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terça-feira, 28 de abril de 2015

182 TREE SPECIES OF THE AMAZON, OUT OF 16,000 SPECIES, ARE RESPONSIBLE FOR 50% OF CARBON STORAGE

Report by BBC News

About 1% of all the tree species in the Amazon account for half of the carbon locked in the vast South American rainforest, a study has estimated.

Although the region is home to an estimated 16,000 tree species, researchers found that just 182 species dominated the carbon storage process.

Amazonia is vital to the Earth's carbon cycle, storing more of the element than any other terrestrial ecosystem.

The findings appear in the journal Nature Communications.

"Considering that the Amazon is massively important for the global carbon cycle and stores so much of the planet's biomass, finding out just how that carbon is stored and produced is very important if we want to understand what might happen in the future in different environmental conditions," explained co-author Sophie Fauset from the University of Leeds, UK.

The tropical forest covers an estimated 5.3 million sq km and holds 17% of the global terrestrial vegetation carbon stock.

The findings build on a study published in Science in October 2013 that found that despite being home to an estimated 390 billion trees - made up by 16,000 species - just 227 "hyperdominant" species accounted for half of Amazonia's total trees.

Dr Fauset observed: "If you then take abundance into account and then analyse the data again, then maximum size is very important as well. Trees that are able to reach a large size contribute more to the carbon cycle."

As trees grow larger, they develop more biomass, which contains carbon. So the larger the tree, the greater quantity of carbon locked within its wood. As trees are long-lived organisms, this means the carbon is removed from the atmosphere for decades, if not centuries.

However, Dr Fauset cautioned against the idea of focusing attention on the 182 species and embarking on a vast planting programme to lock more carbon away from the atmosphere, where it contributes to global warming.

"While we have shown that there are a small number of species having a disproportionate influence on the carbon cycle, that is only what we have been able to measure right now," she told BBC News.

"Given the amount of changes that are occurring in tropical regions, such as with the climate and with land-use changes, in the future there might be different species that become more important."

A good example is the Brazil nut tree (Bertholletia excelsa), which can reach heights in excess of 48m (160ft). It is known to thrive best in dense, undisturbed rainforests.

A study in 2010 examining the natural dispersal of Brazil nuts suggested their intensive harvesting could threaten future regeneration of the trees.

Researchers found that large rodents - such as agoutis - quickly ate the nuts, rather than caching them, when supplies were scarce. When supplies were plentiful, almost twice as many nuts were buried, increasing the chance of successful germination.

This means that the species may not play such a dominant role in the carbon cycle in the future.

"Therefore, it is important that you maintain a bio-diverse forest that has a wide range of species with a wide range of life histories and strategies that will be able to deal differently with changes to the environmental conditions, " Dr Faucet added.

"In the future, it might be different species that are more important for the carbon cycle than what we have measured right now."

In a previous study, Dr Faucet and a team of fellow scientists found that the carbon storage capacity of protected forests in West Africa had increased despite the region suffering a 40-year drought.

The team suggested the increase in the forests' carbon-storing biomass was the result of a shift in species composition.

As the drought period stretched over decades, it allowed the species that could survive under those conditions to be favoured.

Unaccounted emissions

The complexity of the global carbon cycle was highlighted in a separate study, also published on Tuesday.

Researchers suggested that global carbon emissions from forests could have been underestimated because calculations have not fully accounted for the dead wood from logging.

The study, published in Environmental Research Letters, found that dead wood could account for up to 64% of biomass. In untouched forests, dead wood made up less than 20% of the above-ground biomass.

Lead author Dr Marion Pfeifer, from Imperial College London, observed: "I was surprised by how much of the biomass dead wood accounted for in badly logged forests.

"That such logged forests are not properly accounted for in carbon calculations is a significant factor.

"It means that a large proportion of forests worldwide are less of a sink and more of a source, especially immediately following logging, as carbon dioxide is released from the dead wood during decomposition."

Estimates suggest that forestry, agriculture and land-use changes account for almost a quarter of greenhouse gas emissions from human activities. Only the energy sector emits more.

