Physical science research needed to evaluate the viability and risks of marine cloud brightening

Graham Feingold; Virendra P. Ghate; Lynn M. Russell; Peter Blossey; Will Cantrell; Matthew W. Christensen; Michael S. Diamond; Andrew Gettelman; Franziska Glassmeier; Edward Gryspeerdt; James Haywood; Fabian Hoffmann; Colleen M. Kaul; Matthew Lebsock; Allison C. McComiskey; Daniel T. McCoy; Yi Ming; Johannes Mülmenstädt; Anna Possner; Prasanth Prabhakaran; Patricia K. Quinn; K. Sebastian Schmidt; Raymond A. Shaw; Clare E. Singer; Armin Sorooshian; Velle Toll; Jessica S. Wan; Robert Wood; Fan Yang; Jianhao Zhang; Xue Zheng

doi:10.1126/sciadv.adi8594

Physical science research needed to evaluate the viability and risks of marine cloud brightening

Graham Feingold
, Virendra P. Ghate
, Lynn M. Russell
, Peter Blossey
, Will Cantrell
, Matthew W. Christensen
, Michael S. Diamond
, Andrew Gettelman
, Franziska Glassmeier
, Edward Gryspeerdt
, James Haywood
, Fabian Hoffmann
, Colleen M. Kaul
, Matthew Lebsock
, Allison C. McComiskey
, Daniel T. McCoy
, Yi Ming
, Johannes Mülmenstädt
, Anna Possner
, Prasanth Prabhakaran

Patricia K. Quinn, K. Sebastian Schmidt, Raymond A. Shaw, Clare E. Singer, Armin Sorooshian, Velle Toll, Jessica S. Wan, Robert Wood, Fan Yang, Jianhao Zhang, Xue Zheng

National Oceanic and Atmospheric Administration
Argonne National Laboratory
University of California at San Diego
University of Washington
Michigan Technological University
Pacific Northwest National Laboratory
Florida State University
Delft University of Technology
Imperial College London
University of Exeter
Ludwig Maximilian University of Munich
Jet Propulsion Laboratory, California Institute of Technology
National Center for Atmospheric Research
University of Wyoming
Boston College
Goethe University Frankfurt
University of Colorado Boulder
California Institute of Technology
University of Arizona
University of Tartu
Lawrence Livermore Natl. Laboratory

Research output: Contribution to journal › Review article › peer-review

55 Scopus citations

Abstract

Marine cloud brightening (MCB) is the deliberate injection of aerosol particles into shallow marine clouds to increase their reflection of solar radiation and reduce the amount of energy absorbed by the climate system. From the physical science perspective, the consensus of a broad international group of scientists is that the viability of MCB will ultimately depend on whether observations and models can robustly assess the scale-up of local-to-global brightening in today’s climate and identify strategies that will ensure an equitable geographical distribution of the benefits and risks associated with projected regional changes in temperature and precipitation. To address the physical science knowledge gaps required to assess the societal implications of MCB, we propose a substantial and targeted program of research—field and laboratory experiments, monitoring, and numerical modeling across a range of scales.

Original language	English
Article number	eadi8594
Journal	Science advances
Volume	10
Issue number	12
DOIs	https://doi.org/10.1126/sciadv.adi8594
State	Published - Mar 22 2024
Externally published	Yes

Access to Document

10.1126/sciadv.adi8594

Cite this

Feingold, G., Ghate, V. P., Russell, L. M., Blossey, P., Cantrell, W., Christensen, M. W., Diamond, M. S., Gettelman, A., Glassmeier, F., Gryspeerdt, E., Haywood, J., Hoffmann, F., Kaul, C. M., Lebsock, M., McComiskey, A. C., McCoy, D. T., Ming, Y., Mülmenstädt, J., Possner, A., ... Zheng, X. (2024). Physical science research needed to evaluate the viability and risks of marine cloud brightening. Science advances, 10(12), Article eadi8594. https://doi.org/10.1126/sciadv.adi8594

@article{8e81e1dbc3db4db5823e5af6d0e96b0d,

title = "Physical science research needed to evaluate the viability and risks of marine cloud brightening",

abstract = "Marine cloud brightening (MCB) is the deliberate injection of aerosol particles into shallow marine clouds to increase their reflection of solar radiation and reduce the amount of energy absorbed by the climate system. From the physical science perspective, the consensus of a broad international group of scientists is that the viability of MCB will ultimately depend on whether observations and models can robustly assess the scale-up of local-to-global brightening in today{\textquoteright}s climate and identify strategies that will ensure an equitable geographical distribution of the benefits and risks associated with projected regional changes in temperature and precipitation. To address the physical science knowledge gaps required to assess the societal implications of MCB, we propose a substantial and targeted program of research—field and laboratory experiments, monitoring, and numerical modeling across a range of scales.",

