An effect of weightlessness following exposure to vibration

Life Sci Space Res. 1970:8:25-32.

Abstract

Vibration of germinating wheat seedlings at the levels experienced during the launch of the NASA Biosatellite II increases the frequency of developmental arrest in seedling organs. Severe vibrations lasted approximately 30 sec in two stages. Power spectral density was greatest at frequencies around 15-16 and 19-22 Hz on the entire vehicle. Vibration forces reaching the affected parts of individual seedlings could not be measured. One or more seedling organs may be expected to be absent in 11% of selected Earth-grown wheat plants. If subjected to simulated launch vibration between 12 and 27 hr after the start of germination, the number of abnormal plants rises to 21.6%. Lateral roots are most affected by vibration at this age. Seedlings which went into orbital weightlessness aboard Biosatellite II, or were grown for several days on a horizontal clinostat after vibration, showed only 5.3% abnormalities. Simulated weightlessness on the clinostat without prior vibration did not alter the number of abnormal plants. It is suggested that growth in weightlessness following exposure to vibration permits more extensive repair of injury produced by vibration than does growth in Earth's gravity.

Publication types

  • Research Support, U.S. Gov't, Non-P.H.S.

MeSH terms

  • Acceleration
  • Cotyledon / growth & development
  • Gravitation
  • Plant Roots / growth & development
  • Rotation
  • Space Flight*
  • Triticum / growth & development*
  • Vibration*
  • Weightlessness Simulation*
  • Weightlessness*