CHERNOBYL: 29 YEARS ON

The situation at the site – no foreseeable solution and a race

against time

Photo above, from www.theecologist.org

The reactor accident

On 26 April 1986, the worst nuclear disaster the world has yet seen occurred in reactor block number 4 at the Chernobyl nuclear power plant. The accident happened in a Russian-designed RBMK, a water-cooled pressure reactor moderated with graphite. Operating errors combined with a flawed technical design and an inadequate safety culture led to the disaster. Two explosions destroyed the reactor, and the graphite block caught fire and burned for ten whole days. Radioactive material was released into the atmosphere over a vast area. Within six months, a lid was constructed under difficult conditions to cover the remains in an attempt to contain the radioactive releases. This protective sarcophagus was expected to last for 20 to 30 years.

In addition to the destroyed reactor at the site, there remained reactor blocks 1 to 3. It was not until the end of 2000, when reactor 3 was shut down, that the entire Chernobyl nuclear power plant was taken off the grid. In February 2014, the Ukrainian regulatory authorities approved the decommissioning of blocks 1 to 3. The three reactor blocks are deemed to be ‘safely contained’.

The Shelter Implementation Plan (SIP)

In the ten years after the accident, no comprehensive solution was found that was economically and technically acceptable for dealing with the damaged reactor in the long-term. For this reason it was agreed to proceed in several stages. In 1997, the Shelter Implementation Plan (SIP) became the basis for international collaboration on how to begin to manage the site. Its objective in the medium-term is to better contain the highly radioactive remains – in order to buy some time to develop a long-term solution. An essential part of implementing the medium-term objective is the construction of a new containment structure for the damaged reactor. A new curved, protective shell made of steel, the New Safe Confinement (NSC), is to be placed over the reactor. Novarka, a French consortium, was awarded the contract to construct the new protective shell.ii

Due to the high level of radiation, the new containment cannot be constructed directly above the deteriorated sarcophagus. . The new safety shell – a massive, self-supporting, domed, hall-like structure 257 metres wide, 165 metres long, and 110 metres high – is being manufactured in two parts to the side of the damaged reactor. These two parts are supposed to be pushed together and joined, then slid over the damaged reactor. iii When it is completed, it will be the largest movable structure on earth.
Implementing the SIP is proving to be much more difficult than expected. At the outset (1997), the projected timeframe for the NSC was eight to nine years, meaning completion by 2005/2006.
iv
Yet work on the gigantic structure did not even begin until April 2012. At the time, the completion date for the NSC was then planned for October 2015. But construction of the new sarcophagus for what remains of the Chernobyl nuclear power plant is taking longer than anticipated. It is now expected that the completion date will be November 2017.v

Despite the unrest in eastern Ukraine, construction of the new protective shell went ahead.vi In 2014, both halves were put together up to their maximum height and placed together on the assembly platform. vii Both halves of the NSC are at present being joined together. viii

Beginning in 2015, the structure is supposed to be sealed by means of a double-walled outer shell and equipped on the inside with a crane facility. ix The most difficult part will then begin: the whole structure, some 31,000 tonnes in weight, is to be pushed into place over the damaged reactor using hydraulic lifting equipment, in a process lasting three days.

The costs of the SIP have also risen considerably, and its financing is being continually called into question. The European Bank for Reconstruction and Development (EBRD) took charge of administrating the SIP. In 1997, it set up the Chernobyl Shelter Fund (CSF).

According to a new investigation held in 2014, the total costs for the SIP have now been put at EUR 2.15 billion (USD 3.09 billion). In 2012, the costs were calculated at EUR 1.54 billion (about USD 2.1 billion). x The costs for the SIP have already more than quadrupled the original estimates of USD 768 million.. xi

Due to delays and the enormously increased costs, there is now a huge financing shortfall of EUR 615 million. In the meantime, the EBRD has agreed to provide EUR 350 million, with the expectation that there will be EUR165 million forthcoming from the G7/EU. At a donor conference being held on 29 April 2015, led by Jochen Flasbarth, a state secretary in Germany’s environment ministry (in the context of Germany’s presidency of the G7), this amount is to be the subject of negotiation.xii The remaining EUR100 million is to come from non-G7/EU states, or otherwise also borne by the EBRD. 

[...]

