Páginas

domingo, 31 de agosto de 2014

Aumento do consumo mundial de carvão preocupa especialistas

GEORGE FREY/GETTY IMAGES/AFP
O carvão já representa mais de 30% do consumo total de combustíveis a nível mundial, a mais elevada percentagem desde 1970, indica a última edição anual da BP Statistical Review of World Energy.

O responsável da petrolífera lembrou que na Organização para a Cooperação e Desenvolvimento Económicos (OCDE), que representa os chamados países desenvolvidos, "as emissões de carbono por unidade de energia caíram em 2013 devido ao peso crescente dos combustíveis não fósseis".

Pelo contrário, nos chamados mercados emergentes - que iniciaram a fase mais intensa do processo de industrialização em 2002 -, "o peso crescente dos combustíveis não fósseis foi compensado pelo aumento do carvão e pelo declínio do gás natural".

Toda a notícia Público de 4/7/14

sábado, 30 de agosto de 2014

48 anos- Mensagem de agradecimento


Venho por meio desta postagem musical agradecer a todos os que se lembraram do meu aniversário. Os que ligaram, os que apareceram e os que enviaram mensagens - muito obrigado!

quinta-feira, 28 de agosto de 2014

Conheça a família alemã que vive há mais de 3 anos completamente sem dinheiro

Fonte: Jornal  Ciência

A família já causou polêmica por ter adotado um estilo de vida diferenciado, chamando a atenção na Europa. A ideia veio do alemão Raphael Fellmer, de 29 anos. Ele propôs um sistema de vida completamente fora dos padrões consumistas da sociedade e sua família aceitou. Eles vivem sem dinheiro e comem apenas alimentos encontrados em sacolas de lixões de supermercados. 


A família, composta por sua esposa e um filho, vive através do sistema de troca, ou seja, a residência alugada é fornecida por um proprietário que, ao invés de receber dinheiro, permite que o valor seja convertido em serviços domésticos como a jardinagem e reparos gerais, visto que eles moram no porão da casa. Eles afirmam que o único dinheiro necessário é para pagar contas como água e luz, impossíveis de negociar com as fornecedoras. 

Raphael comentou ainda que dinheiro só é usado em casos de extrema necessidade, e ele citou apenas um único evento que foi quando sua esposa estava grávida e ele foi obrigado a pagar um plano pré-natal para o acompanhamento da gestação. Ao contrário do que muita gente pensa, ele não tem nenhuma dificuldade financeira, por ter nascido em uma família alemã de classe média alta. 

Formado em Estudos Europeus, Raphael percebeu através de consciência social que existem coisas mais importantes que o dinheiro e é possível viver sem ele. Ele comentou ainda que o dinheiro é, nada mais do que uma invenção do homem e que esse sistema pode entrar em colapso a qualquer momento. Raphael afirma ter adotado esse jeito novo de ver a vida para proteger sua família caso o mundo entre em “fúria” por problemas no sistema financeiro global. 

A ideia original veio após ter feito uma viagem com vários amigos para o México sem gastar nenhum centavo. Eles trocavam mão de obra em serviços gerais de navios para conseguir o transporte, além de pegar caronas em caminhões nas estradas. Quando voltou para a Alemanha, a experiência mudou radicalmente sua vida e o conceito do que é fundamental para a vida humana. 

Os alimentos são sempre colhidos em caçambas de lixo, de preferência orgânicos. Na Alemanha, vários mercados do país vendem vegetais orgânicos e a tendência do consumo é só aumentar. Como as pessoas, geralmente, preferem frutas e legumes sempre de boa aparência, os supermercados acabam jogando fora aqueles com pequenos “machucados”. 

De acordo com dados da Organização de Alimentos e Agricultura das Nações Unidas, mais de 30% de todo o alimento global produzido é jogado fora. Na Europa, o novo estilo de vida está ganhando força e mais adeptos.

quarta-feira, 27 de agosto de 2014

Natural History is Dying and We Are All the Losers

By Jennifer Frazer on June 20, 2014
(artigo do Scientific American muito bom, a ler até ao fim)

A few weeks ago, I came across a new paper in BioScience called “Natural History’s Place in Science and Society” that contained the following graph.

The minimum number of natural history–related courses required for a BS degree in biology in US institutions (the bars; the median is indicated within each bar) and the proportion of introductory biology texts devoted to natural history–related material (the circles, right axis; see the supplemental material). The error bars represent the (positive) standard error of the mean.

On the right axis and indicated by the line surrounded by dots is the proportion of introductory biology texts devoted to natural history since 1935.

The left axis and the bars show the minimum number of natural history-related courses required for a BS degree in biology in US colleges and universities since 1955. The median number is indicated in writing inside the bar. You’ll note that since 1995, the median number of courses has been zero. Zilch. Zip.

