An unrecognized mode of small particles in the lower stratosphere

Ming Lyu; Adam T. Ahern; Gregory P. Schill; Michael J. Lawler; Daniel M. Murphy; Samuel J. Taylor; Anthony Fodel; Maya Abou-Ghanem; Colin Gurganus; Yunqian Zhu; Simone Tilmes; Eric Ray; Troy D. Thornberry; Ru Shan Gao; Eric J. Hintsa; Fred Moore; Geoff Dutton; David Nance; Brad Hall; Andrew W. Rollins; Eleanor M. Waxman; Kristen Zuraski; Glenn S. Diskin; Yonghoon Choi; R. Bradley Pierce; Bernadett Weinzierl; Florian Kuderna; Maximilian Dollner; Eric Jensen; Charles A. Brock

doi:10.1126/science.adw8939

An unrecognized mode of small particles in the lower stratosphere

Ming Lyu
, Adam T. Ahern
, Gregory P. Schill
, Michael J. Lawler
, Daniel M. Murphy
, Samuel J. Taylor
, Anthony Fodel
, Maya Abou-Ghanem
, Colin Gurganus
, Yunqian Zhu
, Simone Tilmes
, Eric Ray
, Troy D. Thornberry
, Ru Shan Gao
, Eric J. Hintsa
, Fred Moore
, Geoff Dutton
, David Nance
, Brad Hall
, Andrew W. Rollins

Eleanor M. Waxman, Kristen Zuraski, Glenn S. Diskin, Yonghoon Choi, R. Bradley Pierce, Bernadett Weinzierl, Florian Kuderna, Maximilian Dollner, Eric Jensen, Charles A. Brock

University of Colorado Boulder
National Oceanic and Atmospheric Administration
Rugged Science
Tofwerk USA
National Center for Atmospheric Research
Quantinuum Research LLC
NASA Langley Research Center
Analytical Mechanics Associates, Inc.
University of Wisconsin-Madison
University of Vienna

Research output: Contribution to journal › Article › peer-review

Abstract

Analysis of recent in situ data reveals a persistent mode of organic-rich aerosol particles in the stratosphere below 19 kilometers at nitrous oxide (N₂O) > 270 parts per billion by volume, with a number geometric mean diameter of ~0.03 to 0.11 μm (0.08 to 0.2 μm in surface and 0.11 to 0.3 μm in volume). This mode, composed mostly of organic-rich particles transported from the troposphere, is poorly sensed by satellites and most balloon-borne optical measurements but dominates the surface area for heterogeneous reactions and the sink for condensable vapors. These small particles grow in size and decrease in concentration as they mix with older stratospheric air. A global chemistry-climate model fails to replicate the characteristics of these particles, suggesting that model improvements are necessary for accurate assessment of proposed geoengineering efforts.

Original language	English
Article number	eadw8939
Journal	Science
Volume	392
Issue number	6796
DOIs	https://doi.org/10.1126/science.adw8939
State	Published - Apr 23 2026
Externally published	Yes

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Lyu, M., Ahern, A. T., Schill, G. P., Lawler, M. J., Murphy, D. M., Taylor, S. J., Fodel, A., Abou-Ghanem, M., Gurganus, C., Zhu, Y., Tilmes, S., Ray, E., Thornberry, T. D., Gao, R. S., Hintsa, E. J., Moore, F., Dutton, G., Nance, D., Hall, B., ... Brock, C. A. (2026). An unrecognized mode of small particles in the lower stratosphere. Science, 392(6796), Article eadw8939. https://doi.org/10.1126/science.adw8939

@article{4d52d4ab40834d0b98dd0b8686a7c534,

title = "An unrecognized mode of small particles in the lower stratosphere",

abstract = "Analysis of recent in situ data reveals a persistent mode of organic-rich aerosol particles in the stratosphere below 19 kilometers at nitrous oxide (N2O) > 270 parts per billion by volume, with a number geometric mean diameter of \textasciitilde{}0.03 to 0.11 μm (0.08 to 0.2 μm in surface and 0.11 to 0.3 μm in volume). This mode, composed mostly of organic-rich particles transported from the troposphere, is poorly sensed by satellites and most balloon-borne optical measurements but dominates the surface area for heterogeneous reactions and the sink for condensable vapors. These small particles grow in size and decrease in concentration as they mix with older stratospheric air. A global chemistry-climate model fails to replicate the characteristics of these particles, suggesting that model improvements are necessary for accurate assessment of proposed geoengineering efforts.",

