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segunda-feira, 28 de abril de 2014
AMNESTY OF DEFORESTATION BY THE BRAZILIAN NEW FOREST CODE!?!?!? NO SURPRISE IF IT HAPPENS!!!
domingo, 27 de abril de 2014
quinta-feira, 24 de abril de 2014
WE ARE ON THE RIGHT WAY WITH ELECTRIC CARS
Electric car numbers double in one year
[Reproduced from The Ecologist]
15th April 2014
If the past three years' growth rates are sustained, then more than one million electric vehicles will be out and about worldwide as early as the beginning of 2016.
The number of electrically powered automobiles worldwide climbed to just over 400,000 in early 2014.
This figure was determined in an analysis conducted by the Centre for Solar Energy and Hydrogen Research Baden-Württemberg (ZSW).
The vehicle count doubled over the twelve months of last year, increasing by an impressive 200,000 units.
The Ulm-based researchers found that demand is greatest in the USA, Japan and China, which are currently the globally leading markets. Germany is just seventh in the ranking, trailing France, the Netherlands and Norway.
Incentives are driving markets
The most telling statistic is that countries with incentive programs have taken the lead in electric mobility, a market with a bright future. The top-selling cars are made by Japanese and American automotive companies. Batteries are sourced mainly from Asia.
Incentive programs have sparked a run on electric cars in the lead markets. This benefits especially the pioneering companies Nissan, General Motors and Toyota.
"Efforts in Germany are also quite impressive", says Prof. Werner Tillmetz, a member of ZSW's board of directors at Ulm.
"However, it will take far more effort to establish a lead market in this country with an end-to-end value chain that includes the key component, the battery. Otherwise we will be left behind by the global competition."
Research into batteries has been stepped up significantly and automobile manufacturers are fast-tracking the development of advanced electric drives.
Sharp, steady global growth over the last three years
According to ZSW's study, the number of registered electric vehicles increased at an annual growth rate of over 100% in the last three years.
Nearly 100,000 electric cars were on the road worldwide in early 2012. A year later the vehicle count came to 200,000, and already reached 405,000 early this year.
If the past three years' growth rates are sustained, then more than one million electric vehicles will be out and about worldwide as early as the beginning of 2016.
The US leads the market
The researchers tallied the global registration numbers for cars with battery-powered electric drives, range extenders and plug-in hybrids. They did not count motorcycles, trucks, buses or full hybrid vehicles, of which there are now more than six million.
The United States are well ahead with 174,000 electric cars, followed by Japan (68,000) and China (45,000). Close to 30,000 electric vehicles are registered in the Netherlands, compared to just 17,500 in Germany.
A similar picture emerges in the automotive company rankings. Nissan is in the lead, having sold more than 90,000 of its Leaf models, followed by General Motors with combined sales of its Ampera and Volt models topping the 60,000 mark. Toyota, which has moved over 40,000 Prius Plug-Ins, is in third place.
Europe trailing on battery manufacture
The battery is the heart of the electric car, and Europe's ranking in this regard is also quite disappointing. Much like consumer electronics, lithium-ion batteries for vehicles are manufactured almost exclusively by Asian companies.
"Most car batteries come from Japan and South Korea", says Tillmetz. Energy storage units are the key technology for tomorrow's drives, and they determine the cost, range and safety of vehicles, among other factors.
"If Germany wants to secure batteries' big share of the value-added, there will have to be a coordinated strategic effort to establish a German production", says the head of the ZSW division Electrochemical Energy Technologies.
The Centre for Solar Energy and Hydrogen Research Baden-Württemberg (ZSW) is one of the leading institutes for applied research in the fields of photovoltaic energy, renewable fuels, battery technology, fuel cells and energy systems analysis.
The three ZSW sites at Stuttgart, Ulm and Widderstall are currently staffed with around 230 scientists, engineers and technicians supported by 120 research and student assistants.
quarta-feira, 23 de abril de 2014
SIZE REDUCTION AND PROTECTION OF BRAZILIAN CONSERVATION UNITS: 52,000 KM2 (=12,849 ACRES)
segunda-feira, 21 de abril de 2014
WHAT A WONDERFUL (AND MYSTERIOUS) WORLD!!!
Female cave insects have 'penises'
Last updated 18/04/2014 01:51 BRT
By James Morgan
[Reproduced from Science reporter, BBC News]Female insects with "penises" have been discovered in Brazil - the first example of an animal with sex-reversed genitalia, scientists say.
