Wireless Electrical and Electromagnetic Pollution News
22 March 2010
WHY VODAFONE SHOULD NOT INCREASE THE POWER OF ITS BASE STATIONS
Andrew Goldsworthy March 2010
This is an emailed response to Cliff Mason of OFCOM following a proposal by Vodafone that it should be allowed to increase the power of its base stations by a factor of four. The email explains the mechanism by which base station radiation may be responsible for the increased incidence of cancer around them, the decline of the bees, and the loss of many trees within range to pathogens. It also explains how a simple modification to the signal could put it right.
It remains to be seen whether they are prepared to do anything about it.
Dear Cliff Mason,
As an ex-amateur radio enthusiast, I am a great believer in the value of mobile communications, but things are not yet right. There is compelling evidence for a mechanism by which the continuous radiation from mobile phone base stations can weaken the immune systems, not only in humans, but also in animals and plants. In addition, the same mechanism is probably responsible for colony collapse disorder in honey bees and their increased susceptibility to various pathogens.
It is based on a family of pigments called cryptochromes, which occur in virtually all animals and plants and some micro-organisms. They have a number of functions, including navigation in the Earth's magnetic field and the regulation of the "body clock", which is needed for solar navigation and also for the regulation of the immune system. This pigment is very badly affected by a wide range of radio frequencies, so that all of these processes can be disrupted by the modulated radiation from mobile phone base stations. This can explain the clusters of cancer cases believed by many people to have formed around mobile phone base stations as well as the decline and incipient loss of the honey bee population, which will have far more serious consequences for mankind. Insofar as the mobile phone operators say that there is no known mechanism by which their radiation can have these effects, we can only assume that they are unaware of its effects on cryptochrome.
I am attaching a document entitled "Making Mobile Phones Safer", which sets this out in more detail and makes some simple suggestions to mitigate these effects. I am also attaching the original "Nature" paper by Ritz et al. in which they first discovered the effects of radio-frequency radiation on cryptochrome and animal navigation.
I am quite happy for you to forward this email, with attachments, to Vodafone, but I would suggest that they postpone any increase in power until this has been sorted out. It may not be that difficult.
Making Mobile Phones Safer
Mobile phone radiation can be linked to colony collapse disorder and immune dysfunction
Bee colonies are dying mysteriously all over the developed world. Often their navigation systems fail and they do not return to the hive after collecting pollen and nectar, which can cause colony collapse disorder. Their immune systems also fail and they become unusually susceptible to pathogens to which they might otherwise be resistant. Both of these effects can now be linked by plausible mechanisms to the electromagnetic radiation from mobile telecommunications.
Why the bees are important.
If the decline of the bees continues, the effects on agriculture will be devastating and even the continued existence of the human race will be called into question. Many of our crops depend on bee pollination, and the remainder cannot provide a balanced diet. While the bulk of our staple foods come from wind-pollinated cereals that do not rely directly on the bees, these do not support the nitrogen-fixing bacteria needed for sustainable agriculture. Without bee pollinated crops (e.g. legumes) that host these bacteria, we will have to rely on artificial nitrogen fertilisers, which are either mined from limited natural sources or manufactured from the nitrogen of the air. Both are heavily dependent on fossil fuels and are not sustainable. Without them even our wind-pollinated crops will be decimated, which will lead to famine and mass starvation.
In addition, cereals do not provide an adequate balanced diet. In particular, they are almost totally lacking in vitamin C, which is essential to prevent scurvy. Scurvy is a fatal disease in which the body is unable to make the collagen needed for the connective tissue that binds our tissues and organs together. Without it, we literally begin to fall apart. The teeth fall out, the joints deteriorate and it leads to a slow and very painful death. Bee-pollinated crops are the main natural sources of vitamin C. Although some vitamin C producing species can self-pollinate or be propagated vegetatively, these are of necessity inbred and lack genetic diversity. Consequently, they will be less able to adapt to changing environmental conditions, including climate change and newly-evolved pathogens. They cannot be expected to last us for long.