In other words, the people society depends on to know the most about life — people with college biology degrees — in nearly all cases have no obligation to learn anything about actual living organisms. To me, this is a shocking dereliction.

My Story
As a child, I had access to something that few children do today: nature. I remember roaming the big yard and woods around our rural Tennessee home solo at four, five, six years old.

That quiet time wandering, listening, and looking among the loblolly pines and playing in the red dirt planted a love in me of nature that didn’t germinate until years later. It wasn’t until late high school, in fact, that I realized I loved biology and wanted to be a biologist (incredibly, in middle school and early high school I thought I wanted to be a lawyer).

But within two years of arriving at college, I knew two things. 1) I loved biology with all my heart. 2) I could never be a biologist. The thought of interminable hours spent in a windowless room staring at tubes of clear liquids and working on one tiny slice of molecular biology to the exclusion of all other intellectual curiosities depressed me beyond belief. I wanted to be a generalist — to study lots of different kinds of things. It got so bad I felt physically ill every time it was time to go into the lab where I was doing my independent research. And yet I had no desire to change my major. I LOVED biology.

In oceanography my freshman year of college, we studied ocean currents, salinity, and the ecology of plankton. We studied vague notions of food webs and nutrient cycling rather than learning what dinoflagellates or copepods were. The chapters on the diversity of life in the ocean? We skipped those. But those were the ones I wanted to read most.
Fonte: Scientific American

I lovedd the classes especially that taught me about the diversity of life, that took me out into the field to see it up close, that let me watch it moving and wiggling under the microscope, that let me dissect animals or flowers to see how they worked, that taught me about their evolution and the history of life on Earth. But no biologist did that stuff any more — at least not for the major part of their time. What they did, I found, was sit in an office staring at a computer screen writing grant applications and papers or creating computer models of their organisms or studying molecular biology. Occasionally, they went to meetings or mentored students or taught a class. That was *not* the bill of goods I felt I’d been sold on what biology was — and what it meant to be a biologist — as a chi

A life as a biologist would, ironically, prevent me from learning about life — or, at least, the spectrum of life that I wanted to learn about — and sharing it with the public. And so I became a science writer (albeit with career prospects arguably even worse than those of a scientist), and when the time was right I founded this blog dedicated to natural history and biodiversity.

There are other reasons I did not become a professor, but the lack of ability to be a natural history generalist was one of them. In another age, in another time (and assuming I’d been born a man), I might perhaps become a professor of natural history, a generalist who taught students biology and natural history, perhaps specialized in one or two extremely large groups of organisms (plants, fungi, etc.), wrote popular articles for the public, and wrote scientific papers about this or that interesting thing I’d noticed in the field. But by my time, those days had gone. That was no longer an option. And the reason for that is another story. 

The Unfashionable Science
Just what is natural history? One thing that has not helped it, perhaps, is that name. The term is beautiful but also old-fashioned and a bit puzzling. I know what nature is. I know what history is. So is natural history the story of life on Earth? That’s part of it, but the term is meant more broadly. When the phrase was coined, history meant something more like “description”, according to mammologist David Schmidly, and so you could view natural history as a description of nature, and naturalists those who describe it, ask questions about the creatures’ origin, evolution, behavior, anatomy and relationships using science. Vague “ecology” and unwieldy “organismal biology” encompass much the same thing, but lack the romance of the older term. Naturalists are interested in organisms and groups of organisms for their own sake, and not just what those organisms can tell them about higher order processes like DNA replication or genetic drift. Rather, they are more interested in what higher order theories and processes can tell them about their organism.

Aristotle was the first practitioner of this science that we know of, and some of his observations on sea creatures betray a skill for detailed observation and deduction that remains impressive today. Natural history did not flourish, however, until the 18th and 19th centuries, when Linnaeus, Darwin, and even U.S. Presidents Washington, Jefferson and Theodore Roosevelt were avid and avowed naturalists. It was a time when basic knowledge of local plants and animals was considered part of a good education — and of being a good citizen (although it should be said the fad for natural history led to some unfortunate over-collecting and braggadocio as well).

The enthusiasm encompassed schoolchildren as well. Anna Botsford Comstock, who attended and taught at my own alma mater Cornell, published a textbook in 1911 for elementary students and teachers called Handbook of Nature-Study which exploded in popular sales. Between 1890 and 1940 texts such as hers were an essential part of classrooms across America. The aim was to train teachers and facilitate direct contact between children and living organisms in order to create an “essential nature literacy“, as Robert Michael Pyle described it in Orion in 2000.