Neotrogla females insert the erectile organs into males' vagina-like openings.
The elaborate structure, dubbed a "gynosome", is used to suck out sperm and nutritious seminal fluids.
Copulation lasts an impressive 40-70 hours, the researchers report in Current Biology.
"Although sex-role reversal has been identified in several different animals, Neotroglais the only example in which the intromittent organ is also reversed," said lead author Kazunori Yoshizawa from Hokkaido University in Japan. The gender-bending insects were found in a cave in eastern Brazil and represent four distinct species in the Neotrogla genus.
Once inside a male, the membranous part of the female gynosome inflates. It has numerous spines which anchor the two insects together.
When the researchers attempted to pull a male and female apart, the male's abdomen was ripped from the thorax without breaking the genital coupling.
The unusual role reversal may have been driven by the resource-poor cave environment in which the bugs live, the researchers speculate.
Copulation provides a female with food as well as sperm - so it is advantageous for her to mate at a higher rate, they note.
The curious insects offer new opportunities to test ideas about sexual selection, conflict between the sexes, and the evolution of novelty.
"It will be important to unveil why, among many sex-role-reversed animals, onlyNeotrogla evolved the elaborated female penis," said Yoshitaka Kamimura from Keio University in Japan.
Their first task, they say, is to establish a healthy population of the insects in the lab.
EXOTIC PLANTS: EVERYWHERE IN THE WORLD NEEDS DETAILED ANALYSIS BEFORE GENERALIZATION
[Reproduced from The Independent, London]
In a finding that looks set to overturn generations of gardening advice, early indications strongly suggest that all classes of plant are capable of supporting a large and diverse range of invertebrate creatures, according to the project’s assistant manager, Andrew Salisbury.
“This is very exciting. The idea is solidly out there that if you want native insects you should only plant native plants. That’s been the advice for years. Initial analysis shows this is not the case,” said Mr Salisbury, though he cautioned there was much more detailed analysis to be done.
“This is great news for gardeners because it indicates that no matter what you plant it will support a wide range of biodiversity,” he added. “Even if this knowledge doesn’t change what you plant, it will make you feel less guilty about the near-native and exotic plants in your garden.”
The research emerged just days after the EU announced plans to clamp down on harmful non-native plant and animal species such as Japanese Knotweed, which can destroy the foundations of skyscrapers, and Zebra mussels from Russia, which grow prolifically and clog intake pipes at water treatment plants. The EU will draw up a blacklist of invasive alien species in order to limit their spread.
However, only a small minority of the estimated 2,000 alien plant species in the UK are invasive – or fast-spreading – and causing problems for natural habitats or the infrastructure. The RHS research indicates that, overall, non-native plants are a significant force for good.
Native plants are classed as species which arrived in Britain after the last ice age without the assistance of humans. They include holly, ivy, honeysuckle, Foxglove, Majoram, Purple Loosestrife and raspberry.
However, today they account for only about 30 per cent of garden plants, the remainder being non-native species such as sunflowers, Lavender, dahlias, Echinacea and the malus pumila apple, which have entered the country through trade.
“There is still much work to do but I suspect the final conclusion will be that we don’t necessarily need just natives and that we should give careful consideration to natives, near-natives and exotic species,” Mr Salisbury said.
For its so-called Plants for Bugs programme, the RHS has coined the new term of “near-native” plants for species not native to Britain but originating in the Northern hemisphere and arising from similar eco-systems.
The clearest conclusions the RHS has come up with so far relate to pollinators. They are that, while hoverflies prefer native plants, bees are drawn more to near-native species and wasps are most attracted to exotic plants.
Mr Salisbury and his colleagues have recorded the activities of approximately 80,000 invertebrates on plots at the main RHS garden in Wisley, near Woking in Surrey. They will analyse the data over the next two years, starting with pollinators. They will then examine the relationship between various classes of plants and herbivores such as caterpillars and aphids, predators such as spiders and ground beetles and with the whole natural community.
“Ultimately we’ll be producing a guide on the optimum way gardeners can help wildlife by using native and non-native plants in gardens,” said Plants for Bugs project manager Helen Bostock.
Adrian Thomas, gardening expert at the RSPB, said: “This doesn’t mean that every exotic plant is wildlife manna, but choose them well and you can have a garden full of gorgeous flowers from across the globe which delivers a home for nature at the same time.”
