-Lopez; Andrew W Rollins; James M Roberts; Derek Price; Jeff Peischl; Benjamin A Nault; Kristian H Møller; David O Miller; Simone Meinardi; Qinyi Li; Jean-François Lamarque; Agnieszka Kupc; Henrik G Kjaergaard; Douglas Kinnison; Jose L Jimenez; Christopher M Jernigan; Rebecca S Hornbrook; Alan Hills; Maximilian Dollner; Douglas A Day; Carlos A Cuevas; Pedro Campuzano-Jost; James Burkholder; T Paul Bui; William H Brune; Steven S Brown; Charles A Brock; Ilann Bourgeois; Donald R Blake; Eric C Apel; Thomas B Ryerson
Journal:  Proc Natl Acad Sci U S A       Date:  2020-02-18       Impact factor: 11.205

4.  Global atmospheric particle formation from CERN CLOUD measurements.

Authors:  Eimear M Dunne; Hamish Gordon; Andreas Kürten; João Almeida; Jonathan Duplissy; Christina Williamson; Ismael K Ortega; Kirsty J Pringle; Alexey Adamov; Urs Baltensperger; Peter Barmet; Francois Benduhn; Federico Bianchi; Martin Breitenlechner; Antony Clarke; Joachim Curtius; Josef Dommen; Neil M Donahue; Sebastian Ehrhart; Richard C Flagan; Alessandro Franchin; Roberto Guida; Jani Hakala; Armin Hansel; Martin Heinritzi; Tuija Jokinen; Juha Kangasluoma; Jasper Kirkby; Markku Kulmala; Agnieszka Kupc; Michael J Lawler; Katrianne Lehtipalo; Vladimir Makhmutov; Graham Mann; Serge Mathot; Joonas Merikanto; Pasi Miettinen; Athanasios Nenes; Antti Onnela; Alexandru Rap; Carly L S Reddington; Francesco Riccobono; Nigel A D Richards; Matti P Rissanen; Linda Rondo; Nina Sarnela; Siegfried Schobesberger; Kamalika Sengupta; Mario Simon; Mikko Sipilä; James N Smith; Yuri Stozkhov; Antonio Tomé; Jasmin Tröstl; Paul E Wagner; Daniela Wimmer; Paul M Winkler; Douglas R Worsnop; Kenneth S Carslaw
Journal:  Science       Date:  2016-10-27       Impact factor: 47.728

5.  Aerosol-driven droplet concentrations dominate coverage and water of oceanic low-level clouds.

Authors:  Daniel Rosenfeld; Yannian Zhu; Minghuai Wang; Youtong Zheng; Tom Goren; Shaocai Yu
Journal:  Science       Date:  2019-01-17       Impact factor: 47.728

6.  A large source of cloud condensation nuclei from new particle formation in the tropics.

Authors:  Christina J Williamson; Agnieszka Kupc; Duncan Axisa; Kelsey R Bilsback; ThaoPaul Bui; Pedro Campuzano-Jost; Maximilian Dollner; Karl D Froyd; Anna L Hodshire; Jose L Jimenez; John K Kodros; Gan Luo; Daniel M Murphy; Benjamin A Nault; Eric A Ray; Bernadett Weinzierl; James C Wilson; Fangqun Yu; Pengfei Yu; Jeffrey R Pierce; Charles A Brock
Journal:  Nature       Date:  2019-10-16       Impact factor: 49.962

7.  The Modern-Era Retrospective Analysis for Research and Applications, Version 2 (MERRA-2).

Authors:  Ronald Gelaro; Will McCarty; Max J Suárez; Ricardo Todling; Andrea Molod; Lawrence Takacs; Cynthia Randles; Anton Darmenov; Michael G Bosilovich; Rolf Reichle; Krzysztof Wargan; Lawrence Coy; Richard Cullather; Clara Draper; Santha Akella; Virginie Buchard; Austin Conaty; Arlindo da Silva; Wei Gu; Gi-Kong Kim; Randal Koster; Robert Lucchesi; Dagmar Merkova; Jon Eric Nielsen; Gary Partyka; Steven Pawson; William Putman; Michele Rienecker; Siegfried D Schubert; Meta Sienkiewicz; Bin Zhao
Journal:  J Clim       Date:  2017-06-20       Impact factor: 5.148
  7 in total
  1 in total

1.  Critical Role of Iodous Acid in Neutral Iodine Oxoacid Nucleation.

Authors:  Rongjie Zhang; Hong-Bin Xie; Fangfang Ma; Jingwen Chen; Siddharth Iyer; Mario Simon; Martin Heinritzi; Jiali Shen; Yee Jun Tham; Theo Kurtén; Douglas R Worsnop; Jasper Kirkby; Joachim Curtius; Mikko Sipilä; Markku Kulmala; Xu-Cheng He
Journal:  Environ Sci Technol       Date:  2022-09-20       Impact factor: 11.357
  1 in total

北京卡尤迪生物科技股份有限公司 © 2022-2023.