Ecological stability of Late Pleistocene-to-Holocene Lesotho, southern Africa, facilitated human upland habitation

Patalano, Robert; Arthur, Charles; Carleton, W. Christopher; Challis, Sam; Dewar, Genevieve; Gayantha, Kasun; Gleixner, Gerd; Ilgner, Jana; Lucas, Mary; Marzo, Sara; Mokhachane, Rethabile; Pazan, Kyra; Spurite, Diana; Morley, Mike W.; Parker, Adrian; Mitchell, Peter; Stewart, Brian; Roberts, Patrick

doi:10.1038/s43247-023-00784-8

Commun Earth Environ

2023

DOI: 10.1038/s43247-023-00784-8

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Ecological stability of Late Pleistocene-to-Holocene Lesotho, southern Africa, facilitated human upland habitation

Robert Patalano

Charles Arthur

W. Christopher Carleton

et al.

Abstract: Investigation of Homo sapiens’ palaeogeographic expansion into African mountain environments are changing the understanding of our species’ adaptions to various extreme Pleistocene climates and habitats. Here, we present a vegetation and precipitation record from the Ha Makotoko rockshelter in western Lesotho, which extends from ~60,000 to 1,000 years ago. Stable carbon isotope ratios from plant wax biomarkers indicate a constant C3-dominated ecosystem up to about 5,000 years ago, followed by C4 grassland expa… Show more

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Cited by 2 publications

References 117 publications

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Diatomite evidence for a small palaeo mountain lake at 3400 m asl, Lesotho, southern Africa

Fitchett,

Mackay

2024

J Quaternary Science

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The Eastern Lesotho Highlands experience an excess of rainfall sufficient to form the country's primary export, supplying the economic hub of southern Africa, Gauteng South Africa. However, there is currently only one natural lake in the country, Letšeng‐la Letsie, and evidence of palaeolakes in the region is therefore of particular interest. This study presents the analysis of a diatomite outcrop from a depression northwest of Mafadi Summit, at 3400 m asl. The presence of diatomite, dominated by the facultative planktonic species Staurosirella pinnata and Staurosira construens and abundant planktonic Aulacoseira ambigua, is indicative of the continuous presence of a shallow lake between ~4600 and 100 cal a bp. Comparative analysis of rainfall for the Mafadi and Letšeng‐la Letsie regions from CHIRPS gridded rainfall data demonstrates sufficient rainfall for a lake of comparable size, if not larger, as Mafadi receives considerably more rainfall than Letšeng‐la Letsie. Analysis of the SRTM 30‐m Digital Elevation Model and Topographic Position Index calculations demonstrate the feasibility of a shallow surface water feature at Mafadi. The conversion of this palaeolake into the contemporary wetland is hypothesized to be the result of post‐industrial warming, possibly augmented by migration of livestock into the Eastern Lesotho Highlands.

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Diatomite evidence for a small palaeo mountain lake at 3400 m asl, Lesotho, southern Africa

Fitchett,

Mackay

2024

J Quaternary Science

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Early LGM Environments Accelerated the MSA/LSA Transition in Southern African Highlands: the Robberg’s Emergence at Melikane (Lesotho)

Pazan,

Stewart,

Dewar

2023

J Paleo Arch

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Melikane, a large sandstone rockshelter in the Maloti-Drakensberg Mountains of highland Lesotho, preserves an 80,000 year-old archaeological sequence including two layers (4 & 5) dated to the onset of the Last Glacial Maximum (LGM), ~ 24 kcal BP. Paleoenvironmental proxies indicate that these layers were associated with increasing aridi cation and changes in resource distribution. An analysis of > 17,000 lithic artifacts combining attribute and morphometric approaches reveals that these environmental changes occurred alongside the adoption of Later Stone Age (LSA) Robberg bladelet technology at the site (Layer 4), which developed out of an early microlithic industry we classify as "incipient Robberg" (Layer 5). We argue that the accelerated implementation and standardization of bladelet technology in Layer 4 was the consequence of modifying and expanding existing technologies to function in a high-stakes LGM environment. While intrasite continuities and gradual changes in aking systems at Melikane are inconsistent with the Robberg's arrival via population replacement or migration (cf. Bousman and Brink, 2018), shared aking systems with penecontemporary sites also implicate a role for cultural transmission in the Robberg's development and demand an alternate explanation for its use in nonmarginal environments.We attribute its adoption in southern Africa more broadly to the extraordinary exibility of bladelet technology and an ongoing cycle of connectivity and isolation throughout the LGM, encouraging the development of new aking systems and their subsequent coalescence and diffusion. population incursions from further north. Sampson (1974) modi ed this idea, asserting that microlithic industries had origins in southern Zambia and Rhodesia (Zimbabwe). J.D. Clark (1959) andHumphreys (1972) were among others advocating for migration theories. Models incorporating climate became more popular in the second half of the twentieth century: J. D. Clark (1974) and Phillipson (1976Phillipson ( , 1977 suggested that microlithic technology evolved independently in many areas, taking forms most advantageous to the local environment. H.J. Deacon (1976) proposed that microlithic techniques arrived though diffusion and were then modi ed to suit environmental conditions. Mitchell's (1988) hypothesis, speci c to the Maloti-Drakensberg mountains of highland Lesotho, implicated the LGM as an impetus for microlithization, positing that microlithic technologies were adaptive in "time-stressed" environments (Torrence, 1983). By the end of the twentieth century, "gradualist" theories rejected a sudden population replacement or migration entirely. Built on sites with long occupation histories like Sehonghong, Umhlatuzana, and Rose Cottage Cave, these hypotheses recognized intrasite continuities and subtle temporal trends (A.

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Ecological stability of Late Pleistocene-to-Holocene Lesotho, southern Africa, facilitated human upland habitation

Cited by 2 publications

References 117 publications

Diatomite evidence for a small palaeo mountain lake at 3400 m asl, Lesotho, southern Africa

Diatomite evidence for a small palaeo mountain lake at 3400 m asl, Lesotho, southern Africa

Early LGM Environments Accelerated the MSA/LSA Transition in Southern African Highlands: the Robberg’s Emergence at Melikane (Lesotho)

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