(Image Caption: Brandeis University Professor Ricardo Godoy Conducts The Experiment In A Village In The

4 new elements added to the periodic table

The seventh row of the Periodic Table of Elements is now complete, rendering all textbooks out of date. The discovered elements don’t have permanent names yet, but their atomic numbers are 113, 115, 117 and 118.

Livermore Lab scientists and international collaborators have officially discovered three of the four new elements: 115, 117 and 118. The illustration above is of 117, tentatively named ununseptium or Uus.

The new elements’ existence was confirmed by further experiments that reproduced them — however briefly. Element 113, for instance, exists for less than a thousandth of a second.

Learn more about the new elements

The Blue Lava of Kawah Ijen Volcano. The ‘blue lavas’ are a rare phenomenon, only visible on the Kawah Ijen Volcano, in Indonesia. It may look like the volcano is spewing blue lava, but in fact, the shocking blue fire occurs when the volcanic sulphuric gases combust. Emerging from cracks in the volcano’s side, these gases ignite when coming into contact with air. It’s not actual blue lava, but blue flames. (video)

The race to map the human body — one cell at a time

The first time molecular biologist Greg Hannon flew through a tumour, he was astonished — and inspired. Using a virtual-reality model, Hannon and his colleagues at the University of Cambridge, UK, flew in and out of blood vessels, took stock of infiltrating immune cells and hatched an idea for an unprecedented tumour atlas.

“Holy crap!” he recalls thinking. “This is going to be just amazing.”

On 10 February, the London-based charity Cancer Research UK announced that Hannon’s team of molecular biologists, astronomers and game designers would receive up to £20 million (US$25 million) over the next five years to develop its interactive virtual-reality map of breast cancers. The tumour that Hannon flew through was a mock-up, but the real models will include data on the expression of thousands of genes and dozens of proteins in each cell of a tumour. The hope is that this spatial and functional detail could reveal more about the factors that influence a tumour’s response to treatment.

The project is just one of a string that aims to build a new generation of cell atlases: maps of organs or tumours that describe location and make-up of each cell in painstaking detail.

Quote from #JaneGoodall primatologist and anthropologist. More quotes like this to inspire you in my new journal I Love Science, in stores March but ready for preorder now! #womeninscience #ilovescience #anthropology #scientificliteracy

Are colour-changing octopuses really colourblind? 

Cephalopods, including octopuses and squid, have some of the most incredible colour-changing abilities in nature. 

They can almost instantly blend in with their surroundings to evade predators or lay in wait, and put on colourful displays to attract mates or dazzle potential prey.

This is impressive enough on its own, but becomes even more amazing when you discover these creatures are in fact colourblind – they only have one type of light receptor in their eyes, meaning they can only see in black and white.

So how do they know what colours to change to at all?

This has puzzled biologists for decades but a father/son team of scientists from the University of California, Berkeley, and Harvard University think the unusual shape of their pupils holds the key, and they can see colour after all.

Cephalopods have wide U-shaped or dumbbell-shaped pupils, which allow light into the lens from many directions.

When light enters the pupils in human eyes it gets focused on one spot, cutting down on blur from the light being split into its constituent colours.

The scientists believe cephalopod eyes work the opposite way – the wide pupils split the light up and then individual colours can be focused on the retina by changing the depth of the eyeball and moving the pupil around.  

The price for this is blurry vision, but it does mean they could make out colours in a unique way to any other animals.

Processing colour this way is more computationally intensive than other types of colour vision and likely requires a lot of brainpower, which might explain in part why cephalopods are the most intelligent invertebrates on Earth.

Read the paper

Images:  Roy Caldwell, Klaus Stiefel, Alexander Stubbs

Blood is red, urine is yellow, and faeces are brown. Why? Chemistry*!  *Disclaimer: shout-outs to biology and physics too.

Collective memory in bacteria

Individual bacterial cells have short memories. But groups of bacteria can develop a collective memory that can increase their tolerance to stress. This has been demonstrated experimentally for the first time in a study by Eawag and ETH Zurich scientists published in PNAS.

Roland Mathis, Martin Ackermann. Response of single bacterial cells to stress gives rise to complex history dependence at the population level. PNAS, March 7, 2016 DOI: 10.1073/pnas.1511509113

Experimental set-up with the bacterium Caulobacter crescentus in microfluidic chips: each chip comprises eight channels, with a bacterial population growing in each channel. The bacteria are attached to the glass surface by an adhesive stalk. When the bacterial cells divide, one of the two daughter cells remains in the channel, while the other is washed out. Using time-lapse microscopy, bacterial cell-division cycles and survival probabilities can thus be reconstructed. Credit: Stephanie Stutz

For #WorldBeeDay, here’s a look at the chemistry behind the honey some bees produce: https://ift.tt/2GV5qtq https://ift.tt/2LJpsIe

Meet the all-female team of coders that brought us Apollo 11.

In 1969, the world watched as Neil Armstrong marked his historic achievement with the words, “That’s one small step for man, one giant leap for mankind.” His now-famous transmission was heard around the globe thanks to NASA’s Deep Space Network, which made communication from outer space possible.

That network was built by a woman named Susan Finley. She was part of an all-female team of coders whose work was integral to the success of the Apollo 11 mission. Science writer Nathalia Holt brings us their stories in her book, Rise of the Rocket Girls: The Women Who Propelled Us from Missiles to the Moon to Mars.

Listen to their story here.

[Images via NASA]