Tag Archives: Science

Backyard Wildlife: Hawk

photo of a hawk on my deck

Nice view out my window from my desk today. This wonderful hawk landed on my deck and I was lucky enough to have my camera right next to me. It is so nice to be able to have this view instead of a view like the IT Crowd staff have in their basement IT office.

If you let me know what type of hawk you think this is that would be great – including links to an identification page would be appreciated too. Last time people helped identify a Sharp-shinned Hawk enjoying a meal. Enjoying nature in your back yard is a wonderful thing.

Related: Backyard Wildlife: Great Spreadwing DamselflyBackyard Wildlife: FoxBackyard Wildlife: TurtleBackyard Wildlife: Birds

Vaccines Can’t Provide Miraculous Results if We Don’t Take Them

Vaccine preventable diseases used to ravage our health. In the USA, we are lucky to live in a society where those before us have taken vaccines and reduced to very low levels the attack vectors for these diseases. If nearly everyone is vaccinated for polio, even if it crops up with one person, most likely it won’t spread. As more people chose to risk the health of others in the society by failing to vaccinate, an infection can spread rapidly. There are some people who can’t be vaccinated for one reason or another (normally dangerous allergies) and vaccines, while very effective are not 100% effective. So any person that fails to vaccinate their kids endangers society and those who cannot be vaccinated.

Six Top Vaccine Myths

Myth 1: It’s not necessary to vaccinate kids against diseases that have been largely eradicated in the United States.
Reality: Although some diseases like polio and diphtheria aren’t often seen in America (in large part because of the success of the vaccination efforts), they can be quite common in other parts of the world. The Centers for Disease Control and Prevention warns that travelers can unknowingly bring these diseases into the United States, and if we were not protected by vaccinations, these diseases could quickly spread throughout the population. At the same time, the relatively few cases currently in the U.S. could very quickly become tens or hundreds of thousands of cases without the protection we get from vaccines. Brown warns that these diseases haven’t disappeared, “they are merely smoldering under the surface.”

Most parents do follow government recommendations: U.S. national immunization rates are high, ranging from 85 percent to 93 percent, depending on the vaccine, according to the CDC.

See the 2010 Child & Adolescent Immunization Schedules from the CDC and protect your children and society. The suffering caused by preventable diseases like polio and small pox was huge. We should not delude ourselves into thinking that those diseases are not dangerous. They are. We have been protected by all those taking vaccines. If people in the society don’t take vaccines that increases the health risks to the society at large.

Routine smallpox vaccination among the American public stopped in 1972 after the disease was eradicated in the United States. The United States government has enough vaccine to vaccinate every person in the United States in the event of a smallpox emergency (mainly due to concerns about bio-terrorism).

U.S. Adults Dying of Preventable Diseases

Diseases easily preventable by adult vaccines kill more Americans each year than car wrecks, breast cancer, or AIDS.

“We have a chronic disease epidemic in the U.S. It is taxing our families and taxing our economy,” the CDC’s Anne Schuchat, MD, said at the news conference. “We have a need for culture change in America. We worry about things when they are really bad rather than focusing on prevention, which can keep us out of the hospital and keep our families thriving.”

In other parts of the world the danger is not from those who chose not to vaccinate their children but those who are not provided the opportunity to.

Bill Gates’ war on disease, poverty is an uphill battle
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Parasites in the Gut Help Develop a Healthy Immune System

It has long been known that microbes in the gut help to develop a healthy immune system, hence the rise in popularity of probiotic yoghurts that encourage ‘friendly’ bacteria. But new research by Professors Richard Grencis and Ian Roberts shows that larger organisms such as parasitic worms are also essential in maintaining our bodily ‘ecosystem’. “The worms have been with us throughout our evolution and their presence, along with bacteria, in the ecosystem of the gut is important in the development of a functional immune system.”

Parasite Rex is a great book, I have written about previously looking at parasites and their affect on human health.

Professor Grencis adds: “If you look at the incidence of parasitic worm infection and compare it to the incidence of auto-immune disease and allergy, where the body’s immune system over-reacts and causes damage, they have little overlap. Clean places in the West, where parasites are eradicated, see problems caused by overactive immune systems. In the developing world, there is more parasitic worm infection but less auto-immune and allergic problems.

“We are not suggesting that people deliberately infect themselves with parasitic worms but we are saying that these larger pathogens make things that help our immune system. We have evolved with both the bugs and the worms and there are consequences of that interaction, so they are important to the development of our immune system.”

Whipworm, also known as Trichuris, is a very common type of parasitic worm and infects many species of animals including millions of humans. It has also been with us and animals throughout evolution. The parasites live in the large intestine, the very site containing the bulk of the intestinal bacteria.