Naturalists, too, commanded respect at universities, and taught many field classes and courses dedicated to identifying and understanding the life histories and evolutionary relationships of particular groups of organisms: flowering plants, mosses, lichens, mammals, fungi, insects, invertebrates, birds, insects, fossils, birds, and so on — a host of tangible living things to which people could directly relate.

After World War II, everything changed. Pyle attributes the subsequent decline in natural history to the ascendency of the hard sciences in the era of the atom bomb and Sputnik, and to the large-scale desertion of the farm (and its surrounding forests, bogs, and streams) for the nature-impoverished city and suburbs. The fundamental and accelerating problem is the increasing distance between people — particularly biologists and children — and nature.

That most professional biologists should know so little about life outside their labs is rather shocking, when you think about it. But this process began in the 20th century. At universities, process began to trump product, and what was once an esteemed part of biology evolved into a dusty, fusty relict. The pendulum swung away from outdoor field studies toward indoors laboratory research on fundamental processes. Scientists who studied underlying processes of biology — evolution, cell biology, biochemistry, etc., — got bigger grants and better publications than those who studied the organisms themselves. Funding and grants for natural history evaporated, and with them, tenured faculty positions. Pyle recalls his own college experience: “The only young naturalist on the faculty, shortly after receiving the outstanding teaching award for his magnificent classes in field natural history, was denied tenure; the department wanted superstar lab candidates who published frequently in all the right journals. A few profs interested in complete organisms survived by being strong on theory.”
Experimental biology became too complex for generalists to succeed as scientists, while big bucks for biomedical research and genetics lured biologists from the field to the lab and pushed the focus away from complete organisms and onto cells, DNA and genes found in colorless liquids inside clear Eppendorf tubes.

“Academic naturalists” thus found themselves selected against in the cruel Darwinian tenure competition. The -ology classes they taught and their associated field trips vanished. The Departments of Zoology, Botany, etc. were replaced with Departments of Ecology and Evolutionary Biology, or Molecular and Cell Biology, or Genetics. Many universities got rid of their specimen collections, which are not only vital to studying evolution, but also, we now know, understanding and documenting global warming and climate change. Some were sent to join other collections; others were sent to the landfill.

You can see this in the graph on the left, below, from the same BioScience paper mentioned at the top of this post.

In the 1980s, more than 30 herbaria — repositories of plant and fungal specimens — were added per year. Now that number is fewer than two per year. The authors comment that the numbers are similar for similar repositories of other kinds of life. The disappearance of specimen collections makes it harder to engage local communities and submit local specimens, although it can make accessing specimens easier for biologists (everyone loves one-stop shopping).

Another consequence is that the proportion of biology PhDs with degrees in natural history-related fields has slipped steadily for 50 years, as you can see from the graph on the right (b). The unmarked line represents all biology PhD.s, the line with the solid black dot is natural-history related disciplines. Microbiology and molecular biology are the squares, biophysics and neurology the triangles, and genetics is the gray circles. As David Wilcove and Thomas Eisner (my old professor and an esteemed naturalist-entomologist-chemical ecologist) wrote in the Chronicle of Higher Education in 2000, “A knowledge of, or even an avowed interest in, natural history is no longer a prerequisite for admission to a graduate program in ecology or any other branch of biology.”
Further, exposure of students at all levels to natural history is diminishing. As we saw in the graph at the top of this post, all colleges and universities surveyed in the 1950s required at least some natural history courses for a biology degree – a median of 2.25. Today, most colleges have no natural history requirements for a biology degree, and the slim section devoted to natural history in the center of most textbooks has shrunk 40 percent and is usually skipped anyway, as I’m sure those of you with biology degrees earned in the last 20 years can attest.

As the classes vanished, so did the natural history training. Field trips and field classes disappeared, and without them, “these subjects are dead and the students who study them risk coming away with little but cold abstractions,” wrote biologist Reed Noss in a paper mourning the demise of natural history in 1996. Most biology students no longer learned to identify species, and few learned about taxonomy or systematics, much less about the diversity of life within particular groups. The vast majority would work only with a few species in their studies, “becoming specialists before they are generalists,” wrote mammalogist Michael Mares in 2002. “They are sublimely ignorant of the diversity and complexity of nature.”
The ultimate consequence was that jobs for systematists and taxonomists likewise vaporized; observing and describing became passé; “natural history” and “naturalist” perjorative. Lab research brought “prestige, glamour, and grant money — especially grant money”, Pyle says. Natural history brought quiet ridicule, or at least condescension — so much so that many young scientists would not even suggest they might be interested in organisms for their own sake. “All of us have met and heard students who, in explaining their work on some aspect of the biology of mammals, birds, or insects, say that they are not interested in mammals, birds, or insects as such but, instead, as models for studying principles,” wrote David Schmidley in a 2005 commentary. “They do not view themselves as mammalogists or herpetologists but as ecologists or evolutionary biologists — as if being a mammalogist were a badge of shame.”

