Abstract
Africa spans the hemispheres from temperate region to temperate region and has a long history of hominin evolution. Although the number of Quaternary palaeoclimatic records from the continent is increasing, much of the history of spatial and temporal climatic variability is still debated. Speleothems, as archives of terrestrial hydroclimate variability, can help reveal this history. Here we review the progress made to date, with a focus on the first version of the Speleothem Isotopes Synthesis and AnaLysis (SISAL) database. The geology of Africa has limited development of large karst regions to four areas: along the northern coast bordering the Mediterranean, eastern Africa and the Horn of Africa, southwestern Africa and southern Africa. Exploitation of the speleothem palaeoclimate archives in these regions is uneven, with long histories of research, e.g., in South Africa, but large areas with no investigations such as West Africa. Consequently, the evidence of past climate change reviewed here is irregularly sampled in both time and space. Nevertheless, we show evidence of migration of the monsoon belt, with enhanced rainfall during interglacials observed in northeast Africa, southern Arabia and the northern part of southern Africa. Evidence from eastern Africa indicates significant decadal and centennial scale rainfall variability. In northwestern and southern Africa, precession and eccentricity influence speleothem growth, largely through changing synoptic storm activity.
Highlights
Speleothems are secondary cave carbonates and provide valuable archives of past hydroclimates.In this review, we focus on the speleothem record from Africa, using the Speleothem Isotopes SynthesisQuaternary 2019, 2, 4; doi:10.3390/quat2010004 www.mdpi.com/journal/quaternaryQuaternary 2019, 2, 4 and AnaLysis version 1 database [1,2] as a starting point
We present an overview of the 59 speleothem records findings, provide regional syntheses of the results and outline some key research questions that should from the region, of which 19 are in SISAL_v1 (Table 1)
Tropical climates between the two desert belts are dominated by the seasonal migration of the Intertropical Convergence Zone (ITCZ) that leads to a bimodal seasonal rainfall distribution in equatorial regions and a single rainfall season in more distal regions
Summary
Kerstin Braun 1,2, *,† , Carole Nehme 3,4,† , Robyn Pickering 5,6,† , Mike Rogerson 7,†. Received: 30 September 2018; Accepted: 8 January 2019; Published: 23 January 2019
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