Wednesday, February 1, 2023
News on Pathogens and Preparedness
Global Biodefense
  • Featured
  • COVID-19
  • Funding
  • Directory
  • Jobs
  • Events
  • Subscribe
No Result
View All Result
  • Featured
  • COVID-19
  • Funding
  • Directory
  • Jobs
  • Events
  • Subscribe
No Result
View All Result
Global Biodefense
No Result
View All Result
Home Biosecurity

Why Scholars Have Created Global Guidelines for Ancient DNA Research

by Victoria Gibbon
October 20, 2021
Why Scholars Have Created Global Guidelines for Ancient DNA Research

Ancient DNA holds a great deal of valuable information - but it must be researched safely and ethically. © Max Planck Institute for Evolutionary Anthropology

The field of ancient DNA has grown rapidly in recent years, largely thanks to technological advancements. This work involves sampling human remains from long ago and analysing the DNA to understand human and population history, origins and evolution.

As with any scientific research, there are ethical questions to navigate. Some are fairly modern concerns. DNA contains all our genetic and biological information; these data, if unregulated, can be misused for medical and scientific research by anyone, including but not limited to scientists, governments, and big pharmaceutical companies. Other ethical concerns are rooted in history. For centuries, scientists have tested and obtained data on African people as though they were merely specimens, objects and subjects. These attitudes persist.

These, then, are the key questions for anyone engaged in ancient DNA research: how can Africa’s genomes (and those from other places, especially elsewhere in the global South) be protected while its researchers contribute to the human story and understanding human history? What is the most ethical way to do this research? How do scientists, for instance, proceed with obtaining consent from a community or families whose ancestors’ remains are being tested? What should they do when it’s not clear who the human remains descendants or communities are? And, crucially, how can the African continent’s ancient DNA be protected?

This last question is important because of humanity’s origin and deep historical roots in Africa. African DNA is found in all humans. Studying ancient DNA in Africa is valuable for understanding human evolution, population migrations, and human history locally, regionally and globally.

These questions of ethics have led to a diverse set of 64 scholars from 24 countries who are actively involved in ancient DNA research – myself among them – to develop a set of ethical guidelines for the discipline. These are outlined in our new article in the journal Nature.

Appropriate approaches to working with human ancient DNA differ across world contexts. That’s why so many specialists from varying regions and countries came together to develop these guidelines. They are not so detailed that they can’t be adapted for specific contexts, but are specific enough to offer a level of protection. The countries include Germany, India, Mexico and the US. From the African continent, researchers from Sudan, Kenya and South Africa contributed ideas and suggestions.

Five Guidelines

My colleagues and I believe that the set of guidelines we’ve created are strong and universally applicable. We’ve committed to applying them in our own work.

The guidelines call for researchers to:

  1. abide by all regulations in the places where they work and from which the human remains originate
  2. prepare a detailed plan prior to beginning any study
  3. minimise damage to human remains
  4. ensure data are made available following publication to allow critical re-examination of scientific findings
  5. engage with other stakeholders and ensure respect and sensitivity to stakeholder perspectives.

Our hope is that these guidelines will ensure ancient DNA research is always conducted to the highest ethical standards. We have also designed them in a way that will, we believe, address the issue of parachute research.

This refers to scientists from wealthy nations swooping into developing ones, collecting samples and data, then heading straight back home to analyse them. There is poor to little coordination with local researchers, scientists and community groups in the country the samples come from – and, ultimately, the resulting research predominantly benefits those in the global North. Historically this is well documented, and today these ideas of testing on Africans are still pervasive. With the rise of ancient DNA research, there’s a risk of parachute research.

A Starting Point

My contributions to the subject follow on from a paper I published in 2020 explaining the robust rules and regulations for DNA studies on the living. I highlighted the gaps in South Africa’s heritage legislation with ancient DNA research and argued they should mirror each other. DNA, whether from the living or the dead, provides a lot of information about both – the implications for this research are far reaching.

In my own research, I hope the guidelines we’ve created will improve communication structures and respect for local community consultation processes and understanding the need for regular feedback and results returning in tangible ways back into community groups.

The guidelines capture the values of transparency and open access data, engagement, respect, dignity and sensitivity that must be central to ancient DNA research.