A Picture of a Slug Is Not a Slug


Popular Natural History by Henry Scherren, Fellow of the Zoological Society of London, 1906. Public Domain. 





















Anna Botsford Comstock reported that teachers even in her day lacked natural history training. But today, even if a child is lucky enough to get a teacher who has a biology degree, as we just saw, that is now no guarantee the teacher will know anything about nature or natural history. As we saw above, natural history is by and large no longer taught to biology majors, much less high school students

Comstock’s book stressed the importance of kid-on-critter time. But increasingly, in the classrooms and museum exhibits that I’ve seen or visited, still images or interactive games are considered adequate substitutes. They are no

A better approach, one that Wilcove and Eisner suggest, is introducing kids to an older form of technology: microscopes. Even a simple stereo or dissecting microscope offers access to a fascinating universe of mites, springtails, and nematodes easily viewable in a bit of compost or soil, they say, and is a far more engaging experience than mindlessly flipping through photos in an exhibit or randomly pushing buttons.

Judging by a recent article in The Atlantic and by Richard Louv’s 2008 book Last Child in the Woods, my wandering outside alone at a tender age was a common childhood experience a generation ago, but it has virtually disappeared today. Some parents never seem to let their kids out of their sight no matter how old they get — they are constantly supervised and never allowed time to explore on their own.
Public schools are often no longer located close to nature, and field trips here too have gone the way of the dodo thanks to cost-cutting and liability, and over-supervised kids with helicopter parents and electronic babysitters rarely venture outside alone (even if they want to) to explore what nature is left in their suburban-sprawled backyard.

In schools, “environmental education” has often replaced natural history, with its emphasis on general structures and concepts like food webs or trophic levels. But such vague ideas are often boring and abstract. It would be hard to think of a kid or a biologist with a passionate devotion to a food web, but how many can you think of with a passion for a particular bird or dinosaur? But this kind of education — and lack of exposure to life in the field — produces kids for whom “every evergreen is a pine; all brown birds are sparrows; and if a spring chorus is to be heard at all, a frog is a frog is a frog,” as Pyle writes. Actually, I bet you’d be hard pressed to find a kid today who knows sparrows are brown — and many would not know it was a bird.

On a recent fishing trip to southeast Oklahoma, our guide related that he’d had a client who wanted to know what all the trees on the hill were that still had their leaves on in winter. In shock, my guide realized this man had no idea what a pine tree was. When the guide discovered the man worked in real estate, his interest was piqued. How could a real estate agent not know what a pine tree is? One that works in *commercial* real estate, apparently. On my old blog, I related the experience I had right out of college when I worked in a plant nursery and a man came in looking for an ostrich fern. As I sorted through the five or six fern species we had, he remarked “I never knew there were so many kinds of fern!” There are 10,000 species of fern.

When kids do not grow up around natural history, they become adults who are not only ignorant of natural history, but who do not care about nature and view it as disposable and unimportant. “Ecological ignorance breeds indifference,” as Pyle put it. “What we know, we may choose to care for. What we fail to recognize, we certainly won’t.” Few reactions to climate change irritate me more than the “disposable Earth” attitude — surprisingly common among young adults — that if we ruin Earth (for our uses, at least), no biggie. We can just go terraform Mars or something (Not an exaggeration of this attitude. See prime example here, but I have heard it elsewhere too).

To that, I just want to shout “Are you insane??! Even if that were technically possible, have you seen what a good thing we’ve got going here? Have you SEEN Mars?” And I think a large part of this attitude stems from the fact many people — especially young people — have NOT seen what we’ve got going here. They haven’t spent hours in the woods quietly rambling around, listening, smelling, tasting, and observing. They swum above a coral reef. They haven’t experienced the grandeur of open grassland. They haven’t walked through a fog-filled forest and seen the lichens and algae glow. They haven’t seen the beauty of the desert in bloom. They haven’t even looked at the magic in a drop of wild pond water under a microscope. Because guess who else hasn’t done that yet? Me. And I even own a microscope.

To love Earth, you have to fall in love with Earth. And that can’t happen indoors, eyes glued to a screen. You have to watch the bee gathering nectar from the blue bonnet; you have to smell and touch the sap (and discover it is now impossible to remove from your fingers) weeping from the tree; you have to smell the citrussy cinnamonny gym-socky aroma of the matsutake fresh from the pine duff.

What on Earth would possess anyone to suggest that it would be nothing to simply throw this all away and start again on a red, lifeless rock? Perhaps a childhood drained of natural history experience or education.

