Together with Idan Tuval, I have been recently working on a Viewpoint for Physics, about an interesting recent PRL publication by Greta Quaranta, Marie-Eve Aubin Tam and Daniel Tam, from the University of Delft. They proved that flagellar synchronisation in Chlamydomonas depends on the presence of striated fibres joining the basal bodies of the two flagella. Apparenly, synchronisation of flagella from different cells or from the same cell can be based on completely different mechanisms! This is a really nice work, which opens a lot of new questions…
Matteo’s first paper as just been accepted in Physical Review Letters!
The paper concerns the following problem: which forces determine the motion of microorganisms through heterogeneous media (think e.g. soil or bottom sediments in lakes or coastal areas)? Current theories are divided in two groups, those that consider this to be mainly a microhydrodynamics problem, and those which do not consider fluid dynamics at all and treat it as a contact interaction problem. So: which one is right? For microorganisms pushing themselves from the back, recent work has shown that the interaction is fundamentally hydrodynamic. Matteo has now shown that for organisms with front-mounted flagella, instead, the situation is much more complex and both fluid-mediated interactions and direct contact have to be taken into account. The paper is not out yet, but you can already read a draft version in the arXiv.
Update: the paper has been published! Check it out here!