Litcius/Paper detail

Massive deposition of Sahelian dust on the Canary Island Lanzarote during North Atlantic Heinrich Events

Hartmut Heinrich, Christoph Schmidt, Florian Ziemen, Uwe Mikolajewicz, Christopher‐Bastian Roettig

2021Quaternary Research10 citationsDOIOpen Access PDF

Abstract

Abstract New IRSL ages of eolianites close to Muñique (Lanzarote) demonstrate the influence of millennial scale climatic variability on the sedimentary dynamics on the Canary Islands during the last glacial cycle. The repetitive succession of interstadial and stadial climatic conditions formed multiple sequences of eolian deposits, each in general comprising three depositional types. DepoType 1 and DepoType 2 consist mainly of marine biogenic carbonate detritus with small amounts of dust from the Sahara representing interstadial conditions. DepoType 2 compared to DepoType 1 is characterized by larger amounts of land snails and calcified brood cells. A DepoType 3 rich in dust from African subtropical/tropical Latisols terminates a sequence. IRSL dating on DepoType 3 type deposits clearly shows that these were deposited during Heinrich Events under stadial conditions. The stadial cooling of the North Atlantic Ocean caused a southern shift of climate zones that culminated during Heinrich Events when the arctic climate reaches its most southerly extent. As a consequence, atmospheric changes led to massive dust supply from the then-dry Sahel. The increase in dust and precipitation from the dry DepoTypes 1 to the more humid DepoTypes 3 originates from a modified atmospheric dynamic during a millennial cycle.

Topics & Concepts

StadialGeologyAeolian processesDetritusSedimentary depositional environmentOceanographyGlacial periodDeposition (geology)Sedimentary rockClimatologyPaleontologyStructural basinGeology and Paleoclimatology ResearchAeolian processes and effectsPaleontology and Stratigraphy of Fossils