How Natural History and Sari Cloth Can Thwart Cholera
But natural history loss and apathy isn’t just bad for academic naturalists and kids. Inthe same BioScience paper that produced the graphs in this post, lead author Joshua Tewksbury and colleagues point out that it can be bad — and extremely costly — for humanity in some very practical ways.

The waterborne illness cholera has killed millions over the centuries, famously killing some travelers on the Oregon Trail within hours of the first symptoms. What was not recognized or thought to be investigated until early 1990s was what cholera was up to in the environment when it wasn’t killing humans. Cholera doesn’t exist to afflict humans. It is a wild creature — a bacterium called Vibrio cholerae — which its own fascinating life history in nature. As it turns out cholera bacteria are actually native to the sea and commonly attach themselves to copepods and other zooplankton. Using this bit of natural history, scientists can now forecast cholera outbreaks in India using satellite images of phytoplankton blooms in the Indian Ocean.

What’s more, it also led to the insight that filtering untreated water meant for drinking with tightly woven sari cloth vastly decreases the chances of getting cholera by removing the zooplankton that most of them are attached to, a very practical intervention that women in impoverished Indian households eager to improve their family’s health can take.


.

Washing Utensils And Vegetables” by Anwar Huq, University of Maryland Biotechnology Institute, Baltimore, Maryland, United States. The woman on the right is fitting a sari cloth filter to a water collecting jar. From Bradbury J: Beyond the Fire-Hazard Mentality of Medicine: The Ecology of Infectious Diseases. PLoS Biol 1/2/2003: e22. 

Sometimes our ignorance of natural history has caused us to directly act in ways that result in costly, difficult-to-undo mistakes. In the Pacific Northwest, 20th century water managers removed large logs and stumps from rivers to improve navigability and to “assist salmon migration”. It was only after hundreds of streams were so cleared that officials realized that salmon actually *need* such large woody debris during their migration. Now we must spend millions to undo our damaging handiwork, sometimes going so far as to airlift logs into streams

Perhaps the biggest and most costly natural-history related blunder of all in the United States was the policy of suppressing forest fire in the western United States. It was concocted based on strategies that worked well for wet forests in Germany and the eastern United States. But little thought was given to the natural history of dry western forests and how they might differ in their relationship to fire. As Native Americans had long known, western forests thrive on frequent small fires.

Now, 100 years of fire suppression in the west has led to over-dense forests susceptible to intense mega-blazes covering hundreds of square miles. As a result of our ignorance and arrogance, the US fire management program now costs more than $1 billion annually, and we must carefully coddle endangered species made so by the long fire drought.

What Can We Do?
There are three points I feel are important to make when considering the future of natural history.

Natural history is an important science worthy of respect and research dollars. The scientific method and natural history are not mutually exclusive. Wilcove and Eisner believe that the abandonment of natural history by universities will prove to be one of the biggest scientific mistakes of our time.

Just because biology moved on did not mean the work of natural history was over. Much still remains to do. It’s honorable work and should be exciting — the work of the Age of Discovery. Many scientists assume that all the important descriptive work has been done during that Age, but in reality, many species and groups of organisms were neglected during the 18th and 19th century, and those that were may have been described poorly or incorrectly. New biology graduate students have tended to enter popular fields without checking to see whether old fields needed further work. Many have been pushed into work on a handful of model organisms while work on other species and groups has languished. We have probably even lost ground in the last 50 years. When scientists from the previous era specializing in certain groups of organisms have died, so too has a tremendous amount of hard-earned institutional knowledge of particular groups. As a result of all these forces, even supposedly well-studied groups of animals (like jellyfish, as biologist Lisa-Anne Gershwin discussed with SA blogger Bec Crew) still have surprising gaps in our basic knowledge of their diversity. For more obscure groups, God only knows what’s out there. We don’t.

Natural history education — and simply looking, observing and exploring nature — are the birthright of all children and biologists. Failing to teach natural history and spend time in nature has serious practical consequences for individuals and for society.

So what can we do? The natural history and biodiversity gap is a major reason I started this blog five years ago to spotlight groups of organisms and aspects of natural history that I found fascinating but felt no one else wrote about. But my blog is a drop in the ocean.