Electromagnetic radiation is the most likely cause of bee loss
Whatever is causing the decline in the bee population in developed countries, it is likely to be man-made. Various possibilities have been mooted, including the varroa mite, pesticides and other agrichemicals, but the front runner, for which there is the most convincing evidence, is the radio-frequency radiation from mobile telecommunications. For example, German scientists placed cordless phone base stations (which emit modulated microwave radiation 24/7 just like mobile phone masts) next to some of their hives, but left others unexposed to the radiation. They then marked the bees as they left the hives and counted the proportion of the marked bees that returned. They found that a significantly larger proportion did not return in the hives that had been irradiated (more details at (http://tinyurl.com/rans84 ). But what could be the mechanism of this odd behaviour? It looks very much as if it is due to the effects on their cryptochrome pigments, which they use for both solar and magnetic navigation, and is highly sensitive to radio frequency radiation.
The cryptochromes are a family of pigments found in virtually all animals and plants. The earliest forms (which we now call photolyase) absorb light and use its energy to repair damaged DNA. More recently evolved cryptochromes actually measure light and tell the organism whether it is night or day so that it can adapt its metabolism accordingly. Still later versions became an integral part of the "body clock", now present in virtually all animal and plant cells, which regulates the timing of their natural circadian rhythms. These rhythms regulate, amongst other things, our sleep-wake cycle and our resistance to disease. Normally, they are synchronised with day and night by environmental cues such as changes in light and temperature, but they can also run indefinitely under constant conditions (although they may not then be exactly 24 hours). They affect many aspects of metabolism and allow cells and organisms to anticipate the coming of dawn and dusk so that they can prepare themselves in advance for the new conditions. They are extremely important for all of us; if they get out of kilter with the natural day-night sequence, such as when flying to a different time zone, we get jet lag and feel distinctly out of sorts until the rhythm become synchronised again.
Cryptochromes are used for animal navigation
Animals that use the sun for navigation have extremely accurate cryptochrome-based body clocks that enable them to compensate for its changing position throughout the day. Animals that navigate using the earth's magnetic field also use cryptochromes to sense the direction of the field. Cryptochrome can detect the direction of the field because it uses the energy of light to flip an electron between two parts of the molecule to generate a pair of unstable magnetic free radicals. The electron tries to return to its original position, but the rate at which it does so depends on the direction of the earth's field relative to the molecule, and gives an indication of the direction of the field. This sort of cryptochrome occurs in the eye and enables the animal to superimpose the direction of the magnetic field on its visual field as a "heads-up" display, which is ideal for navigation.
Electromagnetic fields disrupt cryptochrome-based magnetic navigation.
Thorsten Ritz and his co-workers (Nature, Vol. 429, pp177-180, 13th May 2004) showed that even weak electromagnetic radiation over a wide range of radio frequencies completely prevented robins orienting for navigation in a steady magnetic field simulating that of the Earth; the same is probably true for bees. The mechanism has since been confirmed and further elucidated by other workers. Although the active frequencies are lower than the nominal carrier frequencies used by mobile phones, they can be generated when they are modulated to carry information such as speech. Very little radio-frequency energy is needed since the energy to drive the process comes in this case from a high energy photon of light, which is stored in the free radical form of the molecule. The RF simply just modulates the thermodynamically downhill reaction that restores the status quo with a net release of energy. This allows non-ionizing radio frequency radiation, with photon energies far below that necessary to break chemical bonds, to give biological effects, which in this case disrupts magnetic navigation.
Solar navigation can also be affected.
The cryptochrome-based body clock in insects is also affected by magnetic fields, as was shown by Yoshii and coworkers in 2009 (more details at http://tinyurl.com/y9vkzfj ); it is therefore likely that the bee's ability to navigate by the sun is also compromised.
The radiation from mobile phone masts and similar wireless devices can therefore disrupt bee navigation, both by the sun and by the earth's magnetic field. This can reduce the number of foraging bees returning to the hive and result in colony collapse disorder.
