Reprint

 

/Did Early Humans go North or South?/
/ Where Out-of-Africa humans entered Asia/

/by Peter Forster and Shuichi Matsumura/

------------------------------------------------------------------------

  

 

Published 2005 as "Did Early Humans go North or South?", /Science/,
308:965-966, 13 May 2005.

The authors are at the McDonald Institute for Archaeological Research,
University of Cambridge CB2 3ER, England
E-mail: pf223@cam.ac.uk

 

By analyzing the DNA of living humans from different locations,
geneticists are able to assemble a detailed reconstruction of
prehistoric human colonization of the world. This research endeavor was
championed by the late Allan Wilson and his colleagues (refs. 1, 2), who
led the way with their studies of maternally inherited mitochondrial DNA
(mtDNA). Their work led to the proposal of a recent African origin for
modern humans, some 5000 generations ago. Anthropologists and
geneticists have since joined forces to create a broad framework
ofpossible prehistoric human migration routes and time scales (refs.
3-6). The two latest additions to this framework are described by
Thangaraj /et al./ (ref. 7) on page 996 and Macaulay/ et al./ (ref. 8;
on page 1034 of issue 308 of /Science/).

Our current understanding is that modern humans arose - 150,000 years
ago, possibly in East Africa, where human genetic diversity is
particularly high. Subsequent early colonization within Africa is
supported by old genetic mtDNA and Y chromosome branches (often called
"haplogroups") in the Bushmen or Khoisan of the Kalahari Desert, and in
certain pygmy tribes in the central African rainforest. Early humans
even ventured out of Africa briefly, as indicated by the 90,000-year-old
Skhul and Qafzeh fossils found in Israel. The next event clearly visible
in the mitochondrial evolutionary tree is an expansion signature of
so-called L2 and L3 mtDNA types in Africa about 85,000 years ago, which
now represent more than two-thirds of female lineages throughout most of
Africa. The reason for this remarkable expansion is unclear, but it led
directly to the only successful migration out of Africa, and is
genetically dated by mtDNA to have occurred some time between 55,000 and
85,000 years ago. Studies of the paternally inherited Y chromosome yield
time estimates for the African exodus that are in broad agreement with
those derived from mtDNA.

It is at this point in the narrative that the studies by Thangaraj et
al. (ref. 7) and Macaulay et al. (ref. 8) come into the picture. Which
route did the first Eurasians take out of Africa? Most obvious, perhaps,
is the route along the Nile and across the Sinai Peninsula leading into
the rest ofthe world (see the map below). But if that were so, why was
adjacent Europe settled thousands of years later than distant Australia?
In Europe, Neanderthals were replaced by modern humans only about 30,000
to 40,000 years ago, whereas southern Australia was definitely inhabited
46,000 years ago and northern Australia and Southeast Asia necessarily
even earlier (refs. 9, 10). Or did our ancestors instead depart from
East Africa, crossing the Red Sea and then following the coast of the
Indian Ocean (ref. 11)? A purely coastal "express train" would
conveniently explain the early dates for human presence in Australia,
but would require that humans were capable of crossing the mouth of the
Red Sea some 60,000 years ago. Why, then, was this feat not repeated by
any later African emigrants, particularly when the Red Sea level dropped
to a minimum about 20,000 years ago?

 

*Map below: *How did they get there? Hypothetical routes along the
Indian Ocean coastline that could have been taken by early humans
emigrating out of Africa. The oldest human traces outside of Africa and
the Levant are at Lake Mungo in Australia (>46,000 years old) and in the
Niah Cave of Borneo (>45,000 years ago). New mtDNA data, from Malaysians
and aboriginal Andaman islanders, suggest that human settlements
appeared along the Indian Ocean coastline 60,000 years ago (ref. 7, 8). 

	

	

 

/red arrows: /the two main options
/brown arrows:/ the further progress

A. Bab-el-Mandeb strait (southern route)
B. Sinai (northern route)
C. Straight of Hormuz
D. Andaman islands
E. Nicobar islands
F. Malay peninsula
G. Nias cave (Kalimantan, Borneo)
H. Lake Mungo

Ideally, these questions would be answered by investigating ancient
fossils and DNA from the Arabian Peninsula. But because this option is
currently not available, Thangaraj /et al./ and Macaulay /et al./ have
centered their investigation on the other side of the Indian Ocean, in
the Andaman Islands and Malaysian Peninsula. Both groups used genetic
studies of relict populations known to differ substantially from their
Asian neighbors to estimate the arrival time of the first humans in
these locations. Thangaraj and colleagues sampled the Andamanese, who
were decimated in the 19th century by diseases imported by the British
and then suffered displacement by modem Indian immigration (ref. 12).
Macaulay and co-workers sampled the native tribal people of Malaysia,
called the /Orang Asli /("original people").

