Sunday, July 17, 2011

Belo Monte Dam Threatens Brazilian Amazon


It is a bitter loss. The wild river that along its lengthy journey gives life to so much and so many will be tamed forever. Where I stand on the shores of the Xingu River, just a few miles from the city of Altamira, I can see the markers where the main wall of the Belo Monte dam will be built. Across the main waterway of the Xingu, 14 meters (or 46 feet) high, the dam will muzzle the flow of the river and will create a gigantic lake almost 600 square kilometers in size. When the city of New Orleans, which is roughly that size, was flooded after hurricane Katrina, the entire world shrieked in horror. As an equivalent area of Amazonian rainforest is scheduled to be flooded, barely anybody outside this area is paying attention. For over 20 years, the ploy to dam the tributaries of the Amazon has been bounced around and finally the idea of damming the Amazon's tributaries as a solution to Brazil's energy challenges has won. The walls will go up and the character of this vital ecosystem will be changed forever and we will al loose...


Source: http://www.huffingtonpost.com

Friday, July 15, 2011

Douro Intemporal, entre o Douro, o Côa e o Águeda

O território entre o Côa, o Águeda e o Douro Internacional corresponde a um contínuo de áreas protegidas, devido ao seu valor patrimonial. A região — fruto do contexto geográfico e histórico e do esforço recente das entidades que tutelam o património arqueológico e natural, do trabalho de investigadores dedicados à conservação da natureza e do património cultural, conjugados com a preocupação e interesse das autarquias e associações locais — conservou património arqueológico e natural cuja dimensão e relevância ditaram a criação do Parque Arqueológico do Vale do Côa, do Parque Natural do Douro Internacional, da Área Protegida Privada da Faia Brava (incluída na Zona de Protecção Especial do Vale do Côa) e, recentemente, de uma estrutura cultural de acolhimento, o Museu do Côa.


Este território remete-nos para perspectivas tão arcaicas quanto contemporâneas: paisagens amplas, conservadas, e a grande arte, paleolítica e ao ar livre. Património intemporal que nos convida a reflectir sobre sábias e complexas relações entre natureza e cultura: paisagens de liberdade onde as aves rupícolas habitam escarpas gravadas há mais de 25 000 anos por mestres do traço, comunidades do Paleolítico Superior que nos legaram auroques, cabras, cavalos...

É a arte da luz. As arribas destes vales permitem-nos contemplar fauna separada no tempo por 25 000 anos e a obra de artistas separados pelos mesmos 25 000 anos. A baixa densidade populacional, já milenar, e a recente produção de conhecimentos, criaram, afinal, um território notavelmente equilibrado.

O Parque Arqueológico e Museu do Côa, o Parque Natural do Douro Internacional, os Municípios de Figueira de Castelo Rodrigo, de Freixo de Espada à Cinta, de Pinhel e de Vila Nova de Foz Côa e a Associação Transumância e Natureza, convidam-no a viver este território.

Vá ao site http://portal.icnb.pt/ e consulte o Programa

As inscrições são limitadas.

Veja também o artigo em:
http://www.novaguarda.pt/noticia.asp?idEdicao=790&id=32384&idSeccao=13944&Action=noticia
E participe...

Fuzileiros participam na prevenção de incêndios florestais

A Marinha, através do Corpo de Fuzileiros, está a participar este ano na prevenção de incêndios florestais através do patrulhamento e vigilância do Parque Natural da Serra da Arrábida e das matas da Machada e dos Medos, em Setúbal.


De acordo com a Marinha, cerca de 100 fuzileiros já estão a colaborar na prevenção dos fogos florestais, numa acção que se vai prolongar até 30 de Setembro. O período compreendido entre 1 de Julho e 30 de Setembro, corresponde à época do ano em que o risco de incêndio é mais elevado e durante o qual os meios de combate elevam os níveis de prontidão e serão activados progressivamente de acordo com a avaliação diária do perigo e do risco.

Para desempenho desta missão, os fuzileiros vão actuar em três escalões de prontidão, sendo o primeiro, constituído por uma equipa de seis militares que assumirá uma prontidão de uma hora, enquanto o segundo terá uma prontidão de doze horas e é constituído por 30 militares, duas viaturas UNIMOG e uma viatura ligeira. O terceiro escalão assumirá uma prontidão de 24 horas e é constituído por 65 militares e contará com uma ambulância e outros meios motorizados. As equipas estão dotadas de diverso equipamento de vigilância diurna e nocturna, máquinas fotográficas e meios de comunicação.

Estar ao serviço das populações e contribuir para a conservação de uma das mais importantes reservas naturais do País, onde se encontram espécies únicas no mundo, prevenindo calamidades como os fogos florestais, são actividades a que a Marinha atribui grande importância, enquadrando-se nas missões de interesse público atribuídas.

Fontes: http://www.marinha.pt/, http://naturlink.sapo.pt/

Wednesday, July 13, 2011

Sri Lanka Elephant Census


Sri Lanka Elephant Census Aims To Help Conservation Efforts

COLOMBO, Sri Lanka -- Sri Lanka is preparing for its first-ever countrywide census of elephants.