Heavy infections of whipworm can cause bloody diarrhoea, with long-standing blood loss leading to iron-deficiency anaemia, and even rectal prolapse. But light infections have relatively few symptoms.
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Students Will Spend Year Doing Career-Changing Research Thanks to HHMI

This year, 116 medical, dental, and veterinary students from 47 schools across the country will take a break from memorizing molecular metabolism and studying drug interactions to spend a year in a lab doing hands-on research. The break from regular coursework, funded through a $4 million Howard Hughes Medical Institute (HHMI) initiative, is intended to give students an opportunity to immerse themselves in science and consider whether they want to pursue a career as a physician-scientist.

Nearly 500 medical students applied for the research year through the HHMI-National Institutes of Health (NIH) Medical Research Scholars and HHMI Medical Research Fellows programs. Both efforts seek to strengthen and expand the pool of medically-trained researchers. The funding HHMI provides is a great resource.

“We want medical, dental, and veterinary students to become immersed in the life of academic science for at least a year. And we hope they get so engaged in the process and life of scientific research that they will decide to continue it for the rest of their lives,” says Peter Bruns, HHMI’s vice president for grants and special programs. “We need more doctors who do basic research to improve human health.”

As part of its commitment to fostering the translation of basic research discoveries into improved diagnoses and treatments, HHMI has developed a range of programs to nurture the careers of researchers who bridge the gap between clinical medicine and basic science. In addition to the programs for medical students, the Institute supports medical training for Ph.D. students in the basic sciences and has made specific efforts to fund top physician-scientists as HHMI investigators.

The medical research scholars and fellows programs are open to medical, dental, and veterinary students enrolled in U.S. schools. Most have completed the second or third year of their professional program when they spend a year working in a lab either at the NIH or at an academic medical center or research university they select. During the last 25 years, more than 2,100 students have participated.

The HHMI Medical Research Fellowships program allows medical, dental, and veterinary students to pursue biomedical research at a laboratory anywhere in the United States except the NIH campus in Bethesda. Each student submits a research plan to work in a specific lab with a mentor they have identified. Since 1989, about 1,200 students have participated.

This year, 74 students from 26 medical schools and two veterinary schools were chosen as fellows from a pool of 274. While most students elect to stay at their home institution to do their research, this year 17 fellows will work in labs at a different school. Their research topics include schizophrenia, wound healing, organ development, and many other important biological questions.

The HHMI-NIH Research Scholars program was established in 1985 to encourage medical students to pursue research by allowing them to take a year off from their medical studies. The program has since been expanded to include dental and veterinary students. It has enabled about 1,000 students to work in NIH labs.

Students selected as research scholars often enter the program with only a general idea of what type of research they would like to do. As soon as they are accepted, they begin researching the more than 1,100 laboratories at NIH. They meet with a number potential mentors before finalizing which project to pursue under the guidance of their NIH advisor and HHMI’s staff. The students are sometimes called “cloister scholars” because they live in apartments or dorm-style rooms in a refurbished cloister on the NIH campus in Bethesda.

This year, 42 students from 28 medical schools and one veterinary school were chosen as research scholars. More than 200 students from 93 schools applied.

Related: Directory of Science and Engineering Scholarships and Fellowships$600 Million for Basic Biomedical ResearchHHMI Expands Support of Postdoctoral ScientistsGenomics Course For College Freshman Supported by HHMI at 12 Universities

All present-day Life on Earth Has A Single Ancestor

All present-day life arose from a single ancestor

All life on Earth shares a single common ancestor, a new statistical analysis confirms.

Because microorganisms of different species often swap genes, some scientists have proposed that multiple primordial life forms could have tossed their genetic material into life’s mix, creating a web, rather than a tree of life.

A universal common ancestor is at least 102,860 times more probable than having multiple ancestors, Theobald calculates.

For his analysis, Theobald selected 23 proteins that are found across the taxonomic spectrum but have structures that differ from one species to another. He looked at those proteins in 12 species – four each from the bacterial, archaeal and eukaryotic domains of life.

Then he performed computer simulations to evaluate how likely various evolutionary scenarios were to produce the observed array of proteins. Theobald found that scenarios featuring a universal common ancestor won hands down against even the best-performing multi-ancestor models.

Very interesting. Surprising too. As the article points out this doesn’t mean all life ever on Earth evolved from the single ancestor – life that has gone extinct could be from outside this single “tree.”

Related: Viruses and What is LifeEvolution is Fundamental to ScienceBacteria “Feed” on Earth’s Ocean-Bottom Crust

Variation in Human DNA

Variation on the order of thousands to hundreds of thousands of DNA’s smallest pieces – large swaths varying in length or location or even showing up in reverse order – appeared 4,205 times in a comparison of DNA from just four people.

