The evolutionary relationships and age of Homo naledi: An assessment using dated Bayesian phylogenetic methods

Dembo, Mana; Radovčić, Davorka; Garvin, Heather M.; Laird, Myra F.; Schroeder, Lauren; Scott, Joseph W.; Brophy, Juliet K.; Ackermann, Rebecca Rogers; Musiba, Charles M.; Ruiter, Darryl J. de; Mooers, Arne Ø.; Collard, Mark

doi:10.1016/j.jhevol.2016.04.008

Cited by 124 publications

(179 citation statements)

References 48 publications

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“…This general assumption has commonly guided the interpretation of fossil discoveries with poor geological or stratigraphic context, including initial estimates for the age of the H. naledi fossils (Thackeray, 2016; Dembo et al, 2016). The new age estimates for H. naledi show that an approximate age for the hominin fossil fragments cannot be simply deduced from their morphology (Thackeray, 2016; Dembo et al, 2016). Detailed geological investigations are critical before any attempt to ascribe an age to the fossils is made, and even then great care must be taken in interpreting results, which may not always be conclusive (e.g.…”

Section: Discussionmentioning

confidence: 99%

“…U-Th dating is more precise in the <500 ka range than U-Pb dating, and is much less critically affected by detrital material. The initial tests with U-Th disequilibrium dating revealed that the fossils may be much younger than originally anticipated (e.g., Dembo et al, 2016; Thackeray, 2016), and mostly well within the range of the U-Th technique. Therefore, U-Pb dating was not pursued further.…”

Section: Introductionmentioning

confidence: 85%

“…Preliminary work was focussed on assessing the viability of U-series techniques for flowstone dating, using 14 C for dating bone fragments, and using OSL to test samples of quartz-bearing Unit 1 (Dirks et al, 2015). Initial tests were carried out at the University of Johannesburg (UJ) to assess suitability for U-Pb dating, which allows for the dating of older (>500 ka) flowstone material (e.g., Walker et al, 2006; Pickering et al, 2010; Pickering and Kramers, 2010), on the assumption that the H. naledi material could be older than 1 Ma based on its primitive morphology (Berger et al, 2015; Dembo et al, 2016; Hawks and Berger, 2016; Thackeray, 2016; Hawks et al, 2017). It was found that the older flowstones in the Dinaledi Chamber contained excessive common Pb caused by the inclusion of detrital material (mainly clays) making them unsuitable for U-Pb dating (Dirks et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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The age of Homo naledi and associated sediments in the Rising Star Cave, South Africa

Dirks

Roberts

Hilbert-Wolf

et al. 2017

eLife

254

147

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New ages for flowstone, sediments and fossil bones from the Dinaledi Chamber are presented. We combined optically stimulated luminescence dating of sediments with U-Th and palaeomagnetic analyses of flowstones to establish that all sediments containing Homo naledi fossils can be allocated to a single stratigraphic entity (sub-unit 3b), interpreted to be deposited between 236 ka and 414 ka. This result has been confirmed independently by dating three H. naledi teeth with combined U-series and electron spin resonance (US-ESR) dating. Two dating scenarios for the fossils were tested by varying the assumed levels of 222Rn loss in the encasing sediments: a maximum age scenario provides an average age for the two least altered fossil teeth of 253 +82/–70 ka, whilst a minimum age scenario yields an average age of 200 +70/–61 ka. We consider the maximum age scenario to more closely reflect conditions in the cave, and therefore, the true age of the fossils. By combining the US-ESR maximum age estimate obtained from the teeth, with the U-Th age for the oldest flowstone overlying Homo naledi fossils, we have constrained the depositional age of Homo naledi to a period between 236 ka and 335 ka. These age results demonstrate that a morphologically primitive hominin, Homo naledi, survived into the later parts of the Pleistocene in Africa, and indicate a much younger age for the Homo naledi fossils than have previously been hypothesized based on their morphology.DOI: http://dx.doi.org/10.7554/eLife.24231.001

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 85%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

The age of Homo naledi and associated sediments in the Rising Star Cave, South Africa

Dirks

Roberts

Hilbert-Wolf

et al. 2017

eLife

254

147

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“…Lower Pleistocene hominins from the Gran Dolina site (Burgos, Spain) are hypothetical ancestors of H. heidelbergensis (and thus Neanderthals) and are also thought to have large thoraces because of their long clavicles 6,30 . Whether H. antecessor is actually a species itself or represents an European branch of H. erectus / ergaster 34 , recent Bayesian analyses 58,59 suggest that H. antecessor belongs to a basal clade of modern human and Neanderthals, alongside other early Homo species such as H. erectus , ergaster and the recently discovered species named as H. naledi 60 . Therefore, H. antecessor could be used as an approach to test whether large bodied early Homo species already presented a large TLC.…”

Section: Discussionmentioning

confidence: 99%

Ribcage measurements indicate greater lung capacity in Neanderthals and Lower Pleistocene hominins compared to modern humans

et al. 2018

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Our most recent fossil relatives, the Neanderthals, had a large brain and a very heavy body compared to modern humans. This type of body requires high levels of energetic intake. While food (meat and fat consumption) is a source of energy, oxygen via respiration is also necessary for metabolism. We would therefore expect Neanderthals to have large respiratory capacities. Here we estimate the pulmonary capacities of Neanderthals, based on costal measurements and physiological data from a modern human comparative sample. The Kebara 2 male had a lung volume of about 9.04 l; Tabun C1, a female individual, a lung volume of 5.85 l; and a Neanderthal from the El Sidrón site, a lung volume of 9.03 l. These volumes are approximately 20% greater than the corresponding volumes of modern humans of the same body size and sex. These results show that the Neanderthal body was highly sensitive to energy supply.

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“…Although the recently discovered Dinaledi (Homo naledi) sample provides a distinctly human tarsometatarsal skeleton, its lateral pedal proximal phalanges have been described as having a mixture of australopith and later human features (Harcourt-Smith et al, 2015). Unfortunately, secure dates for this sample remain elusive (Dembo et al, 2016). It therefore remains unclear when the full morphology of the human lateral forefoot emerged.…”

Section: Introductionmentioning

confidence: 99%

An Early Pleistocene human pedal phalanx from Swartkrans, SKX 16699, and the antiquity of the human lateral forefoot

Trinkaus

Patel

2016

Comptes Rendus Palevol

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The evolutionary relationships and age of Homo naledi: An assessment using dated Bayesian phylogenetic methods

Cited by 124 publications

References 48 publications

The age of Homo naledi and associated sediments in the Rising Star Cave, South Africa

The age of Homo naledi and associated sediments in the Rising Star Cave, South Africa

Ribcage measurements indicate greater lung capacity in Neanderthals and Lower Pleistocene hominins compared to modern humans

An Early Pleistocene human pedal phalanx from Swartkrans, SKX 16699, and the antiquity of the human lateral forefoot

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