Dust sources in Westernmost Asia have a different geochemical fingerprint to those in the Sahara
Dust sources in Westernmost Asia have a different geochemical fingerprint to those in the Sahara
Dust is an important component of Earth's climate system, directly affecting the global radiation budget and hydrological cycle. The interaction of aerosols with clouds and its impact on regional and global energy budgets remains one of the largest sources of uncertainty in climate model predictions. Records of terrigenous dust accumulation in geological archives also provide a potentially powerful way to assess past changes in hydroclimate. Western Asia, including the Arabian Peninsula, is second only to the Saharan Desert in contributing dust to the global atmosphere. Yet, while satellite-derived maps of dust source activation frequency (DSAF) provide an increasingly granular understanding of the different dust sources within these regions today, our ability to fingerprint their windblown contributions to geological archives is rudimentary, severely limiting the use of dust-based records to reconstruct past changes in continental hydroclimate. A main limitation is a poor understanding of the mineralogical and geochemical composition of the bedrock geology and, more importantly, of the readily deflated unconsolidated sediments in these regions. Here we use published data to produce a DSAF map, centred on the Arabian Peninsula and extending from North Africa to Western Asia (∼40-10 °N; ∼25–65 °E), and we present new radiogenic isotope (Sr and Nd) data from unconsolidated surface sediment samples at active dust-producing sites. We combine our new Sr and Nd data with sparse data on sediments from the literature and the DSAF data to define three new preferential dust source areas (PSAs) in Westernmost Asia: (i) the central belt of the Arabian Peninsula, (ii) the Southern Levant and (iii) Mesopotamia. All three of these PSAs are geochemically distinct from Saharan dust sources. Long-range sediment transport by the Blue Nile and its tributaries, and the Tigris-Euphrates river systems exerts a strong influence on the geochemical fingerprints of dust sources in the Eastern Sahara and Mesopotamia, respectively. The isotopic signature of active dust sources in the central belt of the Arabian Peninsula shows only modest correspondence to underlying bedrock geology suggesting wide scale mixing by aeolian transport internally and/or a weak imprint of palaeo humidity (e.g. localized river reactivation) on dust source composition in comparison to the Eastern Sahara. Our results provide surer foundations for fingerprinting the sources of continental dust accumulating in marine, lacustrine, speleothem and ice archives, an important step in improving our understanding of Quaternary rainfall climate in arguably the most water-stressed region on Earth.
Sr/Sr, Arabian Peninsula, Dust source, North Africa, Radiogenic isotopes, Southwest Asia, εNd
Kunkelova, Tereza
32818c35-f763-4ba3-8640-b9334ad4ae6e
Crocker, Anya J.
1215fbdd-ad43-408a-bd79-c54c6847e68c
Jewell, Amy M.
3de1a5a3-b62c-4069-a06e-b2fedb6456e7
Breeze, Paul S.
4ca0b19e-6f94-4548-a2c5-3334631a67f7
Drake, Nick A.
08835c7b-6c78-429d-84b9-f04b6b3d047b
Cooper, Matthew J.
54f7bff0-1f8c-4835-8358-71eef8529e7a
Milton, J. Andrew
9e183221-d0d4-4ddb-aeba-0fdde9d31230
Hennen, Mark
f2af55e3-b73d-487d-a158-a419fc6cdaef
Shahgedanova, Maria
8689d3ff-1f19-4314-8b3d-53d24bb64fd7
Petraglia, Michael
6811f5e7-712c-47b0-8c75-0de7e53919fe
Wilson, Paul A.
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
15 October 2022
Kunkelova, Tereza
32818c35-f763-4ba3-8640-b9334ad4ae6e
Crocker, Anya J.
1215fbdd-ad43-408a-bd79-c54c6847e68c
Jewell, Amy M.
3de1a5a3-b62c-4069-a06e-b2fedb6456e7
Breeze, Paul S.
4ca0b19e-6f94-4548-a2c5-3334631a67f7
Drake, Nick A.
08835c7b-6c78-429d-84b9-f04b6b3d047b
Cooper, Matthew J.
54f7bff0-1f8c-4835-8358-71eef8529e7a
Milton, J. Andrew
9e183221-d0d4-4ddb-aeba-0fdde9d31230
Hennen, Mark
f2af55e3-b73d-487d-a158-a419fc6cdaef
Shahgedanova, Maria
8689d3ff-1f19-4314-8b3d-53d24bb64fd7
Petraglia, Michael
6811f5e7-712c-47b0-8c75-0de7e53919fe
Wilson, Paul A.
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
Kunkelova, Tereza, Crocker, Anya J., Jewell, Amy M., Breeze, Paul S., Drake, Nick A., Cooper, Matthew J., Milton, J. Andrew, Hennen, Mark, Shahgedanova, Maria, Petraglia, Michael and Wilson, Paul A.