Effects on the immune system
Virtually all animal immune systems are under the control of their circadian rhythms. This is to make the best use of limited bodily resources, which are diverted from physical activity during the day to the immune system and the repair of damage at night. If these rhythms are disrupted, or their amplitude reduced by electromagnetic radiation, nothing they control can ever function at full power. Consequently, bees affected in this way may die, seemingly of other causes, including attack by pathogens to which they might otherwise be resistant. More information on circadian rhythms and their close links to the immune system can be found in Willard L. Koukkari and Robert B. Sothern. "Introducing Biological Rhythms", pp 426 – 525. Springer 2006. ISBN 13: 078-1-4020-3691-0.
Effects on plants
The cryptochromes are one of several families of light-sensing pigments used by plants to control their patterns of growth and physiology so that they can make the best use of light for photosynthesis. For example, cryptochrome brings about the night time closure of stomata. Stomata are microscopic pores in the surface of leaves and stems used for photosynthetic gas exchange. They open during the day to absorb carbon dioxide for photosynthesis and close at night to prevent the unnecessary loss of water vapour. Cryptochrome is also one of the pigments used to measure the length of the day to control photoperiodic responses; e.g. the "deliberate" shedding of leaves by deciduous trees in autumn is a response to short days.
There is mounting anecdotal evidence that radiation from mobile phone base stations disturbs these functions. I would like to invite you to see this for yourself. There is a very powerful Vodafone mast just outside the northeast corner of Hanger Hill Park, London W5, which appears to have damaged many of the nearby trees inside the park. Those in the main beam within a radius of about 400metres often show growth abnormalities with the younger shoots dieing. Many trees have actually died completely in the ten years or so that the mast has been operational. Most of them have now been removed, but there is still evidence of damage in those that remain. The cause of death also seems to be related to cryptochrome. Many of the mortalities occurred in dry conditions, possibly because the radiation kept the stomata open at night when they should have been closed. Another abnormality still visible in several trees is their partial or complete failure to shed their leaves and seeds in autumn; they remain dead on the tree but still firmly attached. It is as if the radiation absorbed by cryptochrome is perceived as light so that the tree behaves as if it was in continuous light and cannot respond to short days. This type of behaviour appears to have increased considerably since the power of the mast was increased to accommodate 3G.
A further effect of the radiation seems to be on the functioning of the plant equivalent of the immune system, which leads to attack by pathogens to which they would normally be resistant. This may explain the mysterious increase in general tree mortality from disease, especially bacterial diseases, in recent years. As in animals, cryptochrome plays a vital role in the regulation of the plant immune system. For example; recent work by Wu and Yang (Molecular Plant Advance Access Jan 6 2010, doi:10.1093/mp/ssp107) showed that Arabidopsis mutants lacking a functional cryptochrome 1 had a lowered resistance to the bacterial pathogen Pseudomonas syringae, whereas similar plants in which the gene was over-expressed had enhanced resistance. If radio-frequency electromagnetic radiation were to compromise the normal functioning of cryptochrome, we might expect that this would reduce the plant's resistance to disease.
Effects on humans
Although humans have no natural ability for magnetic or solar navigation, we still use cryptochromes to control our circadian rhythms and immune systems. There are now increasing reports of cancer clusters around mobile phone masts that can be attributed to a failure of the immune system to dispose of incipient cancer cells. This is the most likely explanation since other factors that disturb our circadian rhythms, such as shift-working and exposure to continuous illumination, have similar effects on health. These include significant increases in the incidence of breast cancer, colorectal cancer and heart disorders (http://tinyurl.com/afgLjr ). Similar increases are to be expected in people living close to mobile phone masts. Many of them already report poor sleep at night and tiredness during the day, which suggests that their natural circadian rhythms have been disturbed. Present evidence suggests that the radiation is perceived as light, which disrupts the dark phase of the cycle, during which the immune system should be most active. If so, humans who might normally tolerate the radiation during the day will be less able to do so at night. Every effort should therefore be made to avoid night time or continuous exposure to the radiation from base stations.
What can be done about it?
1. Postpone any increase in power. When you are in a hole, stop digging. The first thing to do is to suspend any increase in the power of mobile phone base stations until this problem has been solved.
