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The Influence of Chemical and Mineral Compositions on the Parameterization of Immersion Freezing by Volcanic Ash Particles

Authors :
Donald B. Dingwell
Robert Wagner
Elena Maters
Thomas Leisner
Ottmar Möhler
Ulrich Kueppers
Kristina Höhler
Gholam Ali Hoshyaripour
Nathalie Benker
Konrad Kandler
Nsikanabasi Silas Umo
Alexei Kiselev
Romy Ullrich
Peter G. Weidler
Isabelle Steinke
Ullrich, R.
1 Institute of Meteorology and Climate Research ‐ Atmospheric Aerosol Research Karlsruhe Institute of Technology Eggenstein‐Leopoldshafen Germany
Maters, E. C.
2 School of Earth and Environment Institute for Climate and Atmospheric Science University of Leeds Leeds UK
Steinke, I.
Benker, N.
5 Institute of Applied Geosciences Technical University Darmstadt Darmstadt Germany
Höhler, K.
Wagner, R.
Weidler, P. G.
6 Institute of Functional Interfaces Karlsruhe Institute of Technology Eggenstein‐Leopoldshafen Germany
Hoshyaripour, G. A.
7 Department of Tropospheric Research Institute of Meteorology and Climate Research Karlsruhe Institute of Technology Eggenstein‐Leopoldshafen Germany
Kiselev, A.
Kueppers, U.
8 Department of Earth and Environmental Sciences Ludwig‐Maximilians‐Universität (LMU) Munich Germany
Kandler, K.
Dingwell, D. B.
Leisner, T.
Möhler, O.
Umo, NS [0000-0002-2571-163X]
Ullrich, R [0000-0002-8162-4354]
Maters, EC [0000-0003-1032-9865]
Steinke, I [0000-0001-5173-0626]
Benker, N [0000-0003-1767-6528]
Höhler, K [0000-0001-5503-9816]
Wagner, R [0000-0001-9419-5432]
Weidler, PG [0000-0002-4838-3544]
Hoshyaripour, GA [0000-0001-7770-7838]
Kiselev, A [0000-0003-0136-2428]
Kueppers, U [0000-0003-2815-1444]
Kandler, K [0000-0002-8268-6557]
Dingwell, DB [0000-0002-3332-789X]
Leisner, T [0000-0001-9693-7671]
Möhler, O [0000-0002-7551-9814]
Apollo - University of Cambridge Repository
Source :
Journal of Geophysical Research – Atmospheres, Journal of geophysical research / D, 126 (17), e2020JD033356
Publication Year :
2021

Abstract

Volcanic ash (VA) from explosive eruptions contributes to aerosol loadings in the atmosphere. Aside from the negative impact of VA on air quality and aviation, these particles can alter the optical and microphysical properties of clouds by triggering ice formation, thereby influencing precipitation and climate. Depending on the volcano and eruption style, VA displays a wide range of different physical, chemical, and mineralogical properties. Here, we present a unique data set on the ice nucleation activity of 15 VA samples obtained from different volcanoes worldwide. The ice nucleation activities of these samples were studied in the Aerosol Interaction and Dynamics in the Atmosphere (AIDA) cloud simulation chamber as well as with the Ice Nucleation Spectrometer of the Karlsruhe Institute of Technology (INSEKT). All VA particles nucleated ice in the immersion freezing mode from 263 to 238K with ice nucleation active site (INAS) densities ranging from ∼105 to 1011 m−2, respectively. The variabilities observed among the VA samples, at any given temperature, range over 3.5 orders of magnitude. The ice‐nucleating abilities of VA samples correlate to varying degrees with their bulk pyroxene and plagioclase contents as a function of temperature. We combined our new data set with existing literature data to develop an improved ice nucleation parameterization for natural VA in the immersion freezing mode. This should be useful for modeling the impact of VA on clouds.<br />Plain Language Summary: Volcanic ash particles, which are generated during volcanic eruptions, can initiate ice formation in clouds. The clouds formed by these volcanic ash particles can influence precipitation, and in turn, weather and climate. In our study, we investigated the ability with which volcanic ash particles form ice in clouds. We performed our study in a state‐of‐the‐art aerosol and cloud simulation chamber and on a cold‐stage instrument. The findings show that volcanic ash particles can form ice as effectively as mineral dust particles or their components. These results will help scientists to have a better understanding of the impact of volcanic ash particles on clouds.<br />Key Points: The ice‐nucleating ability of natural volcanic ash particles in the immersion freezing mode can vary by 3.5 orders of magnitude. Ice‐nucleating properties of volcanic ash particles correlate to varying degrees with their pyroxene and plagioclase contents. The temperature‐dependent immersion freezing ability of volcanic ash is approximated with an exponential fit line.<br />Alexander von Humboldt‐Stiftung (Humboldt‐Stiftung) http://dx.doi.org/10.13039/100005156<br />Marie Skłodowska‐Curie Actions<br />ERC 2018 ADG<br />Deutsche Forschungsgemeinschaft (DFG) http://dx.doi.org/10.13039/501100001659<br />Helmholtz Association of German Research Centres<br />EUROCHAMP 2020 Infrastructure Activity

Details

ISSN :
21698996 and 2169897X
Database :
OpenAIRE
Journal :
Journal of Geophysical Research – Atmospheres
Accession number :
edsair.doi.dedup.....cb0be28c3ce12bdb4db8f8846801939f
Full Text :
https://doi.org/10.1029/2020jd033356