Brian Aldiss
HELLICONIA
Helliconia Spring / Helliconia Summer / Helliconia Winter
Science Fiction Masterworks Volume 80
Map
INTRODUCTION
The premise of Helliconia can be set out in a sentence, but it takes hundreds of pages to understand fully what it means. The planet Helliconia is locked into an orbit around two stars that gives it a ‘great year’ equivalent to 2,592 of ours. The three volumes making up the trilogy — originally published as Helliconia Spring (1982), Helliconia Summer (1983), and Helliconia Winter (1985) — chart this cycle. As the planet warms, the human-like inhabitants gain ascendancy over the savage phagors, but this pattern is reversed as the great year turns back to winter.
Helliconia is not the last science fiction work by Brian Aldiss — he has had 25 years of productive writing since it was published — but it’s easy to see it as a capstone for his work. It certainly embodies ideas he was working out in earlier books like Non-Stop (1958) and Hothouse (1962). They were concerned with how humanity discovers, or fails to discover, its place in a universe shaped by forces out of its control. In those books, knowledge of the true situation isn’t especially consoling, but there’s still great value attached to applying rationality to the world.
Helliconia marks something new in Aldiss’ work in the detail of its invention and the rigour with which the setting is presented. In a book like Hothouse, the flora and fauna of the garish future are described with a kind of joyous abandon. In Helliconia, there’s still the same fascination with how the world works, but a more rigorous sense of how the ecosystem fits together. Aldiss acknowledges many scientists who helped him put together the picture of Helliconia: not least is James Lovelock, whose Gaia Hypothesis proposes that the elements of the Earth’s ecosystem interact far more intricately than we might think. Helliconia’s ecosystem is certainly elaborate, and the relationships within that system — between humans and phagors, say — are gradually revealed through the story.
In his history of SF, Billion Year Spree (1973), Aldiss talks at length about his admiration for writers of the scientific romance such as H. G. Wells and Olaf Stapledon. They too valued empirical investigation even as they warned about its limits and dangers. The scientific romance tends to use the viewpoint of a detached observer rather than a participant in the events described — think of the traveller in The Time Machine or the disembodied narrator of Star Maker. Yet Aldiss has always been interested too in individual humans and their struggles. In Helliconia, the detached viewpoint is provided by the Earth space station Avernus, orbiting Helliconia and relaying its events back to our solar system. But what occupies the bulk of these books is the story of people like Yuli or Luterin and their efforts to fight for or preserve what seems most precious to them.
A couple of things can be picked out from this vast tapestry. The first, as I suggested above, is the idea of struggle. Helliconia is the very opposite of an abstract book because it’s so rooted in personal stories. There’s always the sense that what’s most valuable about human society is potentially at risk and needs to be fought for. The second is self-knowledge. It’s always significant in Aldiss’ work when someone knows, or becomes aware of, their place in the universe. So the dialogue between science and religion, as for instance between the king and CaraBansity in Chapter II of Helliconia Summer, is especially important. The third is how images of cyclical change recur throughout the work, from the quotations by Lucretius that start the first and third books to the waves climbing and retreating from the shore at the start of the second.
Helliconia is so rich with invention that I could easily spend ten times as long as this introduction discussing it. One final image, though, is how often the human story we’re shown argues against the environment it’s in. At the very end of the sequence, Luterin feels ‘exhilaration’ even though the vast winter is closing in; so even though the wind smothers his shouts, we know that spring will come again.
Graham Sleight
PREFACE
A publisher friend was trying to persuade me to produce a book I did not greatly wish to write. Trying to get out of it, I wrote him a letter suggesting something slightly different. What I had in mind was a planet much like Earth, but with a longer year. I wanted no truck with our puny 365 days.
‘Let’s say this planet is called Helliconia,’ I wrote, on the spur of the moment.
The word was out. Helliconia! And from that word grew this book.
Science of recent years has become full of amazing concepts. Rivalling SF! We are now conversant with furious processes very distant from our solar system in both time and space. Cosmologists, talking of some new development, will often say, ‘It sounds like science fiction.’ A perfectly just remark, reflecting as it does the relationship that exists between science fiction and science.
This relationship is not capable of precise definition, since science permeates our lives, and both scientists and writers are wayward people. It is a shifting relationship. What is clear is that science fiction functions in predictive or descriptive mode. It can attempt either to stay ahead of science, to foresee future developments or discontinuities; or it can dramatise newly achieved developments, making the bare (and, to some, arid) facts of science accessible to a wide readership.
An example of the former method (the ‘Wait and See’ method) is Gregory Benford’s novel, Timescape, in which he talks of the intricacies of time in a way which has only recently entered discussion by the scientific community.
An example of the latter method (the ‘Digestive Tract’ method) is H. G. Wells’ The Time Machine, in which he demonstrates, as it were, the possibility of solar death — a startlingly new idea when Wells wrote.
In Helliconia, the Digestive Tract method is employed. In 1979, while this book was a mere building site, its foundations open to the alien sky, James Lovelock published a small book entitled Gaia: A New Look at Life on Earth. The name Gaia was suggested by Lovelock’s friend (I might even claim him as a friend of mine) William Golding, the novelist. The classical Gaia was the goddess of the Earth in Greek mythology; Lovelock was outlining an impersonal updated version of that gubernatory personage. Lovelock pointed out that the continued survival of a living Earth is miraculous. Life survives despite an amazingly narrow range of chemical and physical parameters — parameters subject to fluctuation.
How is it that the Earth’s temperature has not long ago increased, as has happened on ‘our sister planet’ Venus; that the salinity of the oceans has not become more toxic than the Dead Sea; that atmospheric oxygen has not become tied down in oxides, or that hydrogen has not escaped from the upper atmosphere? Lovelock’s answer, known as the Gaia Hypothesis, is that everything on the earth, the biomass, constitutes a single self-regulatory entity — living, of course, but of course without conscious intention. Gaia has no particular centre, no prime minister or parliament, no Führer; not even a Greek goddess; it functions through its unfocused complexity, built up over millions of years. The implication is that the work of bacterial and other forces has built, and maintains, the living world we know, best to suit themselves — a process in which humanity has played small part.