Diatom Gliding Motility. Группа авторов

Diatom Gliding Motility - Группа авторов


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How do the diatoms get to the water surface?

       • Why do the diatoms not sink immediately and how long do the diatoms remain on the water surface?

       • Can the diatoms survive on the water surface for a long time?

       • Which movement patterns and interactions between the diatoms occur and how can they be explained?

       • Do diatoms have an advantage from their ability to float and to move on the water surface?

      It is anticipated that there will probably be no valid answers for all species, because the differences are considerable, especially with respect to their motility. The best observations to be interpreted are available in Nitzschia sigmoidea. For this reason, these are to be presented first. This is followed by comments on Pinnularia.

      According to current knowledge, a buoyancy of the diatoms due to a lower specific weight than water can be excluded. The cultures were repeatedly carried a few meters to the microscopes for examination. In many cultures, one could observe that diatoms were whirled up and sedimented slowly. Apparently, even small water flows cause Nitzschia sigmoidea to detach from the substrate and to accumulate in the water. It can be assumed that diatoms also reach the water surface. As the diatoms obviously do not sink again, but show a remarkable floatability, they accumulate on the water surface. Further observations are required to substantiate this mechanism.

Photo depicts Nitzschia sigmoidea on the water surface viewed with PlasDIC. Photo depicts Nitzschia sigmoidea with a stereomicroscope in oblique view. Schematic illustration of a Nitzschia sigmoidea on the water surface seen from the horizontal direction.

      Nitzschia sigmoidea can survive many days on the water surface. This is probably made possible by the high proportion of wetted surface. The rapid increase of diatoms on the water surface and the sometimes high density of floating diatoms compared to benthic living diatoms suggest that they reproduce asexually on the water surface.

      There is an attractive interaction between hydrophobic bodies on the water surface. When floating hydrophobic bodies move towards each other due to this force, energy is released into the environment. The system strives for a state of minimal energy. Lycopodium spores scattered on a water surface, for example, bond together and form two-dimensional structures with local order. In this process, restructuring takes place in which contacts are broken up and are closed at other locations until a local minimum of energy and thus a stable equilibrium is reached. The global minimum will only be reached in the case of very few particles. Wang et al. [1.33] report on the formation of regular structures at Coscinodiscus sp. on the surface of a water droplet. This self-assembled monolayer is a consequence of the short-range attractive interaction between the hydrophobic frustules.


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