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In the course of last quarter of century, there has been a dramatic surge of interest not only in the novel synthetic field of astrobiology but also in the epistemological and methodological grounding of life sciences in a wider, cosmological context. Clearly, such philosophy of astrobiology should connect both with traditional disciplines of philosophy of physics (notably cosmology) and philosophy of biology and with what is happening in the foundations of life sciences and origin of life studies. This is a tall order by any standard and it is unlikely that we can make anything but an outline of the first small steps in the desired direction at the moment. However, it is also a challenge, since such a synthesis could help both in grounding of the existing research programs in astrobiology and in provoking the emergence of entirely new, so far unconceived ones. In the present chapter, we shall consider just a speculative example of the grounds to which a minuscule segment of the emerging synthesis could lead us. While it will undoubtedly be criticized as overly speculative, it could be argued that the exercise is still justified in terms of thought-provocation and structuring of our imagination. In the spirit of Eddington’s thinking cited above: although it probably is far-fetched to imagine that dictators will be around by the time intergalactic travel is developed, it is both morally and cognitively satisfying to think, even now, of ways to thwart them.

A great advance in the nascent philosophy of astrobiology has been introduced by the work of the Israeli philosopher of biology Iris Fry, who in several papers and an excellent book, The Emergence of Life on Earth, elaborated a key principle for the scientific study of the origin of life, or abiogenesis. This principle she calls the continuity thesis ([3.28], p. 389):

This common element, which I will coin “the continuity thesis”, is the assumption that there is no unbridgeable gap between inorganic matter and living systems, and that under suitable physical conditions the emergence of life is highly probable [given enough time]. It is the adoption of the “continuity thesis”, concerning the philosophical dimension of life-matter relationship, which has turned the origin of life into a legitimate scientific question, and which constitutes a necessary condition for any scientific research in this domain.

In essence, the continuity thesis encompasses almost all modern approaches to the origin of life (including those postulating the origin of life elsewhere and its transport to Earth via some form of panspermia— which is crucial for our discussion here). Its substance is evocatively summed up in the title of Chapter 13 of her book: “Neither by chance nor by design”. Fry persuasively argues that the continuity thesis is the only meaningful way to proceed if one wishes to remain in the scientific domain; both the “lucky accident” naturalistic account of abiogenesis and supernaturalistic design lead us into the same blind alley. In other words, Fry’s thesis offers a much needed middle way beyond the simplistic binary extreme of “life as a miracle” (as famously argued by Jacques Monod) or “life as a cosmic imperative” (his great rival and fellow Nobel laureate Christian de Duve).² This essential epistemological point cannot be overstated.

In [3.13], I have elaborated the case for extending the continuity thesis to the origin of intelligence (or noogenesis) and other major evolutionary transitions, or “crucial steps” in overall cosmic evolution. In particular, I suggest an extended continuity thesis, which brings the reasoning of Fry to its logical conclusion, namely, that there are no unbridgeable gaps between simple life and a complex one and between complex life and an intelligent one (possibly also between biological intelligent life and a postbiological intelligent one). Whenever and wherever physical, chemical, geophysical, ecological, etc., conditions are suitable, the emergence of complex life is highly probable—and ditto for intelligent life. This is not particularly new either. John B. S. Haldane, among others, suggested that cultural evolution is an extension of biological evolution (e.g., [3.34]). Of course, he was aware of the seeming disparity of the relevant timescales; the solution is to “zoom-out” sufficiently and seek macro-trends. Hence, the Haldanian insistence on observing evolutionary phenomena “in the fullness of time”, which is followed here (cf. [3.1]). An alternative approach is to encompass all timescales into what has been called “Big History” (e.g., [3.38]).

We are witnessing a great expansion of astrobiological research since publication of Fry’s book and much of it has either explicitly or, much more often, implicitly made use of the continuity thesis. Most interesting consequences and ramifications of it have not, however, been explored in the existing literature. The same could be said for most of other issues in the epistemological and methodological groundings of astrobiology and many of its constituent fields. It is important to emphasize this key point from the outset: there is a large amount of foundational work to be done on this subject. Considering the fact that astrobiology continues to progress in big strides a full quarter century after the “Big Bang” of extrasolar planets’ discoveries in 1995, and rather modest amount of work on epistemology and methodology of astrobiology, addressing some foundational tasks seems to recede rather than getting closer. As I shall try to show, there is important philosophical input into specific research issues which will motivate expansion of further work; the contingency thesis is just a particular example of this underlying phenomenon. By necessity, the treatment here will be laconic and sketchy, while the detailed discussion will be postponed to a future study.

That said, the rest of this chapter is organized as follows. Section 3.2 discusses versions of the continuity thesis and briefly speculates on the sources of resistance it encounters in various contexts which need not be necessarily be connected with astrobiology. The concept of chronocentrism is highlighted, representing a key underlying source of confusion, bias, and short-sightedness in considering the entire astrobiological landscape. A particular interesting consequence of an extended continuity thesis, related to the concept of directed panspermia, is considered in Section 3.3. Some ramifications for both astrobiology and SETI studies, as well as the futures studies, are outlined in the concluding section.