By Graham Lloyd, Environment Editor, Sydney
The international project led by the National Metrology Institute of Germany (PTB) concludes that exposure to infrasound below the range of hearing could stimulate parts of the brain that warn of danger. It finds that humans can hear sounds lower than had been assumed and the mechanisms of sound perception are much more complex than previously thought.
The researchers do not claim the results are definitive regarding wind turbines and health impacts, and say more work is needed.
But the research builds on recent work in Japan and Iran — and investigations by NASA dating back to the 1980s — that suggests the health science of wind energy is far from decided and would benefit from further inquiry, though it is unlikely to persuade prominent wind farm advocate, Simon Chapman.
Dr Chapman, who did not respond to questions from The Australian about the German work, told a Senate inquiry into wind farms and health last month that he was not persuaded by other recent research.
“I believe there is much evidence that belief in the harms of wind farms is the cause of harm from wind farms and that those who are intent on spreading this fear are largely responsible for that harm,” he told the inquiry.
The Clean Energy Council was unavailable to comment. But others in the renewables industry say they are open to further inquiry.
Oliver Yates, the chief executive officer of the Clean Energy Finance Corporation, which has less than 20 per cent of its portfolio invested in wind farms, said that “environmental considerations” were critical in any project.
Asked at a conference in Sydney yesterday if the corporation was concerned about increased health risks, he replied: “I encourage any necessary additional support or research people feel that they need to have in relation to this matter to get clarity and satisfaction within their own mind.”
The National Health and Medical Research Council is currently reviewing the evidence on wind turbines and health. The Australian Medical Association will review its position on the issue once the NHMRC reports. Until then, its position is that available Australian and international evidence does not link adverse health effects to wind farms.
The AMA’s vice-president, Geoffrey Dobb, said there was “no accepted physiological mechanism where sub-audible infrasound could cause health effects”.
The German study suggests the impact of very low frequency noise on some people is poorly understood. Scientists in Japan measured brain function and reported last year that it showed the brains of Japanese wind turbine workers could not achieve a relaxed state.
In a similar vein, a study of 45 people in three groups by Tehran University, published earlier this year, said “despite all the good benefits of wind turbines, it can be stated that this technology has health risks for all those exposed to its sound.”
Work by Neil Kelley and NASA in the 1980s on early model wind turbines found impacts from infrasound and led to design changes.
It identified a direct causal link between wind turbine infrasound and low-frequency noise and neighbours’ health problems including sleep disturbance, collectively described as “annoyance”.
As the number and size of wind turbines has increased, the number and spread of complaints has also grown. The German research says infrasound is pervasive and generates from an increasing number of sources, including renewable energy sources such as wind parks and heat pumps.
“Although commonly declared as ‘non-audible’, the number of complaints about infrasound exposure has been increasing exponentially in Germany and also in other countries serious problems exist,” the research paper says.
“It has been agreed that infrasound is perceived by humans and it represents an almost unknown hazard to human health.” Project leader Christian Koch told The Australian the intention of the PTB research was to investigate how infrasound can be perceived by humans.
“We think this is a contribution to the many questions we have within this field but it is too early to conclude seriously about wind turbines and their impact,” Dr Koch said.
As part of the German research, laboratory tests were conducted using very pure low-frequency signals.
Test subjects were asked to describe their experience and their brain responses were measured using magnetoencephalography and functional magnetic resonance imaging technologies.
The results showed that humans could hear sounds of eight hertz, a whole octave lower than had been previously assumed, and that excitation of the primary auditory cortex could be detected down to this frequency.
A PTB report on the research findings said all participants had explicitly stated that they had heard something.
Clinical observations showed a reaction in certain parts of the brain which play a role in emotions. “This means that a human being has a rather diffuse perception, saying that something is there and that this might involve danger,” Dr Koch said.
PTB said the wind energy sector and authorities had often tried to appease concerns of health impacts from wind farms by declaring that the sounds generated were inaudible and too weak to be the source of health problems.
But Dr Koch said the issue must be taken seriously. “Neither scaremongering nor refuting everything is of any help in this situation,” he said. Investigations were only beginning and further research was urgently needed.
The Australia-based Waubra Foundation has long been recommending independent research into the effects of industrial sound and vibration from wind turbines and other sources. The foundation said the German research had helped “demonstrate objectively and visually via functional MRI scans that an infrasound stimulus triggered physiological responses that were hardwired into the mammalian brain”.