The hope is that these principles will provide a starting point from which African countries can begin to improve consultation, prevent or lessen parachute research and develop strong local legislation to enshrine ethical ancient DNA research. It is critical that all ancient DNA researchers are held accountable: researchers in African countries need to be careful and responsible with the continent’s genetic material in the same way that those from wealthier countries need to avoid conducting parachute research.

The paper has been translated into more than 20 languages – among them Swahili, isiXhosa, Afrikaans, Arabic, French, German and Portuguese – to ensure that the guidelines are widely accessible.

ABOUT THE AUTHOR

Victoria Gibbon, Associate Professor in Biological Anthropology, Division of Clinical Anatomy and Biological Anthropology, University of Cape Town. Dr. Victoria Gibbon joined the Division of Clinical Anatomy and Biological Anthropology as a Senior Lecturer in Biological Anthropology in 2016. She earned her PhD in 2008 from the University of the Witwatersrand, South Africa. Her dissertation was based on the development of novel molecular sex determination methods optimal for human forensic and archaeological skeletal remains. After the completion of her PhD she conducted research as a postdoctoral fellow, initially at the University of the Witwatersrand followed by a position at Purdue University. Before returning to South Africa in her new position at UCT, she held a permanent academic position at the University of New Brunswick in Biological and Forensic Anthropology. Her research and teaching interests are primarily in biological anthropology, forensics, and bioarchaeology. She uses biological indicators from the skeleton to understand past human societies; their biology, migration patterns, health, culture and subsistence practices. Bioarchaeology is the study of human biological remains from archaeological contexts with an understanding of their past culture systems, thus, a biocultural approach should be used. This is Victoria’s current research focus; she initiated and maintains an international collaboration on bioarchaeological analyses of human samples from around the world. This research is focused on Iron and Bronze Age human skeletal remains from southern Africa (2000 BP, South Africa and Zambia), North Africa (3500-3000 BP, northern Sudan) and northern China (3000-1600 BP, near Beijing). Dr. Gibbon’s diverse background and training in anatomical, genetic, medical and anthropological sciences allows her to conduct research on a variety of topics. Her addition to the Division of Clinical Anatomy and Biological Anthropology provides a multitude of research opportunities for students. At UCT she is applying anthropological concepts to a medico-legal context to expand her forensic research and has proposed several research studies in collaboration with the Masters program offered through Forensic Pathology Services at UCT.

This article is courtesy of The Conversation.

Tags: BioethicsBiosafetyEditor PickForensicsGenomics

Related Posts

DARPA Pursues Advanced Threat-Detection for Crop Defense
Biosecurity

DARPA Pursues Advanced Threat-Detection for Crop Defense

January 3, 2023
New Framework for Livestock Disease Indemnity Valuation Proposed by USDA
Biosecurity

New Framework for Livestock Disease Indemnity Valuation Proposed by USDA

September 10, 2022
Waterfowl on a seashore
Biosecurity

HPAI Concerns Prompt U.S. Restrictions on Hunter Harvested Wild Bird Game Meat from Canada

September 2, 2022
Tagged livestock in a row
Biosecurity

Consider Farmers at Individual Level When Controlling Livestock Disease Outbreaks

July 15, 2022
Load More

Latest News

Partner Therapeutics’ Novel Approach to Stratify Sepsis Patients Gains Backing From BARDA

Biopreparedness Research Virtual Environment (BRaVE) Initiative Backed by $105M DOE Funding

January 25, 2023
Influenza Proteins Tilt and Wave in ‘Breath-like’ Motions

Influenza Proteins Tilt and Wave in ‘Breath-like’ Motions

January 25, 2023
Biodefense Headlines – 24 January 2023

Biodefense Headlines – 24 January 2023

January 24, 2023
Biodefense Headlines – 17 January 2023

Biodefense Headlines – 17 January 2023

January 17, 2023

Subscribe

  • About
  • Contact
  • Privacy
  • Subscribe

© 2022 Stemar Media Group LLC

No Result
View All Result
  • Featured
  • COVID-19
  • Funding
  • Directory
  • Jobs
  • Events
  • Subscribe

© 2022 Stemar Media Group LLC