Terrestrial Space Radiation and Its Biological Effects

  • Percival D. McCormack
  • Charles E. Swenberg
  • Horst Bücker

Part of the Nato ASI Series book series (NSSA, volume 154)

Table of contents

  1. Front Matter
    Pages i-x
  2. Introduction

    1. H. Bücker
      Pages 1-3
  3. Radiation Environment in Space

  4. Biological Effects of Space Radiation

    1. Heavy Ion Effects

    2. Genetic Effects

    3. Cellular Effects

      1. Stanley B. Curtis
        Pages 301-313
      2. James B. Robertson, Andreas M. Koehler, Patricia A. Weideman, Peter J. McNulty
        Pages 329-335
      3. C. Wiese, B. Bechler, G. Lorenzi, A. Cogoli
        Pages 337-343
      4. Leo F. Salter, Valda J. Kilfoil, Richard E. Paterson-Jones, Stephen J. Foster
        Pages 363-373
      5. P. K. H. Weber, H. D. Menningmann, J. M. Greenberg
        Pages 383-391
    4. Physiology Radiobiology

    5. Behavioral and Neurobiological Aspects

      1. G. Andrew Mickley, Victor Bogo, Michael R. Landauer, Paul C. Mele
        Pages 517-536
      2. Walter A. Hunt, Bernard M. Rabin, James A. Joseph, Thomas K. Dalton, Warren E. Murray Jr., Sherrie A. Stevens
        Pages 537-551
      3. J. A. Joseph, W. A. Hunt, B. M. Rabin, T. K. Dalton
        Pages 553-571
  5. Protection from Space Radiation

    1. G. Reitz, R. Facius, H. Bücker
      Pages 619-639
    2. William Atwell, E. Ralph Beever, Alva C. Hardy
      Pages 641-654
    3. G. L. Wrenn, A. J. Sims, C. S. Dyer, P. R. Truscott
      Pages 655-662
    4. John R. Letaw, Rein Silberberg, C. H. Tsao
      Pages 663-673
    5. Charles E. Swenberg
      Pages 675-695
    6. Eve Lowenstein, Janet L. Gleeson, Eric Hecht, Rachel Factor, Carl Goldfischer, Antonio Cajigas et al.
      Pages 697-706

About this book


This volume is based on the proceedings of an Advanced Study Institute (ASI) sponsored by the North Atlantic Treaty Organization (NATO) held October 1987 in Corfu, Greece. The Institute received financial support from the National Aeronautics and Space Administration, U.S.A. Armed Forces Radiobiology Research Institute, U.S.A. Department of Energy, U.S.A. Deutsche Forschungs-und Versuchanstalt fur Luft­ und Raumfahrt e.v., Kaln, Germany The advent of the shuttle era is providing fresh impetus for large space ventures such as communication centers, solar power stations, astronomical observatories, orbiting factories, and space based radar. Such ventures will rely heavily on an extensive and prolonged human presence in space doing in-orbit construction, maintenance, and opera­ tion. Among the advantages of location in space are the near zero gravity environment, commanding location, and the reception of solar energy and astronomical signals unattenuated by the atmosphere. Central to long-term manned space missions are the problems associated with the effects of exposure to ionizing radiations on humans. Manned space mis­ sions in the past have encountered relatively benign radiation environ­ ments because of their very short duration and orbit configuration. However, crew stay time of up to a year has been recently achieved by the Soviet space program; and Mars missions lasting several years are under serious consideration.


X-ray biological effects biology ionizing physiology temperature tissue

Editors and affiliations

  • Percival D. McCormack
    • 1
  • Charles E. Swenberg
    • 2
  • Horst Bücker
    • 3
  1. 1.NASA HeadquartersUSA
  2. 2.Armed Forces Radiobiology Research InstituteBethesdaUSA
  3. 3.Institute for Flight MedicineCologneWest Germany

Bibliographic information