Service intern Byron Hamstead helps identify stream insects (8026518273)” by U.S. Fish and Wildlife Service Southeast Region

I’ve had other ideas — perhaps we could have microscope parties (safaris?) the way astronomers so effectively use star parties to lure the science curious public to their discipline. Or maybe Botany Cocktail Night. Or an Invertebrate Sushi Party (is that too disgusting?) The bounty of good field guides available today could be the inspiration for some other game or competitive activity (perhaps combined with exercise in some sort of competitive natural history photographic scavenger hunts?) that could teach people how to use them and instill a lifelong curiosity about nature. Perhaps 19th-century style Botany Walks will never again but popular, but if so, we need to find ways to connect people and real, live organisms in socially-inviting, engaging ways
Schmidley suggests some good could come of ceasing to think of “naturalist” and “scientist” as mutually exclusive, “the supposition that one must be either an old-fashioned “-ologist” or a builder of conceptual frameworks, but not both”. He suggests an alternative — “the scientific naturalist.” “a person with a deep and broad familiarity with one or more groups of organisms or ecological communities, who can draw on his or her knowledge of systematics, distribution, life histories, behavior, and perhaps physiology and morphology to inspire ideas, evaluate hypotheses, and intelligently design research with an awareness of organisms’ special peculiarities.” I have known a scientist or two like this, but we need more
Maybe non-profit conservation or natural history organizations could endow chairs for “scientific naturalists” in biology departments with the stipulation that these positions go to those who study specific, understudied groups of organisms. Or perhaps they could create grants for work on understudied groups of organisms to inspire and fundall biologists who might not have otherwise have considered (or been able to consider) natural history a part of their research but would like to include it as part of their research portfolio. If anyone at NSF (or foreign equivalents) is reading this, I know you guys are scraping the bottom of the barrel right now with regard to research dollars, but could you spare a little more funding love for natural history work if and when your cup ever refills?

I write this to everyone reading, but especially to my core audience of natural history lovers: it is up to us. Ask yourself: how can I share my passion for natural history with others? Who in my community is already doing this kind of thing? Could I teach a class through a college or local nature association? Give a public talk or talks? Take a class to further my education? Host a regular natural history salon/party in my house à la Ben Franklin and the Enlightenment scientists? Perhaps we could collectively relax a bit and let our children have more unstructured and unsupervised playtime in nature — often the very same kind of wild free play we ourselves were afforded?

How could I get science curious friends who aren’t already passionate about biology interested? Take my kids out for a nature walk — and grab a few neighborhood kids while I’m at it? Get involved in volunteer outreach at my local natural history museum? Find the time to take *myself* for a walk in nature, field guide, magnifying glass, and binoculars in hand? I feel screen suck too … but put down the phone and go outside.

If I’m a public school teacher, how can I incorporate more natural history — and especially field trips and kid-on-critter (and not just vertebrates) time — into my curriculum? If I’m a university faculty member, how can I increase or encourage the increase the teaching of natural history and field science and its requirement for a biology degree at my institution? Noss suggests that faculty and students donate time to schools parks, or other public agencies to help develop or improve educational programs in local natural history, and that lab or office-bound scientists get back out into the field themselves and make the effort to learn the organisms that live in their own backyards.

I know there are countless obstacles to all these ideas. But think about it.

A Final Plea for the Dignity of Natural History
In saying all this, I don’t mean to impugn the role of theory and process, cell biology and genetics. Theory and process are essential. Biology hinges on evolutionary theory; it helps us understand everything we see. Natural history without appreciation of fundamental biology principles is simply an assortment of interesting facts. But theory and process are not, and cannot be everything.

Ernest Rutherford famously said “all science is either physics or stamp collecting”. No science has perhaps been a bigger victim of this attitude than natural history. But is it a waste of time to visit and appreciate the paintings in the art museum? Is it stamp collecting to study and research the works of Vermeer, or Las Meninas?

How then can we have any less respect for the appreciation and study of natural works of art? We must have balance in biology between studying the process and the fascinating, oft-unexpected, and delightful products of those processes.

“A naturalist is the person who is inexhaustibly fascinated by biological diversity and who does not view organisms merely as models, or vehicles for theory, but rather as the thing itself that excites our admiration and our desire for knowledge, understanding, and preservation,” writes David Schmidley. That is who I am. And I’m sure I’m not alone. But natural history will dwindle — and humanity will suffer accordingly — unless society prioritizes natural history research and education, and we who feel this way share our passion with others.

*******
“The current push to connect every classroom in America to the Internet demonstrates how quickly elected leaders and the public can be galvanized to address what is rightly perceived to be a critical educational need. Meanwhile, the demise of natural history goes unnoticed, increasing the likelihood that future generations of schoolchildren will spend even more time indoors, clicking away on their plastic mice, happily viewing images of the very plants and animals they could be finding in the woods, streams, and meadows they no longer visit.” — David Wilcove and Thomas Eisner, Chronicle of Higher Education, 2000

“Scientific abstractions and fancy technologies are no substitutes for the wisdom that springs from knowing the world and its creatures in intimate, loving detail. We owe it to ourselves and our students to keep opportunities for acquiring this kind of knowledge alive.” — Reed Noss, Conservation Biology, 2001.

Correction: An earlier version of this post incorrectly stated that the paper by Tewksbury et al. was published in Current Biology. It was published in BioScience,and this post has been corrected accordingly.

