Several years ago, Gudju Gudju Fourmile welcomed
back several members of his Yidinji community who had been taken from
their homes in northern Australia almost a century ago. Like many other
Indigenous communities in Australia, the Yidinji have worked for decades
to bring the bodies of their ancestors home — which Aboriginal
communities describe as returning to Country.
Many of the
ancestors are off Country as a result of the dehumanizing practices of
the nineteenth and early twentieth centuries, when it was common for
white collectors to loot graves and sell the remains of Aboriginal
people to museums in Australia, the United Kingdom and other countries.
“When our remains are off Country, we try to make sure they come back,”
says Fourmile, an elder in the community who lives in Cairns. “They need
to be comfortable. That’s a big thing for many tribal groups.” And when
his community finally reburied its ancestors in 2014, “everybody was so
happy. And the Country felt good again,” Fourmile says.
Before
the Yidinji elders laid their ancestors to rest, they received a request
from scientists who had been analysing the DNA of living community
members: could they sequence the ancestors’ genomes, too? With
permission granted, a team led by evolutionary geneticist David Lambert
at Griffith University in Brisbane extracted DNA from the remains of one
individual, and confirmed that the ancient person was closely related
to Yidinji people alive today1,2.
“When you find something out like that, you jump for joy,” says
Fourmile. The event also marked a turning point in the mindset of the
community, he says, when members started to realize the potential of DNA
analysis to help bring their people back home.
In the past 30
years or so, museums have responded to complaints by repatriating
thousands of human remains and sacred objects to Indigenous Australian
groups such as the Yidinji. But many more — possibly thousands — lack
the information necessary to return them to one of the dozens of
distinct Indigenous groups in Australia. That is a source of great
distress for communities. Lambert’s team published a study in 2018
showing that ten remains, including those of one ancient Yidinji
individual, could be linked to specific Indigenous communities through
genetics1.
Now,
two teams in Australia, including Lambert’s, are partnering with
Indigenous communities to create genomic maps that connect ancient and
historical remains with present-day groups. Such catalogues could
eventually be used to help return remains to the right communities.
Australia is one country where this approach is being
trialled. DNA research is confirming that many Indigenous groups have
lived on the continent for tens of thousands of years2,3.
In some places, it has established that ancient individuals are closely
related to present-day groups living in the same region1.
Drawing such links in other regions, such as North America, has proved
more difficult, because ancient populations there seem to have moved
around more.
One of these projects could eventually be used by
Indigenous people who are still suffering from past government actions,
particularly a racist Australian policy lasting until 1970 that removed
thousands of Aboriginal children from their families. These children
became known as the ‘Stolen Generations’, and many of them are alive
today. A DNA database of Indigenous groups could help some individuals
to understand their genetic heritage and identify their homeland.
But
such efforts raise concerns. As a result of the history of
mistreatment, some Indigenous people fear that unscrupulous governments
or scientists might misuse their genetic information. And there are
tensions over who should control the data and whether scientists can
freely share genomic sequences.
Fourmile says that Yidinji people
agreed to the study because they had control of the data. “We’ve done a
flip, and now we’re wanting them to study us for our own benefit to
bring our people home,” he says.
Going back to Country
The
arrival of European colonizers in Australia in the late 1780s marked
the beginning of a scientific grave-robbing era there, when white people
collected Indigenous human remains for research — including
now-discredited ‘racial science’ theories linking intellect with
anatomical differences. By the end of the nineteenth century, most major
museums around the world housed Indigenous Australian remains.
The
collection of such remains was part of the broader subjugation of
Indigenous Australians by Europeans, which has led to generational
trauma. Authorities determined where people could live and work, whom
they could marry and whether they could keep their children. Tribal
groups were also systematically moved off their land and placed on
reserves and missions, where their movements were restricted. “They were
trying to get us away from our traditional lands,” says Michael Young, a
member of the adjoining Paakantyi and Parrintyi tribal groups, which
stretch across a large swathe of southwestern New South Wales.
Aboriginal
groups began fighting for the return of their ancestors in the 1970s,
as part of a wider movement against the ongoing discrimination against
them. By the 1980s, the growing pressure prompted some museums to
introduce policies to return human remains and sacred objects to their
communities.
Tracking down the traditional owners of ancestral
remains is important for Aboriginal people because it is part of
reclaiming their identities after being forced to assimilate into white
Australia, says Young. “Repatriation is healing some of that wrong that
has been done to us over the last 230 years,” he says.