author = "Graham Feingold and Ghate, \{Virendra P.\} and Russell, \{Lynn M.\} and Peter Blossey and Will Cantrell and Christensen, \{Matthew W.\} and Diamond, \{Michael S.\} and Andrew Gettelman and Franziska Glassmeier and Edward Gryspeerdt and James Haywood and Fabian Hoffmann and Kaul, \{Colleen M.\} and Matthew Lebsock and McComiskey, \{Allison C.\} and McCoy, \{Daniel T.\} and Yi Ming and Johannes M{\"u}lmenst{\"a}dt and Anna Possner and Prasanth Prabhakaran and Quinn, \{Patricia K.\} and Schmidt, \{K. Sebastian\} and Shaw, \{Raymond A.\} and Singer, \{Clare E.\} and Armin Sorooshian and Velle Toll and Wan, \{Jessica S.\} and Robert Wood and Fan Yang and Jianhao Zhang and Xue Zheng",

year = "2024",

month = mar,

day = "22",

doi = "10.1126/sciadv.adi8594",

language = "English",

volume = "10",

journal = "Science advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

number = "12",

}

Feingold, G, Ghate, VP, Russell, LM, Blossey, P, Cantrell, W, Christensen, MW, Diamond, MS, Gettelman, A, Glassmeier, F, Gryspeerdt, E, Haywood, J, Hoffmann, F, Kaul, CM, Lebsock, M, McComiskey, AC, McCoy, DT, Ming, Y, Mülmenstädt, J, Possner, A, Prabhakaran, P, Quinn, PK, Schmidt, KS, Shaw, RA, Singer, CE, Sorooshian, A, Toll, V, Wan, JS, Wood, R, Yang, F, Zhang, J & Zheng, X 2024, 'Physical science research needed to evaluate the viability and risks of marine cloud brightening', Science advances, vol. 10, no. 12, eadi8594. https://doi.org/10.1126/sciadv.adi8594

TY - JOUR

T1 - Physical science research needed to evaluate the viability and risks of marine cloud brightening

AU - Feingold, Graham

AU - Ghate, Virendra P.

AU - Russell, Lynn M.

AU - Blossey, Peter

AU - Cantrell, Will

AU - Christensen, Matthew W.

AU - Diamond, Michael S.

AU - Gettelman, Andrew

AU - Glassmeier, Franziska

AU - Gryspeerdt, Edward

AU - Haywood, James

AU - Hoffmann, Fabian

AU - Kaul, Colleen M.

AU - Lebsock, Matthew

AU - McComiskey, Allison C.

AU - McCoy, Daniel T.

AU - Ming, Yi

AU - Mülmenstädt, Johannes

AU - Possner, Anna

AU - Prabhakaran, Prasanth

AU - Quinn, Patricia K.

AU - Schmidt, K. Sebastian

AU - Shaw, Raymond A.

AU - Singer, Clare E.

AU - Sorooshian, Armin

AU - Toll, Velle

AU - Wan, Jessica S.

AU - Wood, Robert

AU - Yang, Fan

AU - Zhang, Jianhao

AU - Zheng, Xue

PY - 2024/3/22

Y1 - 2024/3/22

N2 - Marine cloud brightening (MCB) is the deliberate injection of aerosol particles into shallow marine clouds to increase their reflection of solar radiation and reduce the amount of energy absorbed by the climate system. From the physical science perspective, the consensus of a broad international group of scientists is that the viability of MCB will ultimately depend on whether observations and models can robustly assess the scale-up of local-to-global brightening in today’s climate and identify strategies that will ensure an equitable geographical distribution of the benefits and risks associated with projected regional changes in temperature and precipitation. To address the physical science knowledge gaps required to assess the societal implications of MCB, we propose a substantial and targeted program of research—field and laboratory experiments, monitoring, and numerical modeling across a range of scales.

AB - Marine cloud brightening (MCB) is the deliberate injection of aerosol particles into shallow marine clouds to increase their reflection of solar radiation and reduce the amount of energy absorbed by the climate system. From the physical science perspective, the consensus of a broad international group of scientists is that the viability of MCB will ultimately depend on whether observations and models can robustly assess the scale-up of local-to-global brightening in today’s climate and identify strategies that will ensure an equitable geographical distribution of the benefits and risks associated with projected regional changes in temperature and precipitation. To address the physical science knowledge gaps required to assess the societal implications of MCB, we propose a substantial and targeted program of research—field and laboratory experiments, monitoring, and numerical modeling across a range of scales.

UR - https://www.scopus.com/pages/publications/85188495896

U2 - 10.1126/sciadv.adi8594

DO - 10.1126/sciadv.adi8594

M3 - Review article

C2 - 38507486

AN - SCOPUS:85188495896

SN - 2375-2548

VL - 10

JO - Science advances

JF - Science advances

IS - 12

M1 - eadi8594

ER -

Physical science research needed to evaluate the viability and risks of marine cloud brightening

Abstract

Access to Document

Other files and links

Fingerprint

Cite this