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The deep seafloor covers around 70% of our planet’s surface and is home to a diverse community of microorganisms, mostly bacteria. These single-cell life forms inhabit some of the most extreme places in the world, with freezing waters, permanent darkness, high pressure and little food. ERC grantee Antje Boetius studies these microbes in the abyss and their important role for the Earth’s nutrient cycles.
Applied theatre tells a story not for the purposes of entertainment but for social, economic, political or therapeutic reasons. Prof. Matthias Warstat, funded by the ERC, wants to know more about the growth and impact of this form of theatre across the world.
“The internet of things” is said to be the next big frontier for technology firms. A variety of small devices are always on and always connected. These devices permeate our lives at an ever increasing rate, bringing with them a demand for new and innovative mobile energy sources. One of the most promising candidates is thermoelectric power; a technology that would allow us to harvest one of the most ubiquitous energy sources available to us, our body heat.
Prof. Ian Thomas Baldwin received an ERC Advanced Grant to study the internal circadian clock of plants. In particular, he wants to understand the ecological consequences of plants fallings ‘out of synch’. In this interview, Prof. Baldwin shares some of his research findings and explains why he has chosen to make his study results openly available.
Ethiopia has the most ancient tradition of written culture in sub-Saharan Africa. Until today old monasteries and churches, scattered all over the country, hold thousands of precious manuscripts. Yet, for most part, these cultural treasures are stored in precarious conditions. Prof. Denis Nosnitsin intends to preserve and study this rich heritage that soon could be lost forever.
Sponges seem an unlikely source for innovation, yet they may hold the key to new nanotechnologies, innovative optical devices and new ways of regrowing human bone and preventing bone disease. Difficult to believe? Not for Werner E.G. Müller. In the BIOSILICA project, he and his team are developing ways to adapt the complex processes that natural glassy sponges use to build their wondrous biosilica structures for use in biodegradable implants that would facilitate bone healing after surgery or fractures.
The ‘Gothic’ architectural style, which flourished during the high- and late-medieval periods, from the 12th to 16th centuries AD, gave Europe some of its greatest cathedrals, minsters and churches as well as an architectural treasure house of palaces, town halls and guild buildings among others. Importantly, the soaring open spaces conceived and constructed by the architects of the period were only made possible by the innovative ways of designing and constructing ambitious vaulted ceilings. How did those medieval builders go about designing these huge complex monuments? And in an era without computers and design software, how did they set down their visions and transmit them in usable form to the master builders and masons who created them?