References and Source
Mares, M.A. 2002. A Desert Calling: Life in a Forbidding Landscape. Harvard University Press, Cambridge, Massachusetts.
Noss, R.F. 1996. The Naturalists Are Dying Off, Conservation Biology 10: 1-3

Pyle, R.M. 2001. The Rise and Fall of Natural History. Orion, Autumn 2001: 16-23.

Schmidley, D.J. 2005. What It Means To Be a Naturalist and the Future of Natural History at American Universities, Journal of Mammology 86: 449-456.

Tewksbury J.J et al, T.A.2014. Natural History’s Place in Science and Society, BioScience, DOI:10.1093/biosci/biu032

Wilcove, D.S. and Eisner, T. 2000. The Impending Extinction of Natural History,Chronicle of Higher Education 47: B24.

terça-feira, 26 de agosto de 2014

Documentário da Semana- Futuros Antigos: Aprendendo com Ladakh (1993)


"Como podemos aprender sobre soluções ecológicas com uma cultura antiga? 

Mosteiro de Ladakh

Ladakh, ou "Pequeno Tibete", é uma terra deserta belissima nos altos dos Himalaias. É um lugar de poucos recursos e dum clima extremo. No entanto, por mais de mil anos, tem sido o lar duma cultura próspera. Tradições de frugalidade e cooperação, juntamente com um conhecimento local íntimo e específico do meio ambiente, permitiu que os Ladakhis não apenas sobrevivessem, mas prosperassem. Depois, veio o desenvolvimento. Agora em Leh, a capital, encontra-se poluição, divisão, inflação, desemprego, intolerância e ganância. Séculos de equilíbrio ecológico e harmonia social estão sob ameaça devido á modernização. A desagregação da cultura e do ambiente de Ladakh obriga-nos a reexaminar o que realmente entendemos por progresso - não só nas partes do mundo em desenvolvimento, mas também no mundo industrializado. A história de Ladakh ensina-nos sobre as causas dos problemas sociais, ambientais e psicológicos, e fornece orientações valiosas para o nosso próprio futuro."

segunda-feira, 25 de agosto de 2014

Coral Reef Protection Project- "Slow Life"

Slow Life from Daniel Stoupin on Vimeo.

"Slow" marine animals show their secret life under high magnification. Corals and sponges are very mobile creatures, but their motion is only detectable at different time scales compared to ours and requires time lapses to be seen. These animals build coral reefs and play crucial roles in the biosphere, yet we know almost nothing about their daily lives. 

EDIT - answer to a common question: yes, colors are real, no digital enhancement, just white balance correction with curves. When photographers use white light on corals, they simply miss the vast majority of colors. Read more in my blog.

This clip, as well as stock footage, is available in 4k resolution. Make sure you watch it on a large screen! You won't be able to appreciate this clip or see individual cells moving in a sponge on a smartphone. If you have a full-HD screen, when you enter full-screen mode, please press on "view actual size" next to the HD icon to improve sharpness.

Learn more about what you see in my post

Música do Bioterra: Fausto e Zeca - Não Canto Porque Sonho



Esta Música foi gravada em 1973 em Madrid, para o disco "P'ró Que Der e Vier" , letra de Eugénio de Andrade, acompanhamento em voz de Zeca Afonso. Disco com produção de Adriano Correia de Oliveira.


Não canto porque sonho.
Canto porque és real.
Canto o teu olhar maduro,
teu sorriso puro,
a tua graça animal.

Canto porque sou homem.
Se não cantasse seria
mesmo bicho sadio
embriagado na alegria
da tua vinha sem vinho.

Canto porque o amor apetece.
Porque o feno amadurece
nos teus braços deslumbrados.
Porque o meu corpo estremece
ao vê-los nus e suados.

sexta-feira, 22 de agosto de 2014

Revelado o primeiro mapa global do lixo plástico nos oceanos

"Os peixes de profundidade média do Oceano Pacífico Norte ingerem, anualmente, entre 12 mil a 24 mil toneladas de plástico - o que equivale a 480 milhões de garrafas de plástico de dois litros ou ao peso de 132 baleias azuis." 

Concentrações de detritos plásticos em águas superficiais do oceano global. Os círculos coloridos indicam as concentrações de massa (número de detritos de plástico por quilómetro quadrado). As áreas cinzentas indicam as zonas de acumulação previstas por um modelo de circulação da superfície global. O cinza escuro e claro representam zonas de acumulação interna e externa, respectivamente; as áreas brancas são consideradas zonas de não acumulação. PNAS-full pdf

Há alguns anos que os cientistas apresentam dados preocupantes sobre a poluição marinha: seja a existência de partículas de plástico em áreas muito remotas do oceano, seja a descoberta de grandes acumulações de lixo. A "Grande Ilha de Lixo do Pacífico" é talvez o fenómeno mais extremo, documentado e conhecido. Mas várias "sopas de plástico" ou praias onde dão à costa toneladas de detritos têm sido alvo de investigação. A situação global dos oceanos do Planeta Terra é que era desconhecida. Até agora.