author = "Ming Lyu and Ahern, \{Adam T.\} and Schill, \{Gregory P.\} and Lawler, \{Michael J.\} and Murphy, \{Daniel M.\} and Taylor, \{Samuel J.\} and Anthony Fodel and Maya Abou-Ghanem and Colin Gurganus and Yunqian Zhu and Simone Tilmes and Eric Ray and Thornberry, \{Troy D.\} and Gao, \{Ru Shan\} and Hintsa, \{Eric J.\} and Fred Moore and Geoff Dutton and David Nance and Brad Hall and Rollins, \{Andrew W.\} and Waxman, \{Eleanor M.\} and Kristen Zuraski and Diskin, \{Glenn S.\} and Yonghoon Choi and Pierce, \{R. Bradley\} and Bernadett Weinzierl and Florian Kuderna and Maximilian Dollner and Eric Jensen and Brock, \{Charles A.\}",

note = "Publisher Copyright: Copyright {\textcopyright}2026 the authors, some rights reserved; exclusive licensee American Association for the Advancement of Science.",

year = "2026",

month = apr,

day = "23",

doi = "10.1126/science.adw8939",

language = "English",

volume = "392",

journal = "Science",

issn = "0036-8075",

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

number = "6796",

}

Lyu, M, Ahern, AT, Schill, GP, Lawler, MJ, Murphy, DM, Taylor, SJ, Fodel, A, Abou-Ghanem, M, Gurganus, C, Zhu, Y, Tilmes, S, Ray, E, Thornberry, TD, Gao, RS, Hintsa, EJ, Moore, F, Dutton, G, Nance, D, Hall, B, Rollins, AW, Waxman, EM, Zuraski, K, Diskin, GS, Choi, Y, Pierce, RB, Weinzierl, B, Kuderna, F, Dollner, M, Jensen, E & Brock, CA 2026, 'An unrecognized mode of small particles in the lower stratosphere', Science, vol. 392, no. 6796, eadw8939. https://doi.org/10.1126/science.adw8939

TY - JOUR

T1 - An unrecognized mode of small particles in the lower stratosphere

AU - Lyu, Ming

AU - Ahern, Adam T.

AU - Schill, Gregory P.

AU - Lawler, Michael J.

AU - Murphy, Daniel M.

AU - Taylor, Samuel J.

AU - Fodel, Anthony

AU - Abou-Ghanem, Maya

AU - Gurganus, Colin

AU - Zhu, Yunqian

AU - Tilmes, Simone

AU - Ray, Eric

AU - Thornberry, Troy D.

AU - Gao, Ru Shan

AU - Hintsa, Eric J.

AU - Moore, Fred

AU - Dutton, Geoff

AU - Nance, David

AU - Hall, Brad

AU - Rollins, Andrew W.

AU - Waxman, Eleanor M.

AU - Zuraski, Kristen

AU - Diskin, Glenn S.

AU - Choi, Yonghoon

AU - Pierce, R. Bradley

AU - Weinzierl, Bernadett

AU - Kuderna, Florian

AU - Dollner, Maximilian

AU - Jensen, Eric

AU - Brock, Charles A.

PY - 2026/4/23

Y1 - 2026/4/23

N2 - Analysis of recent in situ data reveals a persistent mode of organic-rich aerosol particles in the stratosphere below 19 kilometers at nitrous oxide (N2O) > 270 parts per billion by volume, with a number geometric mean diameter of ~0.03 to 0.11 μm (0.08 to 0.2 μm in surface and 0.11 to 0.3 μm in volume). This mode, composed mostly of organic-rich particles transported from the troposphere, is poorly sensed by satellites and most balloon-borne optical measurements but dominates the surface area for heterogeneous reactions and the sink for condensable vapors. These small particles grow in size and decrease in concentration as they mix with older stratospheric air. A global chemistry-climate model fails to replicate the characteristics of these particles, suggesting that model improvements are necessary for accurate assessment of proposed geoengineering efforts.

AB - Analysis of recent in situ data reveals a persistent mode of organic-rich aerosol particles in the stratosphere below 19 kilometers at nitrous oxide (N2O) > 270 parts per billion by volume, with a number geometric mean diameter of ~0.03 to 0.11 μm (0.08 to 0.2 μm in surface and 0.11 to 0.3 μm in volume). This mode, composed mostly of organic-rich particles transported from the troposphere, is poorly sensed by satellites and most balloon-borne optical measurements but dominates the surface area for heterogeneous reactions and the sink for condensable vapors. These small particles grow in size and decrease in concentration as they mix with older stratospheric air. A global chemistry-climate model fails to replicate the characteristics of these particles, suggesting that model improvements are necessary for accurate assessment of proposed geoengineering efforts.

UR - https://www.scopus.com/pages/publications/105036905428

U2 - 10.1126/science.adw8939

DO - 10.1126/science.adw8939

M3 - Article

C2 - 42024743

AN - SCOPUS:105036905428

SN - 0036-8075

VL - 392

JO - Science

JF - Science

IS - 6796

M1 - eadw8939

ER -

An unrecognized mode of small particles in the lower stratosphere

Abstract

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