General circulation models simulate negative liquid water path-–droplet number correlations, but anthropogenic aerosols still increase simulated liquid water path.

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Title: General circulation models simulate negative liquid water path-–droplet number correlations, but anthropogenic aerosols still increase simulated liquid water path.
Authors: Mülmenstädt, Johannes1, johannes.muelmenstaedt@pnnl.gov, Gryspeerdt, Edward2, e.gryspeerdt@imperial.ac.uk, Dipu, Sudhakar3, dipu.sudhakar@uni-leipzig.de, Quaas, Johannes3, johannes.quaas@uni-leipzig.de, Ackerman, Andrew S.4, andrew.ackerman@nasa.gov, Fridlind, Ann M.4, ann.fridlind@nasa.gov, Tornow, Florian4,5, florian.tornow@nasa.gov, Bauer, Susanne E.4, susanne.bauer@columbia.edu, Gettelman, Andrew1, andrew.gettelman@pnnl.gov, Ming, Yi6, yi.ming@bc.edu, Zheng, Youtong7,8, yzheng18@uh.edu, Ma, Po-Lun1, po-lun.ma@pnnl.gov, Wang, Hailong1, hailong.wang@pnnl.gov, Zhang, Kai1, kai.zhang@pnnl.gov, Christensen, Matthew W.1, matt.christensen@pnnl.gov, Varble, Adam C.1, adam.varble@pnnl.gov, Leung, L. Ruby1, ruby.leung@pnnl.gov, Liu, Xiaohong9, xiaohong.liu@tamu.edu, Neubauer, David10, david.neubauer@env.ethz.ch, Partridge, Daniel G.11, d.g.partridge@exeter.ac.uk
Source: EGUsphere; 1/9/2024, p1-29, 29p
Database: Applied Science & Technology Source
Description
DOI:10.5194/egusphere-2024-4