2. Use Femtocells. This technology uses low power domestic base stations connected to the broadband network by a wired or optical links. It is already the preferred option for the mobile phone operators (see http://www.ipaccess.com/femtocells/consumer_value.php ) since it is cheaper, more reliable, and the consumer bears most of the cost. It also reduces the need for investment in high power base stations and reduces the traffic through each. If Femtocells lead to the bulk of the traffic being routed though these very low power base stations, which are partially shielded by the walls of the house, less will be routed through the major base stations and the effects on the bees and other wildlife should be minimised.
However, there are some very important provisos. The Femtocells should be no more powerful than is necessary to cover a single household and should automatically cease transmission when not in use (rather like an Orchid Low Radiation DECT Phone Base Station). This is not just to save electricity but also to minimise disruption of the circadian rhythms and immune systems of the users, their neighbours and wildlife. The fact that most of the Femtocells would then be inactive at night when the immune system would otherwise be most active is particularly important.
3. Restrict the bandwidth of the signal
A problem with digital signals is that their rapid rise and fall times generate a very large number of harmonics (multiples of the basic frequency). When these are used to modulate carrier waves, they generate very wide sidebands on either side of the carrier frequency, which actually carry the information. The width of each sideband corresponds to the frequency of the highest harmonic of the signal to be transmitted and is likely to overlap with the frequencies to which cryptochrome is sensitive. This "out-of-band" radiation does not normally interfere with other radio transmissions because it is relatively weak at any given frequency. However, cryptochrome is sensitive over a very wide range of frequencies and the signal is integrated over this range so that interference may be severe. A simple solution that should be investigated is to suppress the part of the lower sideband, which overlaps with the cryptochrome range. (This is already done with analogue television, which uses vestigial sideband transmissions). The upper base station sideband, and what remains of the lower one, will still contain all the digital information but should be relatively safe.
While interference with cryptochrome is probably not the only way in which modulated radio waves from base stations give rise to biological effects, it is likely to be the one that has the most effect on the bees and also the immune systems and consequent risk of cancer in human beings. Other non-thermal biological effects of mobile phone radiation, such as DNA damage, have a different aetiology, but provided the immune system is fully functional, most of the damaged cells may be eradicated before they become cancerous.
Nevertheless, it may be possible to do something about this too. DNA damage is most likely due to the release of structurally-important calcium ions from cell membranes by modulated radio waves, first noted by Bawin et al. in 1975 (Effects of modulated VHF fields on the central nervous system. Ann NY Acad Sci 247: 74-81). There is strong evidence that this weakens the membranes and makes them more inclined to leak (A Goldsworthy in "Plant Electrophysiology: Theory and Methods" Ed AG Volkov. Springer 2006: ISBN-10 3-540-32717-7). When lysosomes leak, they release digestive enzymes, including DNase, into the main part of the cell to cause DNA fragmentation. Damage to the membranes of mitochondria will release free radicals that are normally used in the controlled oxidation of food products, but are kept locked up safely within the structure of the membrane. These free radicals can also damage DNA. However, it should be possible to modify the transmitted signal to avoid these effects on membranes too. This too may be easier than you think.
Andrew Goldsworthy BSc PhD
Lecturer in Biology (retired)
Imperial College London
Live blood testing showing the results of electrosmog
I made a short (2.5 minute) video for youtube on what I found when I looked at my blood under a microscope before and after using a computer and a mobile phone. My blood returned to "normal" after 10 minutes away from a computer. Live blood analysis may be a useful diagnostic for testing people who are electrically sensitive.
Please share this video with others who may be interested in EHS and Electrosmog. (and anyone concerned about their health)
Dr. Magda Havas, B.Sc. Ph.D.
Environmental & Resource Studies,
Trent University, Peterborough, Ontario, Canada, K9J 7B8
phone: 705 748-1011 x 7882 fax: 705 748-1569
Letter to the Globe & Mail, March 19, 2010
Dear Editor: for some time now I've been letting this pass but as a journalist I find it increasingly annoying the misleading PR produced by Telus employee Shawn Hall with regard to his comments on New Denver. Of course, given the formidable legal department that corporation has, I'm sure he stops just short of libel and outright lies but his skills as a corporate publicist to me are seriously in question when he can't get even basic facts correct.
