Harnessing Thor's Hammer: How forensic science is unlocking the
mysteries of fatal lightning strikes

Date:
November 3, 2021
Source:
University of the Witwatersrand
Summary:
New research could help forensic teams understand whether people or
animals were the victims of fatal lightning strikes, based solely
upon an analysis of their skeletons.



FULL STORY ==========================================================================
As the world gathers for COP26 in Glasgow, scientists have found the
smoking gun in forensic lightning pathology that will help develop
life-saving knowledge to address the lethal effects of the increasing
number and severity of thunderstorms and lightning strikes due to global climate change.


==========================================================================
New research by scientists from South Africa and the UK could
help forensic teams understand whether people or animals were the
victims of fatal lightning strikes, based solely upon an analysis
of their skeletons. Their study is published in the journal Forensic
Science International: Synergy, and titled Harnessing Thor's Hammer: Experimentally induced lightning trauma to human bone by high impulse
current Climate change is increasing and there is evidence to suggest
the incidence and severity of thunderstorms and lightning strikes could increase. Sadly, fatal strikes are common on wild animals, livestock,
and people -- with African countries having some of the highest fatality
rates in the world.

In South Africa, more than 250 people are killed annually by lightning,
whereas 24, 000 people worldwide die each year. When a lightning death is suspected, the forensic pathologist determines cause of death by looking
for signs of lightning-trauma to skin and organs of the deceased. However,
when the body is skeletonised, soft tissues are absent and cause of
death by lightning cannot be attributed.

This new research provides a tool to investigate cause of death
when skeletonised remains are recovered as part of accident or death investigation.

According to Dr Nicholas Bacci, Lecturer in the School of Anatomical
Sciences at Wits University and lead author of the paper, "identifying
a fatality caused by lightning strike is usually done though marks left
on the skin, or damage to the internal organs -- and these tissues don't survive when bodies decompose.

Our work is the first research that identifies unique markers of lightning damage deep within the human skeleton and allows us to recognise lightning
when only dry bone survives. This may allow us to recognise accidental
death versus homicide in cases where cause is not apparent, whilst at
the same time allowing us to build a more complete picture of the true incidence of lightning fatalities." The research was undertaken as collaboration between specialists in forensic anthropology, anatomy,
lightning physics, and micro-computed tomography (micro- CT) from the University of the Witwatersrand (Wits University) in South Africa,
Northumbria University in the UK, and the Nuclear Energy Corporation of
South Africa (NECSA).



==========================================================================
The researchers generated artificial lightning in the laboratory, which
was then applied directly to human bone, extracted from donated cadavers
who had died of natural causes.

Dr Hugh Hunt from the Johannesburg Lightning Research Laboratory (JLRL)
at Wits University explains "we used equipment to generate high impulse currents in the lab, (up to 10,000 Amps), which mimicked the effect of lightning passing through the skeleton. Natural lightning can often
have significantly higher peak currents but this allowed us to have
much greater control over the experiment than trying to somehow place
human tissue in the path of a natural lightning strike," says Hunt,
a Senior Lecturer and Head of the JLRL in the?School of Electrical and Information Engineering.

What the experiments showed was a pattern of damage to bone that was
uniquely caused by short duration lightning current.

Senior author Dr Patrick Randolph-Quinney, Associate Professor from
the Forensic Science Research Group at Northumbria University, and the
Centre for the Exploration of the Deep Human Journey at Wits University, explains "using high-powered microscopy we were able to see that there
is a pattern of micro- fracturing within bone caused by the passage of lightning current. This takes the form of cracks which radiate out from
the centre of bone cells, or which jump irregularly between clusters of
cells. The overall pattern of damage looks very different when compared
to other high energy trauma, such as that caused by burning in fire."
"Even though this experiment was conducted under controlled conditions in
the lab, we see the same trauma in animals killed by natural lightning. We
were able to compare the human results with bone from a poor giraffe
killed by lightning -- and the pattern of trauma is identical even though
the micro- structure of human bone is different from animal bone. This is
the smoking gun that we were looking for in forensic lightning pathology,"
he adds.



========================================================================== Real-world problem What is unique about this research is that is brought together different disciplines with a common focus on trying to understand
the effects of lightning on the body, with the long-term aim of making
the environment safer for those at risk of being killed by lightning.

Associate Professor Ken Nixon from the School of Electrical and
Information Engineering at Wits University and member of the Board of
Directors of the African Centre for Lightning and Electromagnetics Network explains: "This is a multi-disciplinary project, which highlights how
forensic scientists can work with physicists and engineers to explore
a real-world problem, which is implicated in the deaths of many people annually, and especially in countries such as South Africa, Zambia and
Uganda." "At a time when global climate change is driving increases in
the number and severity of thunderstorms and lightning strikes, we need
more research like this, bringing together different fields with real experience of dealing with lightning. Ultimately our aim at Wits is to
make our built environment and countryside safer for those exposed to
the lethal effects of lightning energy in South Africa, and to provide life-saving knowledge for those around the globe who are increasingly
put in harm's way of this natural phenomenon," he says.

This research would not have been possible without state-of-the-art
imaging technologies based in the School of Anatomical Science in the
Faculty of Health Sciences at Wits, and the micro-CT facility at the
Nuclear Energy Corporation of South Africa at Pelindaba.

"Researchers in South Africa are absolutely at the forefront of bringing together cutting edge imaging methods to discover new and ground-breaking knowledge about the skeleton of modern and ancient humans," notes Dr
Tanya Augustine, an anatomist based at Wits Medical School, who co-led
the research and is corresponding author on the paper.

"Over the last few years teams at Wits and NECSA have unlocked the secrets
of cancer in the hominin fossil record, provided evidence for cause of
death in australopithecines, and now these techniques are allowing us
to unlock the mysteries of fatal lightning strikes," she adds.

========================================================================== Story Source: Materials provided by University_of_the_Witwatersrand. Note: Content may be edited for style and length.


========================================================================== Journal Reference:
1. Nicholas Bacci, Tanya Nadine Augustine, Hugh G.P. Hunt, Ken
J. Nixon,
Jakobus Hoffman, Lunga Bam, Frikkie de Beer, Patrick
Randolph-Quinney.

Harnessing Thor's Hammer: Experimentally induced lightning trauma to
human bone by high impulse current. Forensic Science International:
Synergy, 2021; 100206 DOI: 10.1016/j.fsisyn.2021.100206 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2021/11/211103082621.htm

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