We must stamp our ecological feet

Sciencebase has been focusing on various environmental and third world problems recently. I say third world, because much of what is euphemistically described as the developing world is sadly not developing at all. If the switch from third to developing has done nothing but salve the conscience of the so-called developed world, then it is, as they say, political correctness gone mad.

Many of the problems, or issues if you wish me to be euphemistic in that regard too, are growing – the poverty gap, the spread of disease, environmental damage. One might blame the tyrannical feudalism that is common in parts of the third world, the lack of educational resources, and a not unexpected reluctance on the part of people mired in such issues to abandon the straws at which they clutch to stay afloat (to mix a metaphor or two). But, some of the problems are in part due to the greed and desire of multinational corporations, company shareholders, and Western consumers, especially when one considers environmental effects.

The phrase “carbon footprint” has taken on a somewhat trite role in the media and in marketing reports. It can be used to offset a lot of tiresome obligations and sits neatly in glossy brochures printed on non-recycled board.

Not quite so well-known is the more general phrase “ecological footprint”. This term encompasses not only the problem of humanity pumping millions of tonnes of carbon dioxide into the atmospheric greenhouse and accelerating our possible climatic demise but also those problems associated with good old-fashioned pollution, deforestation, desertification and other nasties.

The ecological footprint concept and calculation method were developed by Mathis Wackernagel under William Rees at the University of British Columbia in Vancouver, Canada between 1990 and 1994.

Companies can greenwash endlessly in their marketing with double-talk of sustainability, reduced emissions, and smaller ecological footprints, but are they actually greening their industries or have they simply turned up the G channel in their Photoshopped logo?

Crawford Spence of the John Molson School of Business, Concordia University, in Montreal, Canada, would agree. He has analysed the social, environmental and sustainability accounting practices of large corporate entities. His eye is usually on the emphasis placed by such corporates on their ideology, their ethics, their integrity when it comes to environmental issues. Writing in IJMCP (researchblogging reference below), Spence says there is significant organisational resistance to more comprehensive sustainability reporting in the form of ecological footprinting.

He has interviewed corporate social responsibility managers at various companies and identified three issues that companies have with ecological footprinting. First, the cost and resource constraints involved, secondly the perceived poor value of carrying out ecological footprint and its actual impact on practices, and thirdly, the marketing problem in that a published ecological footprint might not reveal the “right picture”. Fundamentally, all three aspects of ecological footprinting prevent many companies from being pro-active in greening their business despite what it says on the tin.

In what will inevitably become an increasingly constrained world in terms of ecology, ecological footprinting, or sustainability reporting, where it exists will be little more than a marketing exercise for many corporates. Spence asserts that “without significant regulatory intervention or restructuring of capital markets it is difficult to see how it could possibly be otherwise”.

Research Blogging IconCrawford Spence (2009). Organisational resistance to ecological footprinting Int. J. Management Concepts and Philosophy, 3 (4), 362-377

Can Death be Sustainable?

A case study

Few people like to dwell on the subject of death, but it’s up there alongside taxes with life’s inevitabilities. But, consider it we must, for the sake of the environment.

At some point in our primordial past the dead were left to the scavenging dogs, the vultures, the flies, and the microbes. There were no ritual burials, no funeral pyres, no floating out to sea on a burning boat. Ida and her cousins certainly didn’t worry about the dead when they were looking for their next meal.

The tombs and torment came much later in our evolution with the advent of self-awareness and imagination, with the recognition of our mortality, the pain of mourning, and the ensuing spirituality that led whole civilisations to build resurrection machines for the dead, whether pyramid shaped, touting beautiful minarets or dreaming spires.

Meanwhile, with all this dying – around 60 million people every year (about 1% of the population) – there’s the environment to consider. Think about it, cremations in the West commonly use vast quantities of fossil fuels to get things up to temperature. They release toxic fumes containing mercury from dental amalgams, for instance, and what of all those tropical hard woods used for the coffins? Admittedly, some users opt for a slightly “greener” departure with more sustainable materials for their casket.

But consider the poor undertaker…and specifically State of Grace, a family-directed funeral business, in Auckland, New Zealand. By August 2007, Deborah Cairns and Fran Reilly had been running the business for just a year but had already won a regional sustainable business award for their efforts to reduce, or even avoid, the use of embalming chemicals and to offer natural product and sustainable alternatives to traditional coffin materials. They’re even driving to find a satisfactory alternative to the big old traditional hearse, although the Toyota Previa has not yet proved popular with mourners.