So far,
Indigenous communities have regained custodianship of more than 2,500
sets of ancestral remains from Australian museums, according to the
government’s repatriation programme (see ‘Mapping ancestors’). And in
the past 30 years, more than 1,500 sets of ancestral remains have been
returned to Australia, mostly from the United Kingdom, but also from the
United States, Canada and half a dozen European nations, although some
museums still refuse to repatriate remains and cultural objects.
Source: Refs 1 and 3; Australian Govt. Dept. Communication and the Arts
But there are probably several thousand sets of remains in
Australian museums whose origin remains unknown, says Deanne
Hanchant-Nichols, an anthropologist in Adelaide with experience in
trying to identify unprovenanced remains and a member of the Tanganekald
and Barkindji (or Paakantyi) communities. Many of the bodies are simply
labelled ‘Aboriginal’, with no other identifying details, she says.
In
2016, Lambert laid the groundwork for ways to solve this problem, as
part of a team that was charting the continent’s genetic history2.
Lambert worked with elders to collect DNA samples and shared the team’s
findings about the ancestry of some contemporary Indigenous
Australians. During these conversations, the elders and Lambert
discussed whether DNA could also reveal where ancient remains in museums
had come from. Lambert said it was possible, but he was cautious not to
predict the result before they did the analysis. “We’ve got to be
careful about this kind of research,” he says.
Lambert got
permission from the elders of 11 Aboriginal groups, including the
Yidinji and the Paakantyi, to test the idea; several members of
Indigenous communities, including Fourmile and Young, joined the study
as co-authors.” His team sequenced DNA from 27 sets of human remains —
mostly bones, but also teeth and hair — from individuals who died before
British settlers arrived and whose burial location was known1. Most of these remains have been repatriated.
Despite
Australia’s sweltering heat, which degrades DNA in remains, the team,
co-led by Lambert and evolutionary geneticist Eske Willerslev at the
Natural History Museum of Denmark in Copenhagen, obtained mitochondrial
genomes from all 27 remains and full or partial nuclear genomes from 10
of them1 (see ‘Mapping ancestors’).
The
DNA in mitochondria — cells’ power plants — is generally inherited
maternally and is present in many more copies in cells than nuclear DNA.
But Lambert’s team — which included Joanne Wright, then a PhD student
at Griffith University — found it was of limited use in linking remains
to contemporary groups: 11 of the remains had no conclusive match in a
database of more than 100 mitochondrial genomes from Indigenous
Australians, and two were linked to the wrong geographic area.
Nuclear
DNA proved a much richer source of ancestry information for matching
remains to present-day communities. Lambert’s team compared the 10
ancient nuclear genomes to those of 100 Indigenous Australians living
across the country. In all ten cases, the ancestral remains were most
closely related to the Indigenous people in their study who came from
the same geographical area.
For instance, one of the ancient
individuals is estimated to have lived at least 2,000 years ago, and
their remains were excavated from a well-known Aboriginal burial ground
in the Willandra Lakes region in far western New South Wales in 1974.
The closest relatives of that person are members of the Willandra groups
who live in the area today.
Lambert is now negotiating with the
Queensland Museum and its board of Indigenous advisers to sequence about
300 unprovenanced remains housed at the museum, to test whether their
place of origin can be identified. Young agrees that genetic matching
could be a powerful tool for repatriating ancestors to the right
community. But he would like to see more proof of its accuracy before
the approach is applied to unprovenanced remains. The risk of
repatriating remains to the wrong community could be reduced, he adds,
by combining genomic analysis with anthropological evidence.
Incorporating cultural knowledge from communities and information from
museum archives could also help.
Moreover, Young says that such
efforts should include more Indigenous scientists, who are aware of the
culture and can discuss with communities how the research can help to
reinforce their connection to Country. He is working with Lambert and
others to set up scholarships for Aboriginal people to study genetics.
“I’d love more Aboriginal people to get into that area,” he says.
A map of the past
Isabel
O’Loughlin has spent the past six years building trust with several
Indigenous communities. She is one of two community consultants working
on the Aboriginal Heritage Project, another effort to look at DNA from
remains of Indigenous Australians.
The group is sequencing hair
samples that were collected mostly by ethnologists Norman Tindale and
Joseph Birdsell from 1928 to the 1970s in what are today seen as
racially motivated studies.