But not everybody is convinced. Matt Shardlow, head of the Buglife insect charity, has scrutinised the findings the project. He said: “There are very few relationships that look robust and likely to be scientifically proven.
“Even when recording the visits to flowers by bees, it is nearly impossible to tell if the bee is examining the flower and being disappointed by not finding suitable pollen and nectar or is delighted to find the resource it is seeking.”
sábado, 19 de abril de 2014
"GET READY FOLKS! THE CIRCUS HAS COME TO TOWN"!!!
Dismissing organic food in the same soundbite way is shallow, ridiculous and may even, in the long-term, prove terribly misleading.
[Reproduced from www.theecologist.org]
A widely publicised study has suggested that eating organic food doesn't stop you getting cancer. Pat Thomas finds the study deeply unconvincing - and wonders why Cancer Research UK is so quick to trumpet its conclusions.
Both sides of the debate are scrambling to make their soundbites seem more sensible than the other guys' - and for reasons known only to newspaper photo editors, pictures of Gwyneth Paltrow are being used to illustrate the 'typical' organic eater.
Get ready folks, the circus has come to town.
In slightly more than a soundbite here is my take.
The study, by scientists from Oxford University, used data from a larger study called the Million Women Study. Around 623,000 women aged 50 or over were asked via questionnaire whether they ate organic foods. These women were then followed over a 9-year period to see who developed any of the most common types of cancer.
The researchers say they found no difference in overall cancer risk between those who never ate organic and those who usually or always did.
Several things occur to me ...
Very few women in the study actually ate a fully organic diet. Indeed at the beginning of the study the scientists determined that 30% (180,000), 63% (224,000) and 7% (45,000) fell into never, sometimes, or usually / always eating organic food categories, respectively.
Thus the number of women who ate organic food was very small and food questionnaires are a notoriously inaccurate way of understanding how people eat.
A 2010 report by commissioned by the charity Cancer Research UK, which also commissioned this study, estimated that 43% of new cancers were due to largely preventable dietary and lifestyle factors. That means that 60% of cancers are due to something else.
Even if you were to accept that the genetic contribution to cancer was as high as 20% (I don't) that still means that 40% of cancers are caused by something else, which diet alone is unlikely to address.
Nutritional composition matters too
The nutritional composition of the women's diets is as important as whether they were organic or not. It would be interesting to know how the researchers defined organic food - was it fresh or processed?
A diet of organic doughnuts, crisps and sodas is unlikely to be protective (though that's a fight for another day).
Cancer is a slow developing disease. This makes it very difficult to study its causes. The nine years of the study is probably not long enough to show any significant differences between groups, especially for some of the cancers studied, some of which, in the grand scheme of things, are still relatively rare.
Early shorter-term studies of mammographies, for example, were once used to suggest that they reduced the risk of death from breast cancer. But a 25-year study published this year has shown this was not the case.
The researchers say that an organic diet did not prevent cancer, but in this study it was associated with a 21% decrease in the risk of non-Hodgkin lymphoma - which should probably not be dismissed as "chance", as has been done.
Why put the study behind a paywall?
If the researchers are so sure of their findings why didn't they make them 'open access' so that everyone could read - and immediately, intelligently comment on them? The reason, I would suggest, is that they want to make headlines on their basically crappy (that's the scientific term) study, before anyone can tear it apart.
No single dietary intervention can protect you from disease or early death. This includes vegetarianism which has been shown to reduce, but not prevent, the incidence of and early death from a whole range of diseases including cerebrovascular disease and various cancers.
Eating organic, apart from its multitude of other health and environmental benefits, still remains one of the best ways to avoid pesticide residues in your food (levels of which are rising).
Avoiding pesticide residues is a sensible health precaution because the link between pesticide exposure and cancer is well established.
CRUK - not impressed by organic food
Depressing, then, to read Dr Claire Knight, from Cancer Research UK, quip that: "This study adds to the evidence that eating organically grown food doesn't lower your overall cancer risk. But if you're anxious about pesticide residues on fruit and vegetables, it's a good idea to wash them before eating."
Pesticides are present in many foods and most can't be simply 'washed away' - otherwise they would not work in the fields. They stay on plants and in our bodies for a long time.
What is more you can't wash foods such as flour, cereals and bread. As our friends at the Soil Association replied: "we'd be interested to know how she expects consumers to wash loaves of bread."