Wildlife Department head Chandrawansa Pathiraja says getting the numbers of elephants roaming the island's forests will help conservation efforts.

He said Wednesday that the census will run over two days starting Aug. 13 by counting elephants who come to drink at water holes, reservoirs and tanks.

The only count available now dates back a century when an estimated 10,000 to 15,000 elephants roamed wild in Sri Lanka. But their numbers are believed to have shrunk due to habitat loss and poaching.

Wildlife officials estimate Sri Lanka's elephant population at between 5,000 to 6,000.

Source: http://www.huffingtonpost.com

Tuesday, July 12, 2011

Pesquisa viabilizaria painéis solares maiores e mais baratos


Cientistas australianos criaram células fotoelétricas tão pequenas que podem ser misturadas na tinta, de modo que poderão ser usadas para construir painéis solares coloridos a um custo mais acessível e em uma tamanho maior que o tradicional, informou nesta quinta-feira a emissora ABC.


O pesquisador Brandon McDonald, da Universidade de Melbourne, com a ajuda da Organização para a Pesquisa Industrial e Científica da Comunidade da Austrália (CSIRO), explicou que a mistura "pode ser aplicada em uma superfície como vidro, plástico e metais" e dessa forma "se integra no edifício".

"Portanto agora é possível imaginar janelas solares ou sua integração dentro dos materiais do telhado", apontou o cientista. Este sistema necessita só de 1% dos materiais que se utilizam normalmente para fabricar os painéis solares tradicionais.

McDonald indicou que atualmente a energia solar é mais cara que a produzida com combustíveis fósseis, mas que com esta descoberta poderá impulsionar uma tecnologia "mais competitiva no nível de custos".

O cientista, que prepara seu doutorado em Ciências na Universidade de Melbourne, espera que os novos painéis custem um terço a menos que os que agora se comercializam e que sua invenção esteja no mercado nos próximos cinco anos.

Este descobrimento faz parte dos esforços da comunidade científica para reduzir os custos e o tamanho dos painéis solares e para buscar alternativas de produção de energia.

Source: http://www.energiasrenovaveis.com

Monday, July 11, 2011

How Hot Was It Long Ago?


The question seems simple enough: What happens to the Earth’s temperature when atmospheric carbon dioxide levels increase? It has happened in the past. The answer is elusive. However, clues are hidden in the fossil record. A new study by researchers from Syracuse and Yale universities provides a much clearer picture of the Earth’s temperature approximately 50 million years ago when CO2 concentrations were higher than today. The results may shed light on what to expect in the future if CO2 levels keep rising. The study which for the first time compared multiple geochemical and temperature proxies to determine mean annual and seasonal temperatures, is published online in the journal Geology, the premier publication of the Geological Society of America, and will be published in print on August 1.

SU Alumnus Caitlin Keating-Bitonti is the corresponding author of the study. She conducted the research as an undergraduate student under the guidance of Linda Ivany, associate professor of earth sciences, and Scott Samson, professor of earth sciences, both in Syracuse University’s College of Arts and Sciences. Early results led the team to bring in Hagit Affek, assistant professor of geology and geophysics at Yale University, and Yale Ph.D. candidate Peter Douglas for collaborative study.


The Eocene epoch, lasting from about 56 to 34 million years ago, is a major division of the geologic timescale and the second epoch of the Paleogene Period in the Cenozoic Era. The Eocene spans the time from the end of the Palaeocene Epoch to the beginning of the Oligocene Epoch. The start of the Eocene is marked by the emergence of the first modern mammals. The end is set at a major extinction event called Grande Coupure (the "Great Break" ), which may be related to the impact of one or more large bolides in Siberia and in what is now Chesapeake Bay.

The temperature gradient from equator to pole was only half that of today's, and deep ocean currents were exceptionally warm. The polar regions were much warmer than today, perhaps as mild as the modern-day Pacific Northwest; temperate forests extended right to the poles, while rainy tropical climates extended as far north as 45°. The difference was greatest in the temperate latitudes; the climate in the tropics however, was probably similar to today's. The recent discovery of a giant snake in Colombia that may have lived during the Eocene suggests, on the contrary, that the tropics were much warmer than today, a conclusion in accord with numerical simulations of the climate during the Eocene.

Earth's surface temperatures generally rose from the late Palaeocene through the Early Eocene, reaching maximum Cenozoic temperatures during the Early Eocene Climatic Optimum. Superimposed on this warming were a series of "hyperthermals". These are best described as geologically brief (<200 kiloyears) events characterized by rapid warming global warming and massive carbon input to the ocean and atmosphere. The most prominent of these events was the Palaeocene-Eocene Thermal Maximum or Initial Eocene Thermal Maximum (PETM), which began at the Palaeocene-Eocene Boundary. During this episode. Earth surface temperatures rose by 5-7 °C. The PETM coincided with a major mammalian turnover on, and an extinction of many species in the deep sea.

