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Quantifying mechanisms of aeolian dust emission: field measurements at Etosha Pan, Namibia

Quantifying mechanisms of aeolian dust emission: field measurements at Etosha Pan, Namibia
Quantifying mechanisms of aeolian dust emission: field measurements at Etosha Pan, Namibia

Determining the controls on aeolian dust emissions from major sources is necessary for reliable quantification of atmospheric aerosol concentrations and fluxes. However, ground-based measurements of dust emissions at-source are rare and of generally short duration, failing to capture the annual cycle. Here, we provide new insights into dust dynamics by measuring aerosol concentrations and meteorological conditions for a full year (July 2015–June 2016) at Etosha Pan, Namibia, a globally significant dust source. Surface deployed field instrumentation provided 10-min averaged data on meteorological conditions, aerosol concentration (mg/m 3), and horizontal dust flux (g/m 2/min 10). A Doppler lidar provided additional data for some of the period. 51 significant dust events were identified in response to strong E-ENE winds. We demonstrate that these events occurred throughout the year and were not restricted to the austral winter, as previously indicated by satellite observations. Peak horizontal flux occurred in the spring (November) due to strengthening erosive winds and highly desiccating conditions increasing surface erodibility. We identify a strong seasonal differentiation in the meteorological mechanisms controlling dust uplift; low-level jets on dry winter mornings (61% of all events), and cold pool outflows in humid summer evenings (39% of events). Significantly, we demonstrate a very strong bias toward the contribution of low frequency and high magnitude events, with nearly 31% of annual horizontal dust flux generated by only 6 individual events. Our study demonstrates how longer-term (≈1 year), ground-based, and at-source field measurements can radically improve interpretations of dust event dynamics and controls at major source locations.

Aeolian Dust Emissions, Cold Pool Outflow, Etosha Pan, Low Level Jet, Mineral Aerosols, cold pool outflow, aeolian dust emissions, low level jet, mineral aerosols
2169-9011
Wiggs, Giles F.S.
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Baddock, Matthew C.
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Thomas, David S.G.
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Washington, Richard
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Nield, Joanna
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Engelstaedter, Sebastian
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Bryant, Robert G.
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Eckardt, Frank D.
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von Holdt, Johannah R.C.
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Kotting, Shayne
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Wiggs, Giles F.S.
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Baddock, Matthew C.
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Thomas, David S.G.
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Washington, Richard
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Nield, Joanna
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Engelstaedter, Sebastian
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Bryant, Robert G.
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Eckardt, Frank D.
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von Holdt, Johannah R.C.
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Kotting, Shayne
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Wiggs, Giles F.S., Baddock, Matthew C., Thomas, David S.G., Washington, Richard, Nield, Joanna, Engelstaedter, Sebastian, Bryant, Robert G., Eckardt, Frank D., von Holdt, Johannah R.C. and Kotting, Shayne (2022) Quantifying mechanisms of aeolian dust emission: field measurements at Etosha Pan, Namibia. Journal of Geophysical Research: Earth Surface, 127 (8), [e2022JF006675]. (doi:10.1029/2022JF006675).

Record type: Article

Abstract

Determining the controls on aeolian dust emissions from major sources is necessary for reliable quantification of atmospheric aerosol concentrations and fluxes. However, ground-based measurements of dust emissions at-source are rare and of generally short duration, failing to capture the annual cycle. Here, we provide new insights into dust dynamics by measuring aerosol concentrations and meteorological conditions for a full year (July 2015–June 2016) at Etosha Pan, Namibia, a globally significant dust source. Surface deployed field instrumentation provided 10-min averaged data on meteorological conditions, aerosol concentration (mg/m 3), and horizontal dust flux (g/m 2/min 10). A Doppler lidar provided additional data for some of the period. 51 significant dust events were identified in response to strong E-ENE winds. We demonstrate that these events occurred throughout the year and were not restricted to the austral winter, as previously indicated by satellite observations. Peak horizontal flux occurred in the spring (November) due to strengthening erosive winds and highly desiccating conditions increasing surface erodibility. We identify a strong seasonal differentiation in the meteorological mechanisms controlling dust uplift; low-level jets on dry winter mornings (61% of all events), and cold pool outflows in humid summer evenings (39% of events). Significantly, we demonstrate a very strong bias toward the contribution of low frequency and high magnitude events, with nearly 31% of annual horizontal dust flux generated by only 6 individual events. Our study demonstrates how longer-term (≈1 year), ground-based, and at-source field measurements can radically improve interpretations of dust event dynamics and controls at major source locations.

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JGR Earth Surface - 2022 - Wiggs - Quantifying Mechanisms of Aeolian Dust Emission Field Measurements at Etosha Pan (1) - Version of Record
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Accepted/In Press date: 27 July 2022
e-pub ahead of print date: 13 August 2022
Published date: August 2022
Additional Information: Funding Information: The authors are very grateful to the staff at Etosha National Park for their help and assistance in undertaking the fieldwork, especially Boas Erckie, Pierre du Preez, Claudine Cloete, Immanuel Kapofi, Wilferd Versfeld, and Werner Kilian. The assistance of Gillian Maggs‐Kölling at the Gobabeb Namib Research Institute is also gratefully acknowledged, as is the support of Mary Seely and Martin Hipondoka. We are grateful to the Ministry of Environment, Forestry and Tourism in Namibia for permitting the research (permits 1978/2014 and 2140/2016). The research was funded by the Natural Environment Research Council (grant NE/H021841/1) in the UK, and the John Fell Oxford University Press (OUP) Research Fund (121/474). Funding Information: The authors are very grateful to the staff at Etosha National Park for their help and assistance in undertaking the fieldwork, especially Boas Erckie, Pierre du Preez, Claudine Cloete, Immanuel Kapofi, Wilferd Versfeld, and Werner Kilian. The assistance of Gillian Maggs-Kölling at the Gobabeb Namib Research Institute is also gratefully acknowledged, as is the support of Mary Seely and Martin Hipondoka. We are grateful to the Ministry of Environment, Forestry and Tourism in Namibia for permitting the research (permits 1978/2014 and 2140/2016). The research was funded by the Natural Environment Research Council (grant NE/H021841/1) in the UK, and the John Fell Oxford University Press (OUP) Research Fund (121/474). Publisher Copyright: © 2022. The Authors.
Keywords: Aeolian Dust Emissions, Cold Pool Outflow, Etosha Pan, Low Level Jet, Mineral Aerosols, cold pool outflow, aeolian dust emissions, low level jet, mineral aerosols

Identifiers

Local EPrints ID: 468880
URI: http://eprints.soton.ac.uk/id/eprint/468880
DOI: doi:10.1029/2022JF006675
ISSN: 2169-9011
PURE UUID: 55bbc1eb-65b2-4643-acce-0146e218c39a
ORCID for Joanna Nield: ORCID iD orcid.org/0000-0002-2657-0525

Catalogue record

Date deposited: 31 Aug 2022 16:44
Last modified: 17 Mar 2024 03:12

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Contributors

Author: Giles F.S. Wiggs
Author: Matthew C. Baddock
Author: David S.G. Thomas
Author: Richard Washington
Author: Joanna Nield ORCID iD
Author: Sebastian Engelstaedter
Author: Robert G. Bryant
Author: Frank D. Eckardt
Author: Johannah R.C. von Holdt
Author: Shayne Kotting

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