430,000-year-old
nuclear genome sequences confirms affinities
Sima de los Huesos (‘Pit of
Bones’)is a small muddy chamber lying at the bottom of a 13 m (43 ft.) chimney,
lying deep within the Cueva Mayor system of caves in the Sierra de Atapuerca of
northern Spain. Hominin remains were first reported there in the 1970s, and to
date the remains of 28 individuals have been recovered. The Sima hominins lived
around 430,000 years ago and while conventionally described as Homo heidelbergensis, they share some
derived features with Neanderthals. This has led some to suggest that they are
very early Neanderthals.
In 2014, mitochondrial DNA was obtained
from the thighbone of one of the Sima hominins. It was expected that it would
show affinities to later sequences obtained from Neanderthals, but instead it
suggested that the Sima hominins were more closely related to Denisovans. However,
mitochondrial DNA does not reveal the full picture of relationships among
populations, so researchers set about the more difficult task of obtaining
nuclear sequences from the Sima remains.
Genetic material was recovered
from an incisor and a molar tooth, a fragment of a thighbone and a shoulder
blade. Useful sequences were obtained from the incisor tooth and the thighbone
fragment. The results have shown that the Sima hominins were, after all, more
closely related to Neanderthals than they were to Denisovans. The Sima hominins
were thus either early Neanderthals or closely related to the ancestors of
Neanderthals after diverging from a common ancestor shared with the Denisovans.
The age of the Sima remains is compatible with earlier estimates that the Neanderthal/Denisovan
split occurred between 381,000 and 473,000 years ago. Based on the correctness
of these estimates, modern humans diverged from Neanderthals 550,000 to 765,000
years ago – too early for later examples of Homo
heidelbergensis such as Arago or Petralona to belong to a population
ancestral to both Neanderthals and modern humans. The true common ancestor may
be Homo antecessor, which was present
in Spain from 1.2 million to 800,000 years ago and might have been responsible
for the hominin footprints discovered at Happisburgh, England, in May 2013.
However, this species has yet to be identified in Africa and may be a European
variant of Homo erectus that migrated
from Asia.
The Denisovan affinities of the
mitochondrial DNA are still unexplained. One possibility is that the common
ancestor carried mitochondrial lineages present in both, but later eliminated
from the Neanderthals. The authors noted that this requires an explanation for
the presence of two deeply divergent mtDNA lineages in the same archaic group,
one that later recurred in Denisovans but disappeared from the Neanderthals; and
one that became fixed in Neanderthals. The required explanation might be later
population bottlenecks that are known to have affected Neanderthal populations.
However, the authors preferred explanation is that the mitochondrial genomes of
later European Neanderthals was acquired by interbreeding with hominins from
Africa. This might explain the absence of Neanderthal-derived morphological
traits in some European Middle Pleistocene hominins such as Ceprano and Mala
Balanica.
Reference:
Meyer, M. et al., Nuclear DNA sequences from the
Middle Pleistocene Sima de los Huesos hominins. Nature (Published
online) (2016).
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