[Plasticity of stastocyst inertial mass in terraneous gastropods helix lucorum and pomatias rivulare in altering gravitational field (microgravity, hypergravity)].
Copyright policy )[Plasticity of stastocyst inertial mass in terraneous gastropods helix lucorum and pomatias rivulare in altering gravitational field (microgravity, hypergravity)].
Light and scanning electron microscopy was used to study the morphological parameters and ultrastructure of Helix lucorum statocysts and statoliths in Pomatias rivulare statocysts after 56, 93 and 110-day exposure to microgravity aboard the ISS. Increased gravity was simulated by 30-d centrifugation at 6 g. On the first day of recovery, many statoconia and statoliths were found to carry numerous warts. Moreover, statoconia grew in number significantly as compared with the ground control. On the contrary centrifugation caused massive destruction of statoconia. In a month after orbital flight and centrifugation morphology of both statoconia and stastoliths was nearly normal. These results evidence, that the gravitational field is an important factor for the abiotic medium responsible for building up the inertial mass in the equilibrium organ of animals.
Male, Weightlessness, Gastropoda, Centrifugation, Hypergravity, Space Flight, Adaptation, Physiological, Otolithic Membrane, Microscopy, Electron, Scanning, Animals, Female, Microscopy, Phase-Contrast, Space Simulation
Male, Weightlessness, Gastropoda, Centrifugation, Hypergravity, Space Flight, Adaptation, Physiological, Otolithic Membrane, Microscopy, Electron, Scanning, Animals, Female, Microscopy, Phase-Contrast, Space Simulation
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