Evaporative sodium salt crust development and its wind tunnel derived transport dynamics under variable climatic conditions
Evaporative sodium salt crust development and its wind tunnel derived transport dynamics under variable climatic conditions
Playas (or ephemeral lakes) can be significant sources of dust, but they are typically covered by salt crusts of variable mineralogy and these introduce uncertainty into dust emission predictions. Despite the importance of crust mineralogy to emission potential, little is known about (i) the effect of short-term changes in temperature and relative humidity on the erodibility of these crusts, and (ii) the influence of crust degradation and mineralogy on wind speed threshold for dust emission. Our understanding of systems where emission is not driven by impacts from saltators is particularly poor. This paper describes a wind tunnel study in which dust emission in the absence of saltating particles was measured for a suite of climatic conditions and salt crust types commonly found on Sua Pan, Botswana. The crusts were found to be non-emissive under climate conditions characteristic of dawn and early morning, as compared to hot and dry daytime conditions when the wind speed threshold for dust emission appears to be highly variable, depending upon salt crust physicochemistry. Significantly, sodium sulphate rich crusts were found to be more emissive than crusts formed from sodium chloride, while degraded versions of both crusts had a lower emission threshold than fresh, continuous crusts. The results from this study are in agreement with in-situ field measurements and confirm that dust emission from salt crusted surfaces can occur without saltation, although the vertical fluxes are orders of magnitude lower (~ 10 ug/m/s) than for aeolian systems where entrainment is driven by particle impact.
sodium sulphate (mirabilite and thenardite), sodium chloride (halite), aeolian dust source, playa, surface crust, wind tunnel
51-62
Nield, Joanna M.
173be2c5-b953-481a-abc4-c095e5e4b790
McKenna Neuman, Cheryl
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O'Brien, Patrick
06527ac3-3352-44ff-970b-f9ec3eeabcba
Bryant, Robert G.
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Wiggs, Giles F.S.
0b574ec8-fcd5-43b8-8b0b-0c84a01499d4
December 2016
Nield, Joanna M.
173be2c5-b953-481a-abc4-c095e5e4b790
McKenna Neuman, Cheryl
a660b175-5d6a-4d4b-a063-6b4b8b3a74df
O'Brien, Patrick
06527ac3-3352-44ff-970b-f9ec3eeabcba
Bryant, Robert G.
b6405ac1-d101-4921-ac6a-3ae02940493e
Wiggs, Giles F.S.
0b574ec8-fcd5-43b8-8b0b-0c84a01499d4
Nield, Joanna M., McKenna Neuman, Cheryl, O'Brien, Patrick, Bryant, Robert G. and Wiggs, Giles F.S.
(2016)
Evaporative sodium salt crust development and its wind tunnel derived transport dynamics under variable climatic conditions.
Aeolian Research, 23, .
(doi:10.1016/j.aeolia.2016.09.003).
Abstract
Playas (or ephemeral lakes) can be significant sources of dust, but they are typically covered by salt crusts of variable mineralogy and these introduce uncertainty into dust emission predictions. Despite the importance of crust mineralogy to emission potential, little is known about (i) the effect of short-term changes in temperature and relative humidity on the erodibility of these crusts, and (ii) the influence of crust degradation and mineralogy on wind speed threshold for dust emission. Our understanding of systems where emission is not driven by impacts from saltators is particularly poor. This paper describes a wind tunnel study in which dust emission in the absence of saltating particles was measured for a suite of climatic conditions and salt crust types commonly found on Sua Pan, Botswana. The crusts were found to be non-emissive under climate conditions characteristic of dawn and early morning, as compared to hot and dry daytime conditions when the wind speed threshold for dust emission appears to be highly variable, depending upon salt crust physicochemistry. Significantly, sodium sulphate rich crusts were found to be more emissive than crusts formed from sodium chloride, while degraded versions of both crusts had a lower emission threshold than fresh, continuous crusts. The results from this study are in agreement with in-situ field measurements and confirm that dust emission from salt crusted surfaces can occur without saltation, although the vertical fluxes are orders of magnitude lower (~ 10 ug/m/s) than for aeolian systems where entrainment is driven by particle impact.
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Nield_etal_2016_AR_accepted_version_uncorrected.pdf
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Nield_etal_2016_published.pdf
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Accepted/In Press date: 12 September 2016
Published date: December 2016
Keywords:
sodium sulphate (mirabilite and thenardite), sodium chloride (halite), aeolian dust source, playa, surface crust, wind tunnel
Organisations:
Earth Surface Dynamics
Identifiers
Local EPrints ID: 401066
URI: http://eprints.soton.ac.uk/id/eprint/401066
ISSN: 1875-9637
PURE UUID: 3d30c1b4-6827-4690-980e-b746ec76035d
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Date deposited: 04 Oct 2016 09:18
Last modified: 15 Mar 2024 05:56
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Contributors
Author:
Cheryl McKenna Neuman
Author:
Patrick O'Brien
Author:
Robert G. Bryant
Author:
Giles F.S. Wiggs
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