On Saharan dust and past climate
On Saharan dust and past climate
North Africa produces more than half of the world’s atmospheric dust load. Once entrained into the atmosphere, this dust plays an important role in Earth’s climate system, modifying the radiative budget regionally, and supplying nutrients that fuel primary productivity across the North Atlantic Ocean and as far afield as the Amazonian Basin. Dust also accumulates in deep sea sediments, providing continuous long-term archives of palaeo-hydroclimate. However, a solid understanding of the provenance of this terrigenous sediment is required to properly interpret these palaeoclimate proxy records. Radiogenic isotope tracers, most commonly Strontium (Sr) and Neodymium (Nd), are used to link the deposition of dust and riverine material preserved in the marine realm to its continental source. In this thesis, I use radiogenic isotopes to i) identify three geochemically distinct preferential dust source areas in North Africa ii) quantify contamination by marine phases, especially marine barite, on the terrigenous fraction of marine sediments and iii) study changes in northwest African hydroclimate through the last 20,000 years, identifying a decoupling between continental rainfall and trade wind strength at the termination of the most recent African Humid Period. Overall, the work presented in this thesis focuses on improving our ability to trace the provenance of windblown dust and riverine terrigenous material preserved in marine archives, which is indispensable for reconstructing long, continuous, and well-dated records of continental climate.
University of Southampton
Jewell, Amy, Margaret
3de1a5a3-b62c-4069-a06e-b2fedb6456e7
30 June 2022
Jewell, Amy, Margaret
3de1a5a3-b62c-4069-a06e-b2fedb6456e7
Wilson, Paul
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
Jewell, Amy, Margaret
(2022)
On Saharan dust and past climate.
University of Southampton, Doctoral Thesis, 125pp.
Record type:
Thesis
(Doctoral)
Abstract
North Africa produces more than half of the world’s atmospheric dust load. Once entrained into the atmosphere, this dust plays an important role in Earth’s climate system, modifying the radiative budget regionally, and supplying nutrients that fuel primary productivity across the North Atlantic Ocean and as far afield as the Amazonian Basin. Dust also accumulates in deep sea sediments, providing continuous long-term archives of palaeo-hydroclimate. However, a solid understanding of the provenance of this terrigenous sediment is required to properly interpret these palaeoclimate proxy records. Radiogenic isotope tracers, most commonly Strontium (Sr) and Neodymium (Nd), are used to link the deposition of dust and riverine material preserved in the marine realm to its continental source. In this thesis, I use radiogenic isotopes to i) identify three geochemically distinct preferential dust source areas in North Africa ii) quantify contamination by marine phases, especially marine barite, on the terrigenous fraction of marine sediments and iii) study changes in northwest African hydroclimate through the last 20,000 years, identifying a decoupling between continental rainfall and trade wind strength at the termination of the most recent African Humid Period. Overall, the work presented in this thesis focuses on improving our ability to trace the provenance of windblown dust and riverine terrigenous material preserved in marine archives, which is indispensable for reconstructing long, continuous, and well-dated records of continental climate.
Text
A_Jewell_PhD_Thesis
- Version of Record
Text
Jewell_Permission to deposit thesis
Restricted to Repository staff only
More information
Published date: 30 June 2022
Identifiers
Local EPrints ID: 467738
URI: http://eprints.soton.ac.uk/id/eprint/467738
PURE UUID: 70401b96-ddb1-42aa-9119-12c83a3fcc35
Catalogue record
Date deposited: 21 Jul 2022 16:55
Last modified: 18 May 2024 04:01
Export record
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