The Million Women Study has generated a lot of data including such gems as whether having a cat gives you cancer, whether taking a nap means you have cancer and whether having babies and breastfeeding makes you fat which will probably give you cancer.
I'm only partly joking. These are real studies. The point is, dismissing organic food in the same soundbite way is shallow, ridiculous and may even, in the long-term, prove terribly misleading.
Pat Thomas edits NYR Natural News, where this article was first published. She is a former editor of The Ecologist.
Also on The Ecologist: 'Pesticides can cause cancer - so why does CRUK ignore them?'
Photo: by Sandy Lane Farm.
quinta-feira, 17 de abril de 2014
FRAGMENTED AREAS OF AMAZON FOREST UNDER DRY CLIMATIC CONDITION ARE SUSCEPTIBLE TO FIRE
Abrupt increases in Amazona tree mortality due to drought–fire interactions
Abrupt increases in Amazonian tree mortality due to drought–fire interactions
- Paulo Monteiro Brandoa,b,c,1,2,
- Jennifer K. Balchd,1,
- Daniel C. Nepstade,1,
- Douglas C. Mortonf,
- Francis E. Putzg,
- Michael T. Coeb,
- Divino Silvérioa,h,
- Marcia N. Macedob,
- Eric A. Davidsonb,
- Caroline C. Nóbregaa,i,
- Ane Alencara, and
- Britaldo S. Soares-Filhoj
Edited by Stephen W. Pacala, Princeton University, Princeton, NJ, and approved March 18, 2014 (received for review March 22, 2013)
Significance
Climate change alone is unlikely to drive severe tropical forest degradation in the next few decades, but an alternative process associated with severe weather and forest fires is already operating in southeastern Amazonia. Recent droughts caused greatly elevated fire-induced tree mortality in a fire experiment and widespread regional forest fires that burned 5–12% of southeastern Amazon forests. These results suggest that feedbacks between fires and extreme climatic conditions could increase the likelihood of an Amazon forest “dieback” in the near-term. To secure the integrity of seasonally dry Amazon forests, efforts to end deforestation must be accompanied by initiatives that reduce the accidental spread of land management fires into neighboring forest reserves and effectively suppress forest fires when they start.
Abstract
Interactions between climate and land-use change may drive widespread degradation of Amazonian forests. High-intensity fires associated with extreme weather events could accelerate this degradation by abruptly increasing tree mortality, but this process remains poorly understood. Here we present, to our knowledge, the first field-based evidence of a tipping point in Amazon forests due to altered fire regimes. Based on results of a large-scale, long-term experiment with annual and triennial burn regimes (B1yr and B3yr, respectively) in the Amazon, we found abrupt increases in fire-induced tree mortality (226 and 462%) during a severe drought event, when fuel loads and air temperatures were substantially higher and relative humidity was lower than long-term averages. This threshold mortality response had a cascading effect, causing sharp declines in canopy cover (23 and 31%) and aboveground live biomass (12 and 30%) and favoring widespread invasion by flammable grasses across the forest edge area (80 and 63%), where fires were most intense (e.g., 220 and 820 kW⋅m−1). During the droughts of 2007 and 2010, regional forest fires burned 12 and 5% of southeastern Amazon forests, respectively, compared with <1% in nondrought years. These results show that a few extreme drought events, coupled with forest fragmentation and anthropogenic ignition sources, are already causing widespread fire-induced tree mortality and forest degradation across southeastern Amazon forests. Future projections of vegetation responses to climate change across drier portions of the Amazon require more than simulation of global climate forcing alone and must also include interactions of extreme weather events, fire, and land-use change.
Footnotes
1P.M.B., J.K.B., and D.C.N. contributed equally to the work.
- 2To whom correspondence should be addressed. E-mail: pmbrando@ipam.org.br.
Author contributions: P.M.B., J.K.B., D.C.N., F.E.P., M.T.C., and E.A.D. designed research; P.M.B., J.K.B., D.C.N., M.T.C., and D.S. performed research; D.C.M., F.E.P., and M.N.M. contributed new reagents/analytic tools; P.M.B., J.K.B., D.C.M., D.S., M.N.M., C.C.N., A.A., and B.S.S.-F. analyzed data; and P.M.B., D.C.N., and F.E.P. wrote the paper.
The authors declare no conflict of interest.
This article is a PNAS Direct Submission.