O estudo "Detritos de plástico em oceano aberto", liderado pelo biólogo marinho espanhol Andrés Cózar, mostra, pela primeira vez, a real distribuição das quantidades de lixo plástico marinho à superfície e foi publicado há menos de um mês na revista de divulgação científica Procedings, da Academia Nacional de Ciências dos Estados Unidos da América.

Foram identificadas milhões de partículas de plástico que flutuam e se acumulam à volta dos cinco grandes giros existentes nos oceanos mundiais (Atlântico Norte, Atlântico Sul, Oceano Índico, Pacífico Norte e Pacífico Sul), criados por correntes oceânicas circulares, que fazem os detritos ora concentrarem-se no seu centro ora serem expelidos e gravitarem nas zonas adjacentes.

É para estas áreas que convergem dezenas de milhares de toneladas de lixo plástico que se vai degradando e entrando na cadeia alimentar dos seres vivos marinhos, com consequências devastadoras. Estima-se que morram cerca de 1 milhão e quinhentos mil animais (de aves a peixes, tubarões, tartarugas, golfinhos e baleias) todos os anos, devido à ingestão de plástico.

Embora o mapa agora revelado mostre, pela primeira vez, a extensão do problema, os cientistas desconfiam que há muito mais plástico nos mares que aquele que foi identificado, só ainda não perceberam o que lhe acontece e quais as consequências que provoca.

"Não sabemos o que é que este plástico está a fazer. Está em algum lugar, na vida do oceano, nas profundezas, ou dividido em partículas finas indetetáveis por redes", disse Andrés Cózar à revista National Geographic (NG).

Uma das razões adiantadas por este professor na Universidade de Cádis para o facto de ter sido detectada menos concentração de partículas de plástico à superfície que a esperada - tendo em conta que a produção mundial deste material quadruplicou desde os anos 1980 - é que esses detritos minúsculos estejam a ser consumidos por pequenos peixes, que vivem na zona mesopelágica do oceano (entre os 200 e os 1.000 metros de profundidade abaixo da superfície).

Os peixes de profundidade média do Oceano Pacífico Norte ingerem, anualmente, entre 12 mil a 24 mil toneladas de plástico - o que equivale a 480 milhões de garrafas de plástico de dois litros ou ao peso de 132 baleias azuis.

Que efeito tem este plástico na vida marinha de alta profundidade é que talvez nunca se venha a saber, como desabafou Cózar à NG: "Infelizmente a acumulação de plástico no fundo do oceano vai modificar esse ecossistema enigmático antes que possamos realmente conhecê-lo".

Para construir o mapa agora revelado analisaram-se 3.070 amostras de água. Os dados foram recolhidos durante a expedição científica Malaspina 2010 (um projecto do Estado Espanhol que, durante nove meses, circumnavegou os mares do planeta, para estudar os efeitos do aquecimento global nos oceanos e a biodiversidade dos ecossistemas em águas profundas) a que se juntaram informações de outras campanhas que tinham recolhido material nas regiões polares, no Pacífico Sul e no Atlântico Norte.
Fonte: Visão

quinta-feira, 21 de agosto de 2014

Mundo desperdiça 30% dos alimentos produzidos

Mundo desperdiça 30% dos alimentos produzidos, diz FAO. Número considera todos os estágios, incluindo campo, transporte, centrais de abastecimento e supermercados.
Toda a notícia aqui

quarta-feira, 20 de agosto de 2014

Declínio dos índios nos Estados Unidos



Entre 1776 e 1887, os Estados Unidos apreenderam mais de 1,5 biliões de acres de povos nativos da América por um tratado e ordem executiva. A invasão da América mostra como durante esse período foi a regressão dos territórios índios. O mapa conclui com as actuais reservas federais indígenas. 


Between 1776 and 1887, the United States seized over 1.5 billion acres from America's indigenous people by treaty and executive order. The Invasion of America shows how by mapping every treaty and executive order during that period. It concludes with a map of present-day federal Indian reservations.

O mapa interactivo aqui

quarta-feira, 6 de agosto de 2014

Foto da explosão de Hiroshima

  • Todas as postagens sobre o sucedido em Hiroshima e Nagasaki no BioTerra
  • Ver  ainda Dossier Bioterra Não ao Nuclear



Foto da explosão de Hiroshima, patente no Hiroshima Peace Memorial Museum. Tirada pelo exercito dos EUA.
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