Additional reporting: Annabel Hepworth
For those who are not familiar with this area of research
By Sarah Laurie
For those who are not familiar with this area of research from a clinical / physiological perspective I have listed some more of the supporting research and information immediately below – some of which was mentioned in the newspaper article. There is now a confluence of research leading in the same direction, pointing to the existence of a stimulus response relationship between infrasound and low frequency noise impulses from a variety of sound sources, including industrial wind turbines, resulting in a variety of impacts on humans and animals, including physiological stress and tissue pathology such as described in the vibroacoustic disease (VAD) research (more information here: waubrafoundation.org.au/resources/alves-pereria-m-castelo-branco…).
The rest of the information below relates to the physiological effects, not to VAD, (which is not to discount its importance). Rather this accentuates the broad range of pathology possible – all caused directly by exposure to excessive levels of infrasound and low frequency noise.
Graham Lloyd has mentioned some of the previous research which underpins this important German work, including particularly the Kelley / NASA research from the 1980’s – for more detail and access to those research reports:
waubrafoundation.org.au/2013/explicit-warning-notice and in much more detail here: cdn.knightlab.com/libs/timeline/latest/embed/index.html…
This neuroimaging research by Dr Christian Koch is consistent with in the early observations of medical practitioners, listed in the Darmstadt Manifesto in Germany in 1998 (waubrafoundation.org.au/resources/darmstadt…). This was followed by two rural general practitioners – Drs Amanda Harry in 2003 in the UK waubrafoundation.org.au/resources/dr-amanda-harry… and Dr David Iser in 2004 in Australia waubrafoundation.org.au/resources/dr-david-iser…relating to physiological stress symptoms being reported by the residents, with some very serious consequent health problems for some.
The recent German research extends the important work done by US Paediatrician and scientist Dr Nina Pierpont subsquently in the mid – late 2000’s, and her recognition that it was disturbances of the vestibular system which linked the observed and reported clinical adverse health effects, and the stimulation of the fight flight response being reported by residents as similar to “panic attacks” and waking at night in an anxious frightened panicked state. waubrafoundation.org.au/resources/dr-nina-pierpont…
There is more detail about the other research relating to the stimulation of the sympathetic nervous system, physiological stress and vestibular dysfunction which may be useful background in my expert opinion for the Stony Gap case:
The neuroimaging in the German collaborative study is consistent with the animal experimental work by neuroscientist Professor Alec Salt and his team, who established that the afferent nerve fibres from the outer hair cells of the inner ear were sending “alerting” messages to the cochlear nucleus in the brain after being stimulated by infrasound, which could be responsible for the sleep disturbance reported by the residents. More information about Professor Salt’s work is here (see particularly section 3 (pp 24-25):
The German work is also consisent with the recently reported Japanese research by Inagaki et al, which demonstrated objectively using EEG monitoring that the brains of Japanese wind turbine workers could not attain a relaxed state when exposed to recorded wind turbine sound in a laboratory study, indicating physiological stress in non English speaking people, who financially benefited from wind energy via their employment (yet again countering the nocebo effect hypothesis):
One of the best clinical descriptions of this disturbed sleep and repeated activation of the fight flight response and how health damaging it can be was by Dr Sandy Reider, a US family physician from Vermont. His description was given as part of testimony given to the Vermont state legislature and can be accessed here: waubrafoundation.org.au/resources/dr-sandy-reider…
It has long been my view that the combination of these physiological stress episodes, particularly at night, (disturbing sleep) is what is driving the relentless and very individual deterioration in the physical and mental health of people exposed chronically to excessive levels of this pulsing infrasound and low frequency sound energy. The vast range of reported adverse effects merely demonstrates the variable individual human response to prolonged stress and chronic sleep deprivation, which most people, especially those trained in clinical medicine should understand and recognise.
At the extreme end of the spectrum of reported physiological stress events strongly suspected to be directly caused by excessive impulsive infrasound, low frequency noise and vibration from a variety of sources (including both open cut coal mining and wind turbines), the rare but important adrenaline surge pathology such as Tako Tsubo events and acute Hypertensive Crises, were reported in my presentation (given by Professor Bob McMurtry in my absence) to the American Acoustical Society conference in May this year: