Biology And The Exploration Of Mars

Until recent years the origin of life and its possible occurrence elsewhere in the universe have been matters for speculation only.

The rapid growth of molecular biology since 1940 has, to be sure, made it possible to discuss life’s origins in far more precise and explicit terms than was possible earlier; and the subject entered a new experimental phase in the 1950’s with successful abiogenic synthesis of important biochemical substances in conditions simulating the presumptive environment of the primitive Earth.

But the real transformation that the subject has undergone stems from the spectacular growth of space technology in the last decade. The possibility of life’s origin and occurrence on planets other than ours is no longer limited to idle speculation: it has entered the realm of the testable, of science in the strict sense. Given the rockets now available, and especially those available by 1969, it has become fully realistic to consider plans for the biological exploration of Mars.

The study that this report seeks to interpret was initiated in June, 1964, by the Space Science Board of the National Academy of Sciences to examine this possibility. The working group comprised 36 people representing a broad spectrum of scientific interests: evolutionary biology, genetics, microbiology, biochemistry and molecular biology, animal physiology, soil chemistry, organic chemistry, planetary astronomy, geochemistry, and theoretical physics.

The participants included some with considerable prior involvement in problems of space exploration and others with none. Advice was also sought outside the group of immediate participants on the potentialities of selected analytical methods for the experimental study of extraterrestrial life and its environment. More than 30 individuals contributed in this fashion written assessments of techniques in which they were particularly well versed.

Our task was to examine the scientific foundations and merits of the proposal to undertake a biological exploration of Mars. What are the potential scientific yields? How valuable, if attained, would they be? What, in fact, is the possibility of life occurring on Mars? And of our detecting it with available and foreseeable technology? What could be achieved by further astronomical work from Earth? by Martian fly-by missions? by Martian orbiters? and Martian Landers? What payloads would we recommend for planetary missions? What timing and over-all strategy would we recommend for Martian exploration were we to consider it worthwhile at all?

In brief, the over-all purpose was to recommend to. the government, through the Academy’s Space Science Board, whether or not a biological exploration of Mars should be included in the nation’s space program over the next few decades; and, further, to outline what that program, if any, should be.

Astrobiology, Exobiology,

Full Document, NASA NTRS