(2022)
Dust sources in Westernmost Asia have a different geochemical fingerprint to those in the Sahara.
Quaternary Science Reviews, 294, [107717].
(doi:10.1016/j.quascirev.2022.107717).
Abstract
Dust is an important component of Earth's climate system, directly affecting the global radiation budget and hydrological cycle. The interaction of aerosols with clouds and its impact on regional and global energy budgets remains one of the largest sources of uncertainty in climate model predictions. Records of terrigenous dust accumulation in geological archives also provide a potentially powerful way to assess past changes in hydroclimate. Western Asia, including the Arabian Peninsula, is second only to the Saharan Desert in contributing dust to the global atmosphere. Yet, while satellite-derived maps of dust source activation frequency (DSAF) provide an increasingly granular understanding of the different dust sources within these regions today, our ability to fingerprint their windblown contributions to geological archives is rudimentary, severely limiting the use of dust-based records to reconstruct past changes in continental hydroclimate. A main limitation is a poor understanding of the mineralogical and geochemical composition of the bedrock geology and, more importantly, of the readily deflated unconsolidated sediments in these regions. Here we use published data to produce a DSAF map, centred on the Arabian Peninsula and extending from North Africa to Western Asia (∼40-10 °N; ∼25–65 °E), and we present new radiogenic isotope (Sr and Nd) data from unconsolidated surface sediment samples at active dust-producing sites. We combine our new Sr and Nd data with sparse data on sediments from the literature and the DSAF data to define three new preferential dust source areas (PSAs) in Westernmost Asia: (i) the central belt of the Arabian Peninsula, (ii) the Southern Levant and (iii) Mesopotamia. All three of these PSAs are geochemically distinct from Saharan dust sources. Long-range sediment transport by the Blue Nile and its tributaries, and the Tigris-Euphrates river systems exerts a strong influence on the geochemical fingerprints of dust sources in the Eastern Sahara and Mesopotamia, respectively. The isotopic signature of active dust sources in the central belt of the Arabian Peninsula shows only modest correspondence to underlying bedrock geology suggesting wide scale mixing by aeolian transport internally and/or a weak imprint of palaeo humidity (e.g. localized river reactivation) on dust source composition in comparison to the Eastern Sahara. Our results provide surer foundations for fingerprinting the sources of continental dust accumulating in marine, lacustrine, speleothem and ice archives, an important step in improving our understanding of Quaternary rainfall climate in arguably the most water-stressed region on Earth.
Text
Kunkelova_etal_QSR_resubmission
More information
Accepted/In Press date: 10 August 2022
e-pub ahead of print date: 13 October 2022
Published date: 15 October 2022
Additional Information:
Funding Information:
This work was supported by the Natural Environment Research Council (NERC) [studentship number NE/L002531/1 to TK] and by a Royal Society Challenge Grant CH160073 , a Royal Society Wolfson Merit Award to PAW and a University of Southampton GCRF award to PAW and AJC. Research by PSB utilised in this paper was funded by the Leverhulme Trust ( ECF-2019-538 ) and NERC ( NE/J500306/1 ). We acknowledge the support of the Heritage Commission , Saudi Ministry of Culture , and the Max Planck Society for field research in the Kingdom of Saudi Arabia. We thank Charlie Bristow for stimulating discussions and sample acquisition, Kevin White (the University of Reading) for help with accessing the remote sensing data, Jani Radebaugh for help with sample acquisition, Amelia Gale, Megan Wilding, Sarge Bray and Bastian Hambach for laboratory assistance. We thank Steve Bohaty, Kerstin Schepanski, Werner Ehrmann, Clive Gamble, Huw Groucutt, Ellie Pryor and Ellie Scerri for stimulating discussions. We are grateful to Adi Torfstein, an anonymous reviewer and editor Miryam Bar-Matthews for constructive comments that significantly improved this contribution.
Publisher Copyright:
© 2022 Elsevier Ltd
Keywords:
Sr/Sr, Arabian Peninsula, Dust source, North Africa, Radiogenic isotopes, Southwest Asia, εNd
Identifiers
Local EPrints ID: 471540
URI: http://eprints.soton.ac.uk/id/eprint/471540
ISSN: 0277-3791
PURE UUID: d9560521-3936-483d-9578-07e25769460b
Catalogue record
Date deposited: 10 Nov 2022 17:41
Last modified: 19 Apr 2024 01:54
Export record
Altmetrics
Contributors
Author:
Paul S. Breeze
Author:
Nick A. Drake
Author:
Mark Hennen
Author:
Maria Shahgedanova
Author:
Michael Petraglia
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