Complete report on  

http://www.greenpeace.org/international/Global/international/briefings/nuclear/2015/Chernobyl-29-years-later.pdf
April 2015

Written by Oda Becker on befalf on Greenpeace e.V. 


domingo, 19 de abril de 2015

DROWNING IN GARBAGE OF TECHNOLOGY

White goods dominate e-waste items

From BBC News

Old kitchen, bathroom and laundry equipment made up 60% of the 41.8 million tonnes of electronic waste thrown away in 2014, suggests a report.

Written by researchers from UN University it details how much e-waste different regions discard.

Old microwaves, washing machines, dishwashers and other household items made up the bulk of the waste.

Only 16% of the items discarded found their way into proper recycling and re-use schemes.

Urban mine

The report found the US was the nation which disposed of most electronic waste with 7,072 kilotonnes generated in 2014. China was second (6,032 kilotonnes) and Japan third (2,200 kilotonnes).

European nations topped the rankings of regions measured by how much waste each citizen generated.

In Norway, each inhabitant did away with about 28.4kg of electronic waste, found the report. Across Africa levels of e-waste generated per inhabitant were lower at 1.7kg per person.

The report said rising levels of discarded electronic equipment were being driven by the growing popularity of domestic electronics and because many modern devices did not last as long as older versions of the same products.

Far more should be done to capture e-waste and "mine" the valuable resources used to make such equipment, said UN under-secretary-general David Malone, rector of the UN University.

"Worldwide, e-waste constitutes a valuable 'urban mine' - a large potential reservoir of recyclable materials," he said.

Buried within the 41.8 million tonnes of waste was more than 16,000 kilotonnes of iron, 1,900 kilotonnes of copper and 300 tonnes of gold as well as other precious metals such as palladium.

The combined value of all these valuable resources was about $52bn (£35bn) estimated the report.

In addition, said Mr Malone, the massive amount of waste represented a potential toxic stockpile as many of the devices used materials, such as lead, that were hazardous which needed to be disposed of carefully.

BBC © 2015

terça-feira, 14 de abril de 2015

POLLUTION DAMAGES CHILDREN'S BRAINS. BELIEVE IT OR NOT, LET'S BE SMARTER WITH NO POLLUTION!!!

Photo: medicineworld.org


Air pollution may be damaging children's brains - before they are even born

Frank Kelly & Julia Kelly

Reproduced from www.theecologist.org

Young mice exposed to ultra-fine particles at concentrations similar to those found in rush-hour traffic developed enlarged cavities in their brains - a condition associated with autism and schizophrenia in humans.

As south-east England goes onto an air pollution 'red alert', write Frank Kelly & Julia Kelly, be warned: in addition to causing respiratory and cardiovascular damage, the microscopic particles befouling the air also impact on the brains and nervous systems of unborn children whose mothers suffer high levels of exposure.

Exposure to air pollutants during pregnancy may contribute to childhood abnormalities in the brain, a new studysuggests.

The research, from the Children's Hospital of Los Angeles, measured the exposure of the mothers to PAH air pollution and used brain imaging to look at the effects on their children's brains.

PAHs, or polycyclic aromatic hydrocarbons, are widespread pollutants formed when organic materials are incompletely burned. They originate from vehicle exhausts, burning coal and oil, waste incineration, and wildfires.

They can also be found inside the home, for example from tobacco smoke or open fires and stoves.

We need our white matter

The researchers began looking at the effects of prenatal exposure to PAH on brain development in the 1990s. The initial studyrecruited more than 600 women in the third trimester of pregnancy from New York City minority communities. They completed questionnaires and were given portable pollution monitors for 48 hours to allow researchers to determine their exposure.

Their children were then assessed between the ages of three and seven, and the team found that exposure was associated with symptoms of ADHD (attention deficit hyperactivity disorder) and other cognitive and behavioural problems including reduced IQ, anxiety and depression.

For the latest study, 40 of the same children had their brains scanned, revealing a strong link between PAH exposure in the womb and a reduction of white matter in the brain (see image, right). Brain white matter is made of millions of cells called axons that allow rapid connections between different regions of the brain.

What's more, these disturbances in the brain were associated with slower reaction times during intelligent testing as well as more severe ADHD symptoms and conduct disorder.

Growing signs of trouble

This study's findings add to a growing body of literature on air pollution and health, from which other studies report associations with autism spectrum disordersschizophrenia and cognitive impairment.

