A new paper is looking at some different bones. So they were uncovering these remains. And this student identified one of the bones as a primate femur. It's just the shaft, so it doesn't have either end attached to it. An other researchers, i think part of this team, identified an olna, which is an arm bone. Then a couple of years later, this expedition, these researchers in chad found another armbone. The fever shaft and these two arm bones that were found between two thousand one and two thousand three, but they have not been properly or fully described until now.
In this episode:
00:45 How adding pores helps water carry gas
Although water is an excellent solvent, it’s limited in its ability to dissolve gasses. To overcome this a team have developed ‘porous water’ containing tiny cages that can hold large numbers of gas molecules. The team suggest that this technology could have multiple medical applications, including in the development of artificial blood.
Research article: Erdosy et al.
News and Views: Suspended pores boost gas solubility in water
11:35 Research Highlights
Synthetic ‘nerves’ help mice to walk, and planets orbiting a star that’s due to go supernova.
Research Highlight: Stretchy synthetic nerve helps mice give ball a mighty kick
Research Highlight: A massive planet circles a huge star doomed to explode
14:16 When did hominins get on their feet?
One of humanity's defining characteristics is our ability to walk on two legs. However, when this ability evolved remains a mystery. A paper out this week suggests that the species Sahelanthropus tchadensis was walking on two legs seven million years ago – but others dispute these findings. We hear about the research and the debate surrounding it.
News: Seven-million-year-old femur suggests ancient human relative walked upright
Research article: Daver et al.
News and Views: Standing up for the earliest bipedal hominins
21:45 Briefing Chat
We discuss some highlights from the Nature Briefing. This time, modelling an enormous, extinct megalodon shark, and a potential way to break down ‘forever chemicals’.
The Guardian: Ancient megalodon shark could eat a whale in a few bites, research suggests
Nature News: How to destroy ‘forever chemicals’: cheap method breaks down PFAS
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