To quote the American cartoonist Gary Larson: all things play a role in nature, even the lowly worm—but perhaps never in such a visually stunning way as that presented in two papers published today in the open access journals GigaScience and PLOS ONE. The work and data presented here provide the first-ever comparative study of earthworm morphology and anatomy using a 3D non-invasive imaging technique called micro-computed tomography (or microCT), which digitizes worm structures. This opens the possibility of scanning millions of specimens from museum collections, including extinct species, all of which is important given that the earthworm is both a benefit and a bane to ecosystems.

The metronome seems such a simple thing, just a machine that goes tick tick, and you then play in time with it. So, why is it that beginner musicians often have so much difficulty keeping in time with it? And why is it that humans find it hard to play like a metronome, why doesn't that come natural to us?

Many musicians and entire musical cultures with a wonderful sense of rhythm don't use a metronome at all. Yet many western musicians spend hours every day with the tool. Do we need it, does it help - and if so what's the best way to work with a metronome? And what about ways of working on rhythm without using a metronome at all?

Organisms inherit their mitochondria – the cell’s “power plants” – from their mothers, but what happens to all the father’s mitochondria?

Why and how are paternal mitochondria prevented from getting passed on to their offspring after fertilization? Just the randomness of evolution or is there a reason the phenomenon has been conserved?

"Subatomic particles act in quantum ways—they have a wave-like nature—and so can atoms, and so can whole molecules since they're collections of atoms," Schwab says. "So the question then is: Can you make bigger and bigger objects behave in these weird wave-like ways? Why not? Right now we're just trying to figure out where the boundary of quantum physics is," says Keith Schwab, Professor of Applied Physics at Caltech. 

And that means finding a way to make measurements that go beyond the limits of quantum physics.

Researchers have shown for the first time in an animal that is more closely related to humans that it is possible to make new bone from stem-cell-like induced pluripotent stem cells (iPSCs) made from an individual animal's own skin cells. The study in monkeys reported in the Cell Press journal Cell Reports on May 15th also shows that there is some risk that those iPSCs could seed tumors, but that unfortunate outcome appears to be less likely than studies in immune-compromised mice would suggest.

Jupiter's trademark Great Red Spot — a swirling storm feature larger than Earth — is shrinking. This downsizing, which is changing the shape of the spot from an oval into a circle, has been known about since the 1930s, but now these striking new NASA/ESA Hubble Space Telescope images capture the spot at a smaller size than ever before.

Jupiter's Great Red Spot is a churning anticyclonic [1]. It shows up in images of the giant planet as a conspicuous deep red eye embedded in swirling layers of pale yellow, orange and white. Winds inside this Jovian storm rage at immense speeds, reaching several hundreds of kilometres per hour.

An article in the feminist, scientific, peer-reviewed journal Psychology of Women Quarterly says that when women in developing countries own land, they are less likely to experience violence.

Psychologists Shelly Grabe, Rose Grace Grose and Anjali Dutt analyzed anecdotes Grabe cataloged by speaking with 492 women in Nicaragua and Tanzania in 2007 and 2009 respectively. 

Grabe wanted to show that the power dynamic between men and women changes when women own land and that gender-based violence against women drops with property ownership.  

"Women in both countries connected owning property to increased power and status within their communities and to having greater control within their relationships," the authors write.

Zinc is essential for optimal plant growth and development but when high levels of the metal are present in the soil, it can become toxic to the plant. Consequently, plants need to trigger mechanisms capable of coping with that stress. Researchers from the Instituto Gulbenkian de Ciência (IGC) have now discovered a novel genetic mechanism that protects plants from toxic zinc levels. The research team, led by Paula Duque, identified a gene that produces a protein capable of sequestering zinc inside the cells of the root. In the presence of high levels of zinc, this gene undergoes a special processing which ensures more production of the protecting protein.

While American adults lead the world in science literacy, and America leads the world in science output and Nobel prizes, American students are only middle of the pack when it comes to international standardized tests.

Is science creativity, teaching how to think, disconnected from scores on standardized tests? It would seem so, but every time standardized tests are given, entrenched constituencies in education say education is broken but they can fix it.

Where did the earliest Americans come from? 

Speculation has pointed to Eastern Asia, Western Asia, Japan, Beringia and even Europe. Differences in cranial form between today's Native Americans and the earliest known Paleoamericans have lent credence to all possibilities but the analysis of a nearly complete Paleoamerican skeleton with Native American DNA that dates close to the time that people first entered the New World may have some answers to part of the puzzle.