‘Right now we are desperately trying to find premises,” Reilly reveals in a case study report in the IJSSM. “We’re overflowing in my garage at home and into the hallway – there are caskets everywhere.’ I’m glad they qualified exactly what was overflowing in the hallway. The case study goes on to discuss the development of their alternative “home funeral” business where there are no sombre undertakers in dark suits to take the body and return with an embalmed version for the perusal of family and friends.

But aside from the improved personal service the company offers, we must consider the environmental ethics of death.

We must do so, according to Eva Collins of the University of Waikato and colleagues at Auckland University of Technology, who carried out the case study. The statistics are quite shocking: each year, the US’s 22500 cemeteries buried more than 3 million litres of embalming fluid, used almost 1.5m tonnes of reinforced concrete and nearly 13000 tonnes of steel for vaults. Buried 82000 tonnes of steel, 2500 tonnes of copper and bronze, and more than 10 million metres of hardwood board for caskets.

Coffins treated with wood preservatives take decades to decompose, whereas untreated pine breaks down within ten years, and compostable coffins even quicker, obviously. Embalmed bodies take about 60 years to return “dust to dust” and while they do so there is the real possibility that chemicals will leach into soil and groundwater.

As an afterthought it occurred to me that those leached chemicals wouldn’t necessarily be from the body itself. There are the non-natural components of a modern cadaver to consider – prosthetic metal and alloy implants, electronic implants that might contain heavy metals, arsenic and other elements, dental fillings containing mercury and other metals. Moreover, as we move into the age of more and more bionic technology, this issue will only increase, perhaps to the point where WEEE regulations have to be implemented on dead bodies. Indeed, recycling could be the greenest approach to death yet.

There are also the clothes and jewellry a person might be buried with and their various accompaniments. You can be sure that many people are buried with their iPhones and other devices and in the past there will be thousands of gadgets buried that had nickel-cadmium batteries.

Research Blogging IconEva Collins, Kate Kearins, & Helen Tregidga (2009). Exiting in a State of Grace: can death be sustainable? Int. J. Sustainable Strategic Management, 1 (3), 258-284

Mercury, Climate Change, Cosmos

Fire and Ice, Global Warming
Mercury seals, ancient climate change, and even older microwaves, all feature in my Spotlight column over on Intute, this month.

Mercury seals – The Polar Bear has often been given the role of proverbial environmental canary, coming to prominence in the movie An Inconvenient Truth by former US Vice President Al Gore. But, researchers in Canada have now reported for the first time how high levels of the toxic metal mercury present in certain Arctic seals could also be an indicator of the effects of climate change, hinting at how vanishing sea ice caused by rising temperatures may be to blame. The study provides new insights into the impact of climate change on Arctic marine life.

Global thermostat – Could increased chemical weathering of rocks by rivers increase the absorption of carbon dioxide from the atmosphere and so regulate the planet’s temperature? Ocean chemistry is affected by the chemical breakdown of continental rocks by rain and ground water, according to UK scientists. Their research published in Nature points to how climate change affects this breakdown and could have important implications for understanding Earth’s history.

13.73 Billion years BCE – Science doesn’t have a lot to say about what happened before the Big Bang, but researchers have now developed microwave detectors that will let them take a look at the first trillionth of a trillionth of a trillionth of a second after that primordial cosmic event.

Charity refurbished computers and e-waste

e-waste-sortingCharitable schemes to send unwanted electronic equipment, including mobile phones and computers to the developing world could be creating more environmental problems than they solve if the equipment becomes entirely obsolete in a short time. Researchers in India have carried out an evaluation of the trade-offs between cost and environmental risks to prove the point.

There are many benefits to schemes intended to provide computer equipment to the poorer and less connected parts of the world. Primarily, these offer the donor the feelgood factor and on the face of it provide developing nations with much-needed devices.

However, according to Poonam Khanijo Ahluwalia and Arvind Nema of the Department of Civil Engineering, at IIT Delhi, in New Delhi, India, there is growing public concern over the hazards associated with computer and other e-waste. They suggest that a risk assessment that encompasses the whole lifecycle of computers and other equipment is needed before developing nations should accept charitable contributions of electronic equipment considered obsolete by the donors.

