Astrophysical Ionizing Radiation and the Earth: A Brief Review and Census of Intermittent Intense Sources

Cosmic radiation backgrounds are a constraint on life, and their distribution will affect the Galactic Habitable Zone. Life on Earth has developed in the context of these backgrounds, and characterizing event rates will elaborate the important influences. This in turn can be a base for comparison with other potential life-bearing planets. In this review we estimate the intensities and rates of occurrence of many kinds of strong radiation bursts by astrophysical entities ranging from gamma-ray bursts at cosmological distances to the Sun itself. Many of these present potential hazards to the biosphere: on timescales long compared with human history, the probability of an event intense enough to disrupt life on the land surface or in the oceans becomes large. We enumerate the known sources of radiation and characterize their intensities at the Earth and rates or upper limits on these quantities. When possible, we estimate a "lethal interval", our best estimate of how often a major extinction-level event is probable given the current state of knowledge; we base these estimates on computed or expected depletion of stratospheric ozone. In general, moderate level events are dominated by the Sun, but the far more severe infrequent events are probably dominated by gamma-ray bursts and supernovae. We note for the first time that so-called "short-hard" gamma-ray bursts are a substantial threat, comparable in magnitude to supernovae and greater than that of the higher-luminosity long bursts considered in most past work. Given their precursors, short bursts may come with little or no warning.Comment: to be published in Astrobiolog

Use of fission product nuclear data in life sciences

From meeting on fission product nuclear data; Bologna, Italy (26 Nov 1973). Applications of fission product nuclear data and data on the fission process in uranium and transuranic elements are required for radiation protection of personnel and the general population for the following situations: to determine the toxicity to exposed individuals from externally located isotopes in the environment or in the fuel cycle; to determine the toxicity caused by deposition of radioactive materials in living systems; to estimate the radiation dose to patients during medical application of injected radioisotopes for diagnostic or therapeutic means; during the use of sealed sources for implantation in living tissue (brachytherapy); during the use of sealed sources at a distance from the patient for therapeutic purposes (teletherapy); to determine the environmental pathways for uncontrolled release of radioactive materials into biosphere; and for personnel protection during the applications of radioisotopes in medicine, biology, agriculture, and industry, including gamma ray and neutron radiography. It was concluded that available nuclear data are adequate for these purposes. (CH