May 20, 2018
from TheConversation Website
 

 

 

Authors


Sean Ulm
Deputy Director, ARC Centre of Excellence for Australian Biodiversity and Heritage, James Cook University

Alan Cooper
Director, Australian Centre for Ancient DNA, University of Adelaide

Michael Bird
ARC Laureate Fellow, JCU Distinguished Professor and Landscapes Theme Leader for the ARC Centre of Excellence for Australian Biodiversity and Heritage, James Cook University

Peter Veth
Kimberley Foundation Ian Potter Chair in Rock Art and Professor of Australian Archaeology, Centre for Rock Art Research and Management, University of Western Australia

Robin Beaman
Research Fellow, College of Science and Engineering, James Cook University

Scott Condie
Senior Principal Research Scientist, CSIRO






Sunset looking across Port Warrender to the Mitchell Plateau

on the Kimberley coast. It is in Wunambal Gaambera country.

Mark Jones Films (with permission)

Author provided
 

 

 

Over just the past few years, new archaeological findings have revealed the lives of early Aboriginal Australians,

But how was it even possible for people to get to Australia in the first place? And how many people must have made it to Australia to explain the diversity of Aboriginal people today?

 

In a study (Palaeogeography and Voyage Modeling indicates Early Human Colonization of Australia was likely from Timor-Roti) published in Quaternary Science Reviews this week, we use new environmental reconstructions, voyage simulations, and genetic population estimates to show for the first time that colonization of Australia by 50,000 years ago was achieved by a globally significant phase of purposeful and coordinated marine voyaging.

 

 

 

 

Past environments

 

Australia has never been connected by dry land to Southeast Asia.

 

But at the time that people first arrived in Australia, sea levels were much lower, joining the Australian mainland to both Tasmania and New Guinea.

 

Our analysis using new high-resolution mapping of the seafloor shows that when sea levels were 75 m. or lower than present, a string of more than 100 habitable, resource-rich islands were present off the coast of northwest Australia.

 

These islands were directly visible from high points on the islands of Timor and Roti and as close as 87 km. This chain of now mostly submerged islands - the Sahul Banks - was almost 700 km long.

 

They represented a very large target for either accidental or purposeful arrival.

 

 

Northwest Australia

showing a now submerged string of islands

between Australia and Timor/Roti.

The present coastline is shown as a black line.

The coastline with sea level 75m lower than present

is shown as a grey line.

Robin Beaman


 

 

How difficult was it to get to Australia?

 

Combining modeled winds and ocean currents with particle trajectory modeling, we simulated voyages from three sites on the islands of Timor and Roti.

 

This is similar to the approach used to model the movements of wreckage from the missing Malaysia Airlines flight MH370.

 

In our model, we simulated the "launch" of 100 vessels from each site on February 1 each year for 15 years.

 

The date was chosen to correspond to the main summer monsoon period when winds are generally blowing to the east-southeast, thereby maximizing the chance of successful crossings.

 

 

Model results for vessel launches from Timor and Roti,

showing 'accidental' drift voyaging where

only wind and currents affect movement.

Yellow dots show the islands closest to Timor/Roti.

Scott Condie/Robin Beaman

 

 

Model results for vessel launches from Timor and Roti,

showing 'purposeful' voyaging simulated by paddling.

Yellow dots show the islands closest to Timor/Roti.

Scott Condie/Robin Beaman

 

 

 

Vessel color begins to fade after six days of voyaging, indicating likely diminishing success rates. The present coastline is shown in dark grey.

 

The coastline with sea level 75m lower than present is shown in light grey (Animation by Rebecca Gorton, CSIRO).

 

 

 

How many people did it take to colonize Australia?

 

Researchers have long speculated about how many people originally colonized Australia.

 

Some have argued that Australia must have been colonized by accident, perhaps by just a few people. Others have suggested a steady trickle of colonists.

 

Estimates of the founding population have ranged from 1,000 to 3,000.

 

The genetic evidence shows that Australia was colonized in a single phase, perhaps at multiple locations, but with very limited gene flow after initial colonization.

 

The diversity of mitochondrial DNA lineages found in Aboriginal populations allows us to estimate the minimum size of the original colonizing population. Mitochondrial DNA is only inherited from mothers.

 

Aboriginal mitochondrial DNA diversity alone represents at least nine to ten separate lineages.

 

Assuming that every mitochondrial lineage was represented in the founding population by four to five females (such as a family group containing a mother and her sister, and two daughters) the currently known nine to ten lineages would equate to around 36-50 females.

 

This is a conservative estimate, as founding populations of fewer than ten females per lineage have a low chance of long-term survival due to variations in reproductive success.

 

If an overall, again conservative, female to male ratio of 1:1 is assumed for the colonizing party, the inferred founding population would be around 72-100 people.

 

It was likely much larger (perhaps 200-300) because of the strong potential for related family groups to share similar mitochondrial lineages, which would be underestimated as a single founding lineage.

 

Clearly, a population of even the minimum estimated size is unlikely to have arrived accidentally on Sahul.

 

 

 

 

What does it all mean?

 

A lot of earlier thinking about how people arrived in Australia was based on the assumption that the first modern humans to sweep out of Africa and colonize the distant lands of Australia and New Guinea were somehow more limited in their cognitive and technological capacities than later humans (that is, all of "us").

 

Therefore, models routinely assumed that people island-hopped short distances rather than making long journeys, probably ending up in Australia by accident.

 

Our results show that colonization of Australia and New Guinea was no accident.

 

Colonization of Australia was more likely achieved by purposeful and coordinated marine voyaging, undertaken in the knowledge that land existed to the south of Timor/Roti.

 

The crossing to Australia was two to three times longer than the multiple previous shorter crossings required to reach the islands of Timor and Roti.

 

This last voyage to reach Australia would have required watercraft construction, sailing and navigation technology, planning ability, information sharing and provisions to sustain an open ocean voyage over four to seven days.

 

Purposeful voyaging on this scale clearly required advanced cognitive, linguistic, symbolic and technological capabilities. Critically, this finding places a unique global time-stamp on the cognitive abilities of our ancestors (Why the first colonization of the Australian region is the earliest evidence of modern human behavior).

 

In the same way that we have underestimated the abilities of our human ancestors, we have underestimated the ability of early modern humans to plan, coordinate and undertake large-scale coordinated maritime voyaging across open water to reach Australia.

 

The settling of Australia represents the earliest known maritime diaspora in the world.

 

This emerging picture of modern humans with advanced maritime capabilities deliberately settling the driest continent on the planet, reminds us we still have much to learn about the complexity and adaptability of the First Australians...