Using a case study of Chennai in India, the team has developed an assessment model that can help decision makers choose an optimal approach to e-waste management that looks at reuse time span of each waste category. The approach could help them avoid accepting contributions of electronic equipment that become obsolete and requires disposal or recycling within a short time.

Electronic waste includes the entire stream of electronic goods, including televisions, refrigerators, refurbished computers, large items such as car donations, and mobile phones, explain the researchers. Computer waste, however, represents one of the most significant of all these categories because of the rapid turnover of equipment, similar to the rapid turnover of car models that are adopting computer databases into its features, “With rapid growth and advancement in the IT sector, the average lifespan of computer has shrunk,” the team says, “And, with each new development, consumers often find it cheaper and more convenient to buy a new computer than to upgrade an old one.”

The rate of computer obsolescence in India is about 2% each week, which amounts to millions of computers requiring disposal each year. Added to this is the import of e-waste from other nations often provided through well-intentioned charities hoping to help bring the digital revolution to the developing world.

The absence of proper mechanisms and standards of disposal, mean these high-tech devices laden with toxic components, such as cadmium, mercury, lead, and brominated flame-retardants, often end up in landfills. Here, they can become a serious environmental hazard, particularly to ground water, the researchers say.

The team’s assessment model will allow managers to determine the optimum life cycle and lifespan of electronic devices designated elsewhere as e-waste. “This could guide the authorities to protect infiltration of computers coming in the name of donations and charity, by restricting their import after their optimum lifespan,” the team concludes.

Research Blogging IconAhluwalia, P., & Nema, A. (2009). Evaluation of trade-offs between cost, perceived and environmental risk associated with the management of computer waste International Journal of Environment and Waste Management, 3 (1/2) DOI: 10.1504/IJEWM.2009.024705

There are many worthy charities and organisations offering computers to the needy in many parts of the world. This blog post in no way intends to besmirch their efforts but merely to alert the community to a potential environmental problem associated with growing numbers of obsolete computers and other electronic devices finding their way into the developing world.

Earth Hour

Is Earth Hour a great way to raise global awareness of how much energy we are wasting and the possible consequences or our actions? Or, is it simply a cop out so that we can all feel we did "our bit" for the environment without expending any real effort?

With just hours to go for us Brits before we have to switch off the lights, I conducted an ad hoc strawpoll on twitter, here are a few of the early responses.

  • 4KM (Re: more than turning off lights). We’re turning down heat, 100-mile diet today, not driving, planting radishes in organic    
  • wburris Earth Hour is so everyone can pretend they are doing something to save the planet
       

  • VeronicaMcG Yes Earth Hour could be/do more, but this step to coordinate Int’l grassroots action, awareness & cooperation is worthwhile.

       

  • tpolytmus I hope people are walking to these EarthHour meetups. (seen on #flickr)
       

  • sanmccarron Yes we should, but makes a statement to all. Bringing in one at a time.
       

  • ianwalker@sciencebase Earth Hour just sounds like another event to make people feel they’re doing something without having to change their lifestyles
       

  • TheTDog@sciencebase i think the idea is raise awareness about saving energy
       

  • Seema84@sciencebase I agree. If people put their TV’s on and other stuff it doesn’t make any sense
       

  • dnotice@sciencebase You could switch the colours in your internet browser: I’ve now got black backgrounds & white text…

    • Alchemist Goes Green

      green-alchemistThis week The Alchemist goes green offering a survey of environmental news related to the chemical sciences.

      First up is the development of porous materials that can extract hydrogen from mixtures of gases. Next, solar energy could be used to convert the greenhouse gas carbon dioxide back into useful hydrocarbon fuel methane, while chicken manure offers a fowl approach to bioremediating oil-contaminated soil.

      On the global scale, NASA hopes to work with Cisco Systems to create a Planetary Skin to monitor worldwide carbon build up, and chemistry and computing have been combined to explain why Antarctica cooled from its former sub-tropical conditions of 35 million years ago to the icecap we see today.

      Finally, the 2009 Tyler Prize for Environmental Achievement is awarded to two scientists for their work on understanding the human impact on climate change.

      Get all the headlines and links in this week’s Alchemist.