Fortunately, the two teams arrived at compatible conclusions. In the
Andaman Islands, Thangaraj /et al/. identified the M31 and M32 mtDNA
types among indigenous Andamanese. These two mtDNA types branched
directly from M mtDNA, which arose as a founder 65,000 years ago. This
time estimate for the arrival of M founder mtDNA is matched by that of
Macaulay and co-workers. These investigators found mtDNA types M2l and
M22 in their Malaysian data set. These M types are geographically
specific branches of M that branched off from other Asian mtDNA lineages
around 60,000 years ago. Thus, the first Eurasians appear to have
reached the coast of the Indian Ocean soon after leaving Africa,
regardless of whether they took the northern or the southern route.
Interestingly, the adjacent Nicobar Islands do not harbor any old mtDNA
branches specific to the islands. Instead, their mtDNA has a close and
hence recent genetic relationship (on the order of 15,000 years or less)
with the mtDNA of other Southeast Asian populations. This is not
unexpected given the more Asian appearance of the Nicobar islanders.

Macaulay and colleagues go two steps further and estimate the
prehistoric migration speed of early humans along the coast of the
Indian Ocean; they also estimate the likely population size ofthe
emigrant population. Comparing genetic dates of founder types between
India and Australia, and assuming a 12,000-km journey along the Indian
Ocean coastline, they suggest a migration speed for the first Eurasians
of 0.7 to 4 km per year. This value is of the same order of magnitude as
genetically dated inland journeys of migrant populations during the last
Ice Age, 60,000 to 10,000 years ago (ref. 6).

One intriguing question is the number of women who originally emigrated
out of Africa. Only one is required, theoretically. Such a single female
founder would have had to carry the African L3 mtDNA type, and her
descendants would have carried those mtDNA types (M, N, and R) that
populate Eurasia today. Macaulay/ et al./ use population modeling to
obtain a rough upper estimate of the number of women who left Africa
60,000 years ago. From their model, they calculate this number to be
about 600. Using published conversion factors, we can translate this
estimate into a number between 500 and 2,000 actual women. The authors'
preferred estimate is several hundred female founders. All such
estimations are influenced by the choice of parameters and by
statistical uncertainty; hence, it is understood that the true number
could have been considerably larger or smaller. Improved estimates will
involve computer simulations based on informed scenarios using
additional genetic loci.

Time is short if researchers wish to secure data on dwindling indigenous
populations such as the Andamanese and the Orang Asli. The studies by
Macaulay et al. and Thangaraj et al., which are devoted to the peoples
inhabiting the "southern route" along the Indian Ocean, are therefore
very welcome. We hope that the new findings will inspire archaeological
exploration between the Arabian Peninsula and Southeast Asia in search
of the remains of the first Eurasians 50,000 to 100,000 years ago.

 

/References/

1. Cann R.L., Stoneking M., Wilson A.C. 1987. /Nature /325:31

2. Vigilant L., Stoneking M., Harpending H., Hawkes K., Wilson A.C.
1991. /Science/ 253:1503

3. Endicott /P. et al./ 2003. /Am.Hum.Genet./ 72:178

4. Cordaux R., Stoneking M. 2003. /Am.Hum.Genet/. 72:1586

5. P.A. Underhill. 2003. Cold Spring Harbor Symp.Quant.Biol. 68:487

6. Forster P., /Philos.Trans.R.Soc.London B Biol.Sci./ 2004. 359:255

7. Thangaraj K/. et al./, /Science/. 2005. 308:996
<../thangaraj/rep-thangaraj.htm>

8. Macaulay V./et al/., /Science/. 2005. 308:1034

9. Barker G., /Asian Perspect/. 2005. 44:90

10. Bowler J.M. /et al/., /Nature/. 2003. 421:837

11. Oppenheimer S., /Out of Eden /. 2003. Constable, London

12. Venkateswar S., /Sci.Am. /May 1999. 280: 82

 

 

 

 

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