Previous studies have suggested that the polar regions (high-latitude areas) during the Eocene were very hot—greater than 30 degrees centigrade (86 degrees Fahrenheit). However, because the sun’s rays are strongest at the Earth’s equator, tropical and subtropical areas (lower latitude) will always be at least as warm as polar areas, if not hotter. Until now, temperature data for subtropical regions were limited.

The SU and Yale research team found that average Eocene water temperature along the subtropical U.S. Gulf Coast hovered around 27 degrees centigrade (80 degrees Fahrenheit), slightly cooler than earlier studies predicted. Modern temperatures in the study area average 75 degrees Fahrenheit. Additionally, the scientists discovered that, during the Eocene, temperatures in the study area did not change more than 3 to 5 degrees centigrade across seasons, whereas today, the area’s seasonal temperatures fluctuate by 12 degrees centigrade. The new results indicate that the polar and sub-polar regions, while still very warm, could not have been quite as hot as previously suggested.

The findings are based on a chemical analysis of the growth rings of the shells of fossilized bivalve mollusks and on the organic materials trapped in the sediment packed inside the shells, which was conducted by Keating-Bitonti and her colleagues. Ivany collected the fossils from sediment layers exposed along the Tombigbee River in Alabama. The mollusks lived in a near-shore marine environment during a time when the sea level was higher and the ocean flooded much of southern Alabama. The sediments that accumulated there contain one of the richest and best-preserved fossil records in the country.

"Our study shows that previous estimates of temperatures during the early Eocene were likely overestimated, especially at higher latitudes near the poles," Keating-Bitonti says. "The study does not mean elevated atmospheric CO2 levels did not produce a greenhouse effect; the Earth was clearly hotter during the early Eocene. Our results support predictions that increasing levels of atmospheric CO2 will result in a warmer climate with less seasonality across the globe."

Source: http://www.enn.com

World War II Bombing Raids Offer New Insight Into the Effects of Aviation On Climate


ScienceDaily (July 8, 2011) — Climate researchers have turned to the Allied bombing raids of the Second World War for a unique opportunity to study the effect thousands of aircraft had on the English climate at a time when civilian aviation remained rare. The study, published in the International Journal of Climatology, reveals how civilian and military records can help assess the impact of modern aviation on the climate today.

The research, led by Prof Rob MacKenzie, now at the University of Birmingham, and Prof Roger Timmis of the Environment Agency, used historical data to investigate the levels of Aircraft Induced Cloudiness (AIC) caused by the contrails of Allied bombers flying from England to targets in Europe. The team focused their research on 1943 to 1945 after the United States Army Air force (USAAF) joined the air campaign.


"Witnesses to the huge bombing formations recall that the sky was turned white by aircraft contrails," said MacKenzie. "It was apparent to us that the Allied bombing of WW2 represented an inadvertent environmental experiment on the ability of aircraft contrails to affect the energy coming into and out of the Earth at that location."

Aircraft can affect cloudiness by creating contrails, formed when the hot, aerosol-laden, air from aircraft engines mixes with the cold air of the upper troposphere. While some contrails disappear swiftly, others form widespread cirrus clouds which intercept both the energy coming into the planet as sunshine and that leaving the planet as infrared heat.
When the USAAF joined the Allied air campaign in 1943 it led to a huge increase in the number of planes based in East Anglia, the Midlands and the West Country. Civil aviation was rare in the 1940s, so USAAF combat missions provide a strong contrast between areas with busy skies and areas with little or no flight activity.


Today air travel is growing at an annual rate of 3-5 % for passenger aircraft and 7 % for cargo flights, but quantifiable data on the impact of AIC remains rare. In September 2001 United States airspace was closed to commercial aircraft following terrorist attacks, presenting scientists with a unique moment to study the effect of aircraft contrails in normally busy sky. Results from the 9/11 studies are controversial, but now MacKenzie and his colleagues have found an opportunity to study the opposite impact of contrails on the usually empty skies of the 1940s and have found that it is indeed possible to see the effects of AIC in surface weather observations, but that the signal is weak.

The study involved painstaking retrieval of historical records, both from the Meteorological office and from the military. The importance of weather conditions to the success of bombing missions meant that the Second World War prompted some of the most intensive weather observations ever undertaken but these are not all archived electronically.

To distinguish the effect of aviation more clearly, the team focused on larger raids from the many flown between 1943 and 1945. They selected raids that involved over 1000 aircraft and that were followed by raid-free days with similar weather which might be used for comparison. The resulting top 20 raids revealed 11th May 1944 as the best case study.

The team found that on the morning of the 11th 1444 aircraft took off from airfields across south east England into a clear sky with few clouds. However, the contrails from these aircraft significantly suppressed the morning temperature increase across those areas which were heavily over flown.

"This is tantalising evidence that Second World War bombing raids can be used to help us understand processes affecting contemporary climate," concluded MacKenzie. "By looking back at a time when aviation took place almost entirely in concentrated batches for military purposes, it is easier to separate the aircraft-induced factors from all the other things that affect climate."



Source: http://www.sciencedaily.com