      Converting Carbon Dioxide

      Drax power station cooling towers photo by David Bradley“Nothing beats finding vast lakes of oil for the pumping, or vast deposits of coal for the digging; thanks mother nature!” proclaimed Craig Grimes of Penn State University in an emailed response to my skeptical question regarding his work on catalysts that can convert the greenhouse gas carbon dioxide into a fuel, methane.

      I report on his fascinating work in the March issue of Intute Spotlight. The process involves using solar power to chemically reduce carbon dioxide back to a combustible hydrocarbon. Grimes suggests that a flow system employed on fossil fuel burning power station chimney stacks could scrub out the carbon dioxide before it enters the atmosphere and provide us with a viable additional energy source.

      Playing devil’s advocate, my skepticism was regarding the energy required to produce the catalysts, which are composed of relatively rare minerals, to build and maintain the plant and to decommission it at end-of-life. There are also the costs of actually trapping the carbon dioxide and then transporting the methane produced to sites where it is needed. Moreover, burning that methane then releases the carbon dioxide elsewhere, so it’s not a quick fix.

      Grimes retorts that, “The idea is we better start figuring out how to not put carbon dioxide into the atmosphere, and begin to anticipate that our vast lakes of oil and vast deposits of coal are finite. Solar energy is not finite, at least in any conventional sense, but it is diffuse. There are lots of pitfalls with renewable energy sources, which is why coal and oil are cheaper to buy and use,” he told me. “Yes, you have to make the materials, install them, etc. All of that takes time, energy and money. However, outside of praying for a miracle, i.e. Having a faith-based energy policy, we would be well put to start trying to come up with an alternative to coal and oil.”

      I also asked Grimes whether the same system might be used to process carbon dioxide sequestered from the atmosphere directly. “Yes, carbon dioxide that is to be ‘buried’ could instead be used as feedstock for the process, so its win win,” he told me. “The idea is not to burn the methane venting it back in to the atmosphere. You burn, collect, recycle, burn, collect, recycle…”

      My Intute Spotlight column has an entirely environmental theme this month. Alongside my report on Grimes’ carbon conversion catalysts, we have a write-up on the recent modelling of Antarctic cooling 35 million years ago and a report on new materials that can efficiently extract hydrogen gas from mixtures and so might fuel a future hydrogen economy.

      Research Blogging IconOomman K. Varghese, Maggie Paulose, Thomas J. LaTempa, Craig A. Grimes (2009). High-Rate Solar Photocatalytic Conversion of CO2 and Water Vapor to Hydrocarbon Fuels Nano Letters, 9 (2), 731-737 DOI: 10.1021/nl803258p

      Green Mercury Light Bulbs

      With regulations set to ban incandescent light bulbs, the illuminating invention we’ve used since the nineteenth century, a replacement is needed. LEDs hold promise but are dim compared with the bulbs they seek to replace. Compact fluorescent tubes, are a bright idea. They are essentially a miniaturised version of the strip lighting by which shoppers and workers everywhere have been lit for decades. These CFLs use a fraction of the power to produce the same level of light as their incandescent ancestors and so are often touted as eco-bulbs in popular commentary.

      Unfortunately, as the ban on incandescent tungsten bulbs spreads, so to are news stories in the media warning of the mercury content of CFLs and how breaking one in a child’s bedroom could expose them to serious risk of neurological damage and require a costly cleanup.

      Just this week, the same warnings have been trotted out in various outlets including prominent website NowPublic.* To lend some credence to the NowPublic story, the writer cites the case of Brandy Bridges, from Maine, who apparently, went through a nightmare when a CFL broke in her daughter’s room. More fool her. The case was described on the Hoax Slayer site way back in May 2007 (so how this is suddenly now news, I don’t know). Hoax Slayer as the name would suggest, takes popular received wisdom and reveals the inner truth. Apparently, except for the immediate area of carpet on which the bulb had broken, mercury levels were way below the WHO safety limits on this substance.

      [* I’m not even going to start on the EMF concerns and references to “dirty electricity” the NowPublic article talks about.]

      “CFLs do contain mercury (Hg) but an environmental cleanup crew is not required if a CFL breaks,” Hoax Slayer asserts.

      The amount each bulb contains is tiny, especially if you compare it to the amount in countless mercury thermometers used to measure body temperature, or help you decide whether to open or shut your greenhouse windows.

