I am proud of the work of our team on the flight of the smallest beetles, published in the third issue of @Nature this year. nature.com/articles/s4158… 1/9
@Nature 2/9. This is a study of the flight of one of the smallest insects, comparable in size to unicellular organisms
@Nature 3/9. We showed earlier that the smallest beetles have extraordinary flight characteristics. But how is this excellent performance achieved? pnas.org/content/117/40…
@Nature 4/9. We made the first recordings of the flight of featherwing beetles 6 years ago. But we could not discern any details in those recordings
@Nature 5/9. To obtain records that could be used in our work, we had to design a special setup for recording the free flight of microinsects
@Nature 6/9. And now we work with synchronous macro video recordings of free flight from multiple projections
@Nature 7/9. Our experiments combine 3D reconstructions of morphology, kinematics and aerodynamic in one of the smallest insects, the beetle Paratuposa placentis (body length 395 μm).
@Nature 8/9. We show that this performance results from the reduced wing mass and a previously unknown type of wing motion cycle.
@Nature 9/9. And finally, a small video clip about our expedition to Vietnam to study the flight of microinsects, the results of which formed the basis of this article.
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