For example, one study of Californian children showed that those exposed to the highest levels of traffic-related air pollution during pregnancy and in the first year of life were more likely to develop autistic spectrum disorders than those exposed to the lowest levels.

More direct evidence that air pollution affects the developing brain comes from animal studies. One study of the brains of young mice exposed to ultra-fine particles at concentrations similar to those found in rush-hour traffic found the mice displayed enlarged cavities in their brains - a condition which in humans is associated with autism and schizophrenia.

The mechanism by which air pollution is toxic to the brain is not yet fully understood, in particular, the pathway to the brain of particulate matter (PM) - small pollutants particles which can carry PAHs on their surface.

Ultrafine particles are believed to move to the brain either by travelling from the lung into the systemic circulation and across the blood brain barrier or by landing at the back of the nose then travelling to the brain via the olfactory nerve. Once in the brain, pollutant particles can cause inflammation and cellular damage.

Need for more research

As with any scientific project, there were limitations to the study: the sample size was small and it was not possible to exclude the possibility that the findings could have been caused by other environmental exposures.

The researchers plan to scan many more children, and to assess the way PAH interact with other contaminants and their effects on the brain.

It's also important to remember that the findings were made from a study of a specific population with a high level of poverty, low educational attainment and below-average maternal IQ - so the results may not easily generalise to other populations.

This study and much of the other research on air pollution and the brain originates from the US, where the proportion of one major source of urban air pollution - the diesel-powered car - is low compared to the UK. This makes it necessary to collect our own data here.

In our recently launched birth cohort study we will be collecting detailed information on 80,000 UK babies and their parents during pregnancy and the first year of children's lives to work out which factors shape growth, development, health and well-being.

The cost of air pollution

Although there has been relatively little research on the negative effects of air pollution on the nervous system, evidence is already mounting. A unique feature of air pollution as a risk factor for disease is that exposure is almost universal.

Importantly, the study showed that the more the mother was exposed to PAH while pregnant, the larger the white matter disturbance in the child. This suggests that reduction in exposure to PAHs during pregnancy and just after birth has the potential to bring about an equivalent reduction in white matter disturbance in the child's brain and its effects.

If further studies find similar results, the public health implications are significant given how widespread PAHs are and how little we know about the causes of mental health problems - an area that presents a large and growing disease burden on society.

The ever-accumulating evidence that so many components of air pollution contribute to such a diverse set of diseases confirms the urgent need to manage the quality of the air we breathe.

Achieving this promises to be a significant and cost-effective way of improving our health and quality of life.

 


 


quarta-feira, 8 de abril de 2015

.SOLAR ENERGY IN BRAZIL: "BETTER LATE THAN NEVER"

Deepening drought forces Brazil to embrace solar power

Jan Rocha


Without water to feed its hydroelectric dams, drought-hit Brazil is turning to solar power - dubbed 'a fantasy' by the country's president just a few years ago, writes Jan Rocha. Now thousands of megawatts of floating solar panel 'islands' are to be installed on dam reservoirs.


Brazil's devastating drought could have the unexpected consequence of finally prompting one of the sunniest countries in the world to take solar power seriously.
The combination of an imminent energy crisis, as reservoir levels fall too low to generate power, and the appointment of a more open-minded Energy Minister promise a rapid change in the situation.

The drought, which has produced a crisis in the supply of water, has seen a dramatic drop in the levels of the reservoirs that supply dozens of hydroelectric dams in the southeast and centre west - Brazil's industrial powerhouse and major population centre.

As Brazil now begins the seven-month dry period, when rain is traditionally sparse, the reservoirs in the drought-affected region could fall to as little as 10% of their capacity, which the new Mines and Energy Minister, Eduardo Braga, admits would be "catastrophic" for energy security.

Thermal power plants, such as coal-fired stations, also consume huge volumes of water as they generate electricity.

[...]

Vast solar potential - 20 times greater than entire existing capacity!

At the moment, the total solar energy generated in Brazil is a piffling 15MW, much of it from new football stadium roofs installed for the 2014 football World Cup. But its vast solar energy potential, according to some sources, is equivalent to 20 times the total of all the present installed capacity of electrical energy.

[...]