      Indeed, mercury sealed within the glass tubing of a CFL amounts to about 5 milligrams, a small full-stop, or period, worth. No mercury is released when the bulbs are intact or being used. The mercury is present in the bulb as a vapour that glows when an electrical discharge is passed through it, giving the bright white light. Those mercury thermometers of which millions have been placed under childrens’ tongues to take their temperature for decades contain several hundred milligrams mercury. You would need 100 CFLs to equate to that amount of mercury. When faced with a feverish child how many people worried about the mercury thermometer breaking and leaking liquid mercury into their child’s mouth?

      Mercury is expensive, so CFL manufacturers, ever looking for ways to cut costs, are constantly striving to boost the efficiency of their products but at the same time reduce the mercury content. It’s more about profit than safety concerns. Nevertheless, the next generation of CFLs which will be marketed this year, according to the US National Electrical Manufacturers Association, will have even less than a minute amount of mercury in them.

      What to do if you break a CFL

      The EPA provides information on what to do if a fluorescent light bulb (compact or strip) breaks, or indeed a mercury thermometer for those yet to go digital or liquid crystal. Basically, clean up involves opening a window, leaving the room for quarter of an hour, and then cleaning up the debris as best you can without using a vacuum cleaner, while wearing disposable rubber gloves and using a piece of stiff cardboard as a scoop or duct tape to pick up smaller fragments. A disposable wet wipe could then be used to clean the affected area. You must then put the debris in a plastic bag seal it, and then dispose of the waste according to local rules. Finally, wash your hands and then vacuum the area where the bulb was broken. All sounds very simple and sensible and pretty much what you would do if you broke an incandescent bulb, but with a little extra caution regarding that small amount of mercury.

      Timely, then a review of mercury toxicity is published this week in the International Journal of Environment and Health. In the paper, Iman Al-Saleh
      of the Environmental Health Section, at King Faisal Specialist Hospital & Research Centre, in Riyadh, Saudi Arabia, discusses the three chemical forms in which mercury is usually found: elemental (liquid mercury, amalgams, or vapour), organic (bound to a carbon-containing material), inorganic (mercury salts).

      “Diet, especially fish and other seafood, is the main source of exposure of the general public to organic mercury. Dental amalgam is the most important source for elemental mercury vapour in the general population. Inorganic mercury compounds are known as mercuric salts, which are sometimes used in skin-lightening creams and as antiseptic creams and ointments,” says Al-Saleh.

      Thiomersal, thiomerosal

      Thiomersal, sodium ethylmercurithiosalicylate, is the sodium salt of an organic mercury compound and represents another exposure route. Thiomersal is known as thimerosal and Merthiolate in the US and was commonly used as an antibacterial agent in vaccine packaging. Presumably, thiomersal has saved thousands of lives by preventing potentially lethal Staphylococcus infections in those being vaccinated.

      Nevertheless, it is use is now being phased out in the developed world through safety legislation, but it is still in use in Saudi Arabia, Al-Saleh points out, and elsewhere.

      Al-Saleh’s extensive review of research into mercury toxicity does suggest that there is a need to evaluate antenatal and postnatal exposure to different forms of organic and inorganic mercury, especially given concerns regarding delayed neurological development in different age groups. This ongoing research will provide science-based evidence, rather than hearsay and scaremongering, regarding mercury exposure and provide healthcare providers and policymakers with the facts. Spurious anecdotes about paranoid parents panicked by environmental cleanup firms out to make a fast buck should not figure in this evidence.

      Research Blogging IconIman A. Al-Saleh (2009). Health implications of mercury exposure in children International Journal of Environment and Health, 3 (1), 22-57

      Reflecting on Climate Change

      Global Warming
      A radical plan to curb global warming and apparently reverse climate change caused by our rampant burning of fossil fuels since the industrial revolution would involve simply covering large areas of the world’s deserts with reflective sheeting.

      The idea is discussed in detail in the January issue of the International Journal of Global Environmental Issues and was reported widely in the press and across the blogosphere over the holiday period. Is it so much science fantasy or might it actually work? Engineers Takayuki Toyama of company Avix, Inc., in Kanagawa, Japan, and Alan Stainer of Middlesex University Business School, London, UK, suggest that there is too much pessimism around concerning our ability to realistically reduce atmospheric carbon dioxide levels so other measures may need to be taken.

