Joaquín Meco James R. Budahn Gary L. Skipp Kathleen R. Simmons Mathew C. Baddock J.T. Betancort A. Lomoschitz Daniel R. Muhs 2021 <div id="abstracts" class="Abstracts u-font-serif"><div id="abs0010" class="abstract author" lang="en"><div id="abssec0010"><p id="abspara0010"><span>Africa is the most important source of dust in the world today and dust storms from that continent frequently deposit sediment on the nearby&nbsp;Canary Islands. Many investigators have inferred African dust inputs to Canary Islands&nbsp;paleosols&nbsp;based only on the presence of quartz. However, some local rocks do contain this mineral, so quartz alone is insufficient proof of dust deposition. Further, it is not known whether the Sahara Desert or the Sahel region is more important as a dust source. We address these issues by study of sequences of Pleistocene aeolian sands on the islands of Lanzarote and Fuerteventura. Aeolian sands are composed mostly of marine&nbsp;carbonate minerals&nbsp;and locally derived volcanic minerals. They date from the early-middle Pleistocene to the&nbsp;Holocene. Trace element&nbsp;geochemistry&nbsp;shows that the soils formed from both locally derived&nbsp;</span>basalt<span>&nbsp;and African dust. Major element geochemistry and clay&nbsp;mineralogy&nbsp;indicate that dust additions to the Canary Islands likely come from both the Sahara and Sahel. Dust delivered from the Sahel indicates that droughts in that region have had a history extending through much of the Quaternary. Accretionary-inflationary profile development, from dust accretion, is evident in the upward growth of Canary Islands paleosols.</span></p></div></div></div><ul id="issue-navigation" class="issue-navigation u-margin-s-bottom u-bg-grey1"></ul> application/pdf 10.1016/j.quascirev.2021.107024 en Elsevier Long-term African dust delivery to the eastern Atlantic Ocean from the Sahara and Sahel regions: Evidence from Quaternary paleosols on the Canary Islands, Spain article