Those structural differences popped into clear view through computer analysis of more than 500 linear feet of DNA molecules analyzed by the powerful genome mapping system developed over nearly two decades by David C. Schwartz, professor of chemistry and genetics at UW-Madison.

“We probably have the most comprehensive view of the human genome ever,” Schwartz says. “And the variation we’re seeing in the human genome is something we’ve known was there and important for many years, but we haven’t been able to fully study it.”

To get a better picture of those structural variations, Schwartz and his team developed the Optical Mapping System, a wholly new type of genome analysis that directly examines millions of individual DNA molecules.

“Our newer genome analysis systems, if commercialized, promise genome analysis in one hour, at under $1,000,” Schwartz says. “And we require that high speed and low cost to power the new field of personal genomics.”

Read full press release

Related: New Understanding of Human DNAOpossum Genome Shows ‘Junk’ DNA is Not JunkBacteria Can Transfer Genes to Other BacteriaScientists crack 40-year-old DNA puzzle

Whales Evolved in the Blink of an Eye, Only 5 Million Years

Whales Evolved in the Blink of an Eye

Whales’ sizes stretch the imagination from the 100-foot (30-meter) long blue whale – the largest animal to have ever existed – to a small species about the size of a dog.

Around 35 million years ago, when modern whales began to appear in the ocean, whale evolution ignited. Whales began as basically similar body types and evolved into everything from porpoises to blue whales over the next 5 million years, said study lead author Graham Slater of UCLA. “Five million years is like the blink of an eye,” Slater told LiveScience.

The finding supports what’s known as the explosive radiation hypothesis. The idea is that a few key traits allowed the earliest ancestors of modern cetaceans – marine mammals, including whales, dolphins and porpoises – to explore new ways of living. Once these ancestors branched out into a new body form, they stayed the course.

The key traits credited with the explosive evolution include sonar, large brains, baleen (the stringy looking stuff across some whales’ mouths that filters small animals from sea water), and complex sociality.

Related: Your Inner FishWhat Dogs Reveal About EvolutionSimple Webcasts on Evolution and GenesTracking Narwhals in Greenland

Mycoremediation and its Applications In Oil Spills

The webcast shows a talk by mycologist Paul Stamets on Bioremediation with Fungi (an Excerpt from Mushrooms as Planetary Healers). In response he to the British Petroleum/Halliburton oil spill he posted a message, Fungi Perfecti: the petroleum problem

Various enzymes (from mushroom mycoremediation) breakdown a wide assortment of hydrocarbon toxins.
..
My work with Battelle Laboratories, in collaboration with their scientists, resulted in TAH’s (Total Aromatic Hydrocarbons) in diesel contaminated soil to be reduced from 10,000 ppm to < 200 ppm in 16 weeks from a 25% inoculation rate of oyster (Pleurotus ostreatus) mycelium, allowing the remediated soil to be approved for use as landscaping soil along highways. [paper]

Aged mycelium from oyster mushrooms (Pleurotus ostreatus) mixed in with ‘compost’ made from woodchips and yard waste (50:50 by volume) resulted in far better degradation of hydrocarbons than oyster mushroom mycelium or compost alone.

Oyster mushrooms producing on oil contaminated soil (1–2% = 10,000–20,000 ppm)… Soil toxicity reduced in 16 weeks to less than ~ 200 ppm, allowing for plants, worms and other species to inhabit whereas control piles remained toxic to plants and worms.

New crop of mushrooms form several weeks later [after contaminating with oil]. The spores released by these mushrooms have the potential – as a epigenetic response – to pre-select new strains more adaptive to this oil-saturated substrate.

I proposed in 1994 that we have Mycological Response Teams (MRTs) in place to react to catastrophic events, from hurricanes to oil spills. We need to preposition composting and mycoremediation centers adjacent to population centers

On a grand scale, I envision that we, as a people, develop a common myco-ecology of consciousness and address these common goals through the use of mycelium. To do so means we need to spread awareness and information. Please spread the word of mycelium.

Related: Saving the World with Science and MushroomsFun FungiThinking Slime Moulds

Essentials of Genetics Website Reference

Scitable is a science library and personal learning tool on genetics developed by Nature. I must admit I am against the closed science stance Nature normally supports. But this is a good effort on their part at actually talking advantage of the internet to openly promote science. I imagine Nature will eventually more and more move toward supporting open science.

The website has a library of over 200 faculty-written, peer-reviewed articles on core concepts in genetics, plus a video-based online primer called Essentials of Genetics, glossaries, spotlights on key issues, and lots more high quality faculty and student resources.

Scitable is a great place to research and learn more about genetics topics such as diseases, evolution, genetics and society.

Related: Gene Duplication and EvolutionDNA Passed to Descendants Changed by Your LifeAnger at Anti-Open Access Press Strategy