      Reader Thomas Hewitt emailed his concerns about the proposal, he was worried that reflective sheeting would be expensive and intrusive and points out that diluted white latex paint can increase the reflectivity of porous surfaces, such as concrete, by ten percent. “An even better deployment [than painting desert rocks], would be to use it on manmade surfaces, in hot areas,” he says, “Locally, this could be seen as a rollback of the urban heat island effect. If done to enough surface area in high insolation areas, it might have a noticeable effect on global temperatures.”

      I asked Toyama about the viability of the team’s proposals. Is it ever likely to be viable to cover such large areas of the desert with reflective sheets weighted down with sandbags? “Yes it is viable,” he says, “We are often questioned if the area we propose is too small! Of course, compared to the surface area of the earth, it is fairly small.”

      But, how will such sheets be kept clean and maintained? And what will stop them being covered with dust in a desert? “The sheets would be laid in dry desert, with little rainfall, remembering that half the world’s desert area is composed of rock,” he adds, “Two known relevant examples come to mind: the NAZCA Lines in Peru have been unpaved for 1000 years and the successful covering sheets over snow in the North of Japan to reserve snow for summer skiing. Of course, the issue of maintenance work for sheets preservation needs to be investigated this would certainly provide jobs and benefit the area.”

      But, couldn’t the problem be solved by every household simply painting their roofs white instead? “Roof area would be insufficient and would contribute a small percentage,” he added, “However, as a supplemental solution, it would be helpful in contributing to energy saving to cool rooms. Indeed, this is already used in flat-roofed houses of rich people in Middle and Near East. In Japan, it is seen as effective in improving family comfort but is not perceived as sufficient to tackle global problems.”

      It still seems as far-fetched a macro-engineering project as subliming millions of tonnes of carbon dioxide at the bottom of the oceans. However, Toyama suggests that this is an unfair comparison. “Our concept is basically to alter the flow of heat whilst subliming relates to treating carbon dioxide stock problems itself, not a well established, suspicious and unreliable technology from the safety angle. As an overview, in management of technology terms, there must be a multi-faceted bold approach to carbon dioxide reduction or the target set of 50% by 2050 at the Touyako Summit will never be reached.”

      The obvious thing to note of course, is that surface albedo changes are not a complete replacement for greenhouse gas reductions, adds Hewitt. “For one, the distribution of the cooling effect will never be a good match to the warming effects of greenhouse gases,” he suggests, “Secondly, we still have the serious issue of ocean acidification. The key trick (if cooling via deliberate surface albedo intervention is technically doable), will be to prevent it from being used an excuse to continue business as usual emissions.”

      The team’s paper was apparently submitted in order to respond to current discussions about how a more cosmic view of Earth’s energy balance might be addressed regarding human activities. “Carbon dioxide reduction is insufficient from such a viewpoint,” Toyama adds.

      Research Blogging IconTakayuki Toyama, Alan Stainer (2009). Cosmic Heat Emission concept to ‘stop’ global warming International Journal of Global Environmental Issues, 9 (1/2) DOI: 10.1504/IJGENVI.2009.022093

      Sperm, Discharge, Heroin, and Alzheimers

      alkaline-batteriesBatteries are included (unfortunately) – A chemical cocktail of toxic gases is released when you burn alkaline batteries, according to the latest research from Spain. The investigating team highlights the issue with respect to municipal waste incineration, which is used as an alternative to landfill and suggests that recycling is perhaps the only environmentally viable alternative.

      Today, UK government departments BERR and Defra, in conjunction with the Devolved Administrations,
      today published a Consultation Document containing draft Regulations setting out proposed systems for the collection, treatment and recycling of waste portable, industrial and automotive batteries.

      Cutting heroin analysis – Analysing samples of street heroin just got easier as researchers have developed a statistical method for removing uninformative signals from their near-infra-red spectra of seized samples.

      Sperm and eggs – Scientists in Sweden have determined the precise molecular structure of a protein, ZP3, essential to the interaction of the mammalian egg coat and sperm. The work could eventually lead to improved contraceptives, has implications for fertility studies, and might, in some sense, explain how new species arise.

      Untangling Alzheimer molecules – Magnetic resonance spectroscopy provides new clues about how a dipeptide molecule blocks the formation of the toxic amyloid beta-peptide aggregates in the mouse brain. The discovery could put paid to the theory that amyloid beta-peptide causes Alzheimer’s disease and suggest a therapeutic lead that focus on the real culprit at an earlier stage.