For example, in the recent Globe and Mail article (March 12) on New Denver's cell phone controversy, he states: "Some who have spoken in favour of the tower have been threatened with lawsuits, which runs contrary to freedom of speech," he said. THIS IS FALSE. No individual resident of the community has been threatened with any legal action, nor has anyone's right to free speech on the pro-cell phone side been denied. Letters from both pro- and anti-cell phone sides are routinely published by independently owned local newspaper the Valley Voice and notices from both sides posted around town freely.
Further, the article notes: "Mr. Hall accused opponents of bullying people who want change." In fact, anti-cell phone protestors have been harassed AT THEIR HOMES by an angry, drunken pro-cell phone activist whose Facebook page Mr. Hall is a supporter of. This has resulted in a restraining order from a single mom with two kids who was harassed. The individual has since modified his behaviour.
As to the dubious claim that New Denver businesses are losing "thousands of dollars" due to the lack of cell phone service, there is nothing anywhere in the Globe and Mail article to substantiate this accusation. In fact, in recent ads sponsored by the BC governments Ministry of Tourism, Sport and the Arts, it features a pair of fishing buddies in a remote BC location with the caption, "Want to really get away from cell phones?" with the encouragement to grab the fishing gear and head to the nearest backcountry lake. This is precisely what our Chamber of Commerce has been marketing to visitors to the community.
Having Mr. Hall defame us in the mass media is underhanded and in fact is the real potential cause of lost revenue if visitors stay away due to a perceived backwardness in the community. However, as a destination of choice for low impact tourists—kayakers, canoeists, hikers, backcountry sports enthusiasts, etc. we are confident that it's our very pristine quality and remoteness that attracts visitors.
I am aware of such corporate tactics as standard disinformation campaign gamesmanship. However, I am certain that Telus does not want its corporate image tarnished by one of its employees who could be held to account for false or misleading statements.
Furthermore, New Denver is hardly an isolated backwater filled with hicks who "don't want to enter the 21st century." Communities across Canada and the world have chosen to take a precautionary approach to a technology whose safety is in question, including Charlottetown PEI, yet another community overruled by Industry Canada.
It would be better yet if Telus were to ask the question: What IF this technology were NOT safe for our children? What then? Are we willing to put their futures on the line for the sake of convenience?
New Denver, BC
I know how busy you all are but I beg you to do this – it will only take a minute.
Brain tumors are the leading cause of cancer deaths for children in the United States. Please read Lloyd's comments below and today PLEASE call Elana Leventhal ((202) 225-4671), the Health Aide for Representative Frank Pallone, Chairman of the Health Subcommittee.
Please tell her you support HR653 and ask her to have Rep. Pallone schedule a hearing for HR 653 (National Childhood Brain Tumor Prevention Network Act of 2009). If you don't reach her, leave a message. Then please pass this on to your email contacts.
When we lobbied for this in DC last Sept. we were joined by a very pregnant courageous young woman who had lost her 4 year daughter to a brain tumor. We met with many legislators and she told her story over and over again and I cried each time. We were quite successful in DC with many agreeing to co-sponsor it. It has been delayed because of Health Care Reform.
Thanks so very much, Ellie
Childhood brain tumors Bill
My special friends,
I ask that each of you to place one phone call tomorrow. Call Elana Leventhal ((202) 225-4671), the Health Aide for Representative Frank Pallone, Chairman of the Health Subcommittee. Ask her to have Rep. Pallone schedule a hearing for HR 653 and to give you a date for the hearing. If you don't reach her, leave a message.
After you have made your one phone call, get your spouse, your kids, your cousins, neighbors, friends, and anyone else to call Elana and ask that a hearing be scheduled.
If they don't know anything about this Bill just say childhood brain tumors are the leading cause of cancer death in children and this Bill mandates the first ever investigation into the causes of childhood brain tumors.
Our goal is that she receives more phone messages tomorrow than she has ever received before.
This is our chance. WE CAN DO THIS. WE HAVE THE POWER, BECUASE WE HAVE THE PASSION
Blessings to all,
National Childhood Brain Tumor Prevention Network Act of 2009
(Senate Bill S 305, House of Representatives Bill HR 653)
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