The Tindale and Birdsell teams drew
family trees that name more than 50,000 people, including some who lived
before British settlers arrived in 1860. The collection, which is held
at the South Australian Museum in Adelaide, also contains photographs,
sound recordings, films and drawings. More than 5,000 hair samples are
stored in a restricted area in the museum.
Elders from
Indigenous communities from the Willandra Lakes region visiting the
ancient DNA laboratory at Griffith University in 2008.Credit: Renee Chapman
When ancient-DNA researcher Alan Cooper at the University of
Adelaide first heard about the collection a decade ago, he wondered
whether it could be used to determine where Aboriginal Australian
communities lived before British settlers arrived and spread throughout
the country. Although the hair samples were collected from the 1920s —
when Aboriginal people were already being forced from traditional lands —
the detailed family trees meant that the team would be able to trace
some people’s families back to these locations. So, in 2014, Cooper’s
team started reaching out to Indigenous communities to get permission to
analyse the remains.
Lewis O’Brien, an adviser to the Aboriginal
Heritage Project, remembers Tindale visiting Point Pearce, the mission
where his aunt lived in 1938. Tindale interviewed O’Brien, aged 8, and
his brother, and measured their heights and the length of their arms,
among other things. Tindale also snipped a lock of O’Brien’s hair. “I
felt like a guinea pig,” says O’Brien, an elder with the Kaurna people,
who is now 89 and lives in nearby Adelaide. O’Brien didn’t like how
Tindale studied Aboriginal people, but he can see that the collection is
a valuable resource for unravelling history for some communities.
The
project’s data could also be the starting point for creating a service
for present-day Indigenous people to compare their DNA against the
reference map built from the hair samples. The service could allow some
people — including members of the Stolen Generations — to explore
whether genetics can reveal anything about where they might have come
from, when conventional methods of finding such information fail, says
Ray Tobler, a population geneticist at the University of Adelaide. But
more work to reduce uncertainties is needed before such a service would
be possible, he says. Hanchant-Nichols thinks a broad discussion among
Indigenous people is needed, too. O’Brien supports a genetic-comparison
service. He is often approached by Aboriginal people who were removed
from their families and are desperate for information about their
ancestry. “I want to be able to say, ‘we’ll get you tested and help you
find out where you come from’,” he says.
Cooper and Tobler also
visit communities to explain their efforts. Families whose records form
part of the Tindale collection then have private meetings with the team
to ask questions and raise any concerns. Some worry that their family’s
genetic results could be misused, for instance, by government agencies
to test their status as an Aboriginal person, says Cooper. But he says
that status is based on community recognition and cannot be defined
genetically. There is currently no DNA test of Aboriginality (despite
claims to the contrary by some conservative politicians in Australia).
The geographical information accompanying the genetic data is not
specific enough to resolve land-title claims — another concern. “To boil
someone’s identity down to their DNA is unethical and scientifically
flawed,” adds Tobler.
O’Loughlin says the project has been
embraced by the communities largely because Aboriginal people retain
control. Of almost 180 families that the team has approached, only two
decided not to participate in the project, she says.
After
performing the analysis, the team returns with results. The community
learns about the history of Australia and the relationships of different
Indigenous groups. And individuals get information about their ancestor
who provided the hair sample. O’Loughlin and her colleague Amy
O’Donoghue also alert families in advance if the results show that
biological relationships differ from families’ known relationships.
In
2017, Cooper and Tobler’s team published its first map of Aboriginal
groups, based on mitochondrial DNA from 111 hair samples from three
Indigenous communities3.
The genetic analysis suggests that the first Australians arrived from
Asia by about 50,000 years ago. This is broadly in line with most
archaeological evidence and previous genome studies2
(see ‘Mapping ancestors’). Australia’s Indigenous groups also say their
connection to the continent is ancient. Within a couple of thousand
years, this founding group split into populations that expanded west and
east — and then largely stayed put. On the basis of mitochondrial
lineages, at least, there hasn’t been a lot of movement around Australia
over broad geographical and time scales, says Tobler. “That’s
remarkable because you don’t really see that anywhere else.”
Cooper
and his team have now sequenced the nuclear genomes of about 150 hair
samples. They plan to seek permission to sequence DNA from up to 1,000
hair samples.
However, the project has been on hold for almost a
year while the team has worked to comply with state laws on conducting
research with Aboriginal participants. The project is set to resume this
month.
Although the hair samples are not being repatriated to the
families, the map that is based on their DNA could help to match
unprovenanced remains in museums to present-day groups, enabling their
return.
Tales of the Ancient One
In the United States,
the 1990 Native American Graves Protection and Repatriation Act (NAGPRA)
and similar state legislation oblige museums to audit their collections
and return what they can in the way of ancestral remains and sacred
objects to Native American communities.
So far, NAGPRA has led to
the return of hundreds of thousands of culturally affiliated ancestral
remains and artefacts. And in the past few years, the US government has
cited ancestry information gleaned from ancient DNA in returning some
unaffiliated remains to tribes.
One of the most contentious is the
8,500-year-old skeleton of ‘Kennewick Man’, which was uncovered by
teenagers in 1996 in a riverbank near Kennewick, Washington. Several
Native American groups claimed the remains of the individual, whom they
call the Ancient One, as ancestral and demanded their return under
NAGPRA. But a coalition of archaeologists argued that the person lived
too long ago to be culturally linked to present-day Native Americans
under the law, and won a 2002 federal lawsuit to block their
repatriation.
The remains were stored out of view in a Seattle
museum, available to scientists and Native American groups, for over a
decade. But several years ago, the US government asked Willerslev
whether his lab could test the remains for DNA. After consulting with
all of the Native American groups seeking Kennewick Man’s return,
Willerslev’s team obtained enough DNA to generate a low-quality genome
sequence.
Comparisons with DNA from present-day individuals
confirmed that Kennewick Man was more closely related to Indigenous
groups in North and South America than to other global populations4.
They also determined that Kennewick Man was closely related to members
of the Confederated Tribes of the Colville, who had participated in the
study — one of the five communities seeking repatriation — but also to
other groups in the Pacific Northwest and even to some in Central and
South America. On the basis of the DNA tests, the US government
determined that Kennewick Man was Native American, and therefore
eligible for repatriation under NAGPRA. The remains were reburied in
2017 by members of the Yakama Nation, the Wanapum Band and the Nez
Perce, Colville and Umatilla tribes.
The US government again
cited ancient DNA evidence generated by Willerslev’s team when
repatriating remains from Nevada in 2016, including a 10,600-year-old
male human skeleton known as the Spirit Cave Mummy. As with Kennewick
Man, the DNA analysis determined that the remains were Native American,
but the study did not link them to any specific groups5.
Linking
ancient remains to present-day groups is challenging because of huge
gaps in scientists’ understanding of the population history of the
Americas. Few genetic data are available for ancient remains in the
Americas, says population geneticist Rasmus Nielsen at the University of
California, Berkeley. The preliminary analysis of DNA from remains such
as Kennewick Man and Spirit Cave Mummy suggests that ancient
populations in the area moved around, so the ancient inhabitants of a
region are likely to be the ancestors of many different Native American
groups.
Drawing connections between ancient remains and modern
groups is even more difficult, because there are relatively few genomes
from present-day Native Americans against which to compare ancient
remains, Nielsen adds. “Genetic results are only going to be as good as
your comparative database,” says Ripan Malhi, a molecular anthropologist
at the University of Illinois at Urbana–Champaign, who works with
Indigenous groups in North America. The paucity of contemporary Native
American genomes is a legacy of the poor treatment of Indigenous groups
by non-Indigenous scientists, he adds.
In one case, researchers
collected DNA from members of the Havasupai Tribe in Arizona, for health
research. But they failed to seek permission when the samples were
later used for other kinds of studies, so many Native Americans are now
reluctant to share their details.
Some scientists in Australia
have also failed to give Indigenous groups proper control over their own
data. Such incidents have led to agreements where Indigenous groups
decide how their information can be used. For instance, Indigenous
communities involved with Lambert’s study permit their data to be shared
with other groups wishing to verify the results, but only if the
scientists get ethics approval. If researchers want to use the data for
other purposes, they must get consent from the participants.
Some
researchers have criticized such restrictions, saying that they could
prevent Indigenous groups from seeing the benefits of future studies
using their data. But Lambert and Indigenous groups say it is about time
that non-Indigenous scientists ceded control.
And Aboriginal
people are starting to embrace the chance to be involved, says
Hanchant-Nichols. “For many, many years, science kept us out. We had no
role in museums other than for them to steal our stories, steal our
artefacts and steal our bones.”
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