Introduction
Traveling to the center of the Earth would involve a downward trip of about 4,000 miles that would cut through the Earth’s crust and its mostly solid, rocky mantle into a liquid core of iron alloy, then end at a solid inner core of iron and nickel. Pressure and temperature would rise with increasing depth, and temperatures would reach about 10,300 degrees Fahrenheit at the Earth’s center—hardly a climate that many geo-tourists would enjoy! Much of this knowledge about the geophysical structure of the Earth was acquired in the course of the twentieth century, long after Jules Verne published
Journey to the Center of the Earth.
In 1864, when the book appeared, different hypotheses about the nature of the Earth competed with each other. Even then, though, in light of any of the contemporary scientific theories, a journey to the Earth’s core belonged to the realm of the fantastic. Why then did Verne, who was intensely interested in the science and technology of his day, choose this idea as the founding assumption of what was to become one of his most famous novels? And why is this journey undertaken not by a dreamer or a madman, but by a hard-core scientist, a professor of mineralogy and geology who is thoroughly familiar with the scientific debates of his time?
For a reader who first encounters
Journey to the Center of the Earth
at the beginning of the twenty-first century, the enthusiasm of Professor Otto Lidenbrock, his nephew Axel, and even Lidenbrock’s goddaughter Graüben for mineralogical specimens and geological theories may seem nothing short of eccentric. After Alfred Wegener’s theory of continental drift—originally proposed in the 1920s—had been generally accepted in the 1960s, geology disappeared from public awareness as a science that could bring about exciting new discoveries and theories. But in the middle of the nineteenth century, geology was a brand-new branch of knowledge rife with the opposing theories and opinions of some of the best minds of the day. Far from being an arcane branch of scientific knowledge of mostly academic interest, it touched upon the most basic questions of the origin of life and human beings and the nature of the very soil they walk upon. Not just scholars but public and religious authorities believed they had a vital stake in the outcome of geological controversies.
As a scientific discipline, geology had in fact only come into being in the first half of the nineteenth century. Before that, mineralogists had been just about the only scientists to study the inanimate environment, conducting their investigation of the Earth most frequently in the context of French and German mining schools. Their study consisted of a mix of natural philosophy, theology, and the beginnings of empirical observation, without the benefit of an established academic framework. Abraham Gottlob Werner, a German professor at the Mining School of Freiberg in the late eighteenth century, combined the study of rock formations with the biblical account of Genesis. The Scottish naturalist, chemist, and geologist James Hutton opposed Werner’s theories and grounded his own account of the development of the Earth on observable processes and on the principle of unifbrmitarianism—that is, the idea that the processes that had gone into the shaping of the Earth over immensely long periods of time had not fundamentally changed and could still account for geological development. Hutton’s work was followed by that of Scottish geologist Charles Lyell, whose classic book
Principles of Geology,
published in 1830, laid down the foundations of a new, empirically based science of the Earth.
But the Earth is so vast and all-encompassing that it often appeared complicated to infer its general operating principles from the processes observable in one particular place. Indeed, huge areas of geology—the 70 percent of the Earth’s surface that is under water, as well as its interior—are simply inaccessible to direct human observation. (Lyell once joked that an amphibious observer who could inhabit both land and sea would be a more suitable geologist than a human being.) For these reasons, divergent theories about the nature of the Earth continued to rage throughout the nineteenth century. While some scholars argued that the interior of the Earth had to be mostly liquid, with the solid ground a mere thin crust not unlike ice on lake water, others replied that on mathematical grounds the Earth could not be anything but for the most part solid. The age of the Earth was similarly subject to vastly divergent estimations, and this issue became part of the violent controversy over Darwin’s theory of evolution in the 1850s and 1860s. Biological evolution occurs over immense periods of time, and in general, the development of the physical structure of the Earth over hundreds of thousands or even millions of years contradicts creationist accounts of a much shorter time span for the origins of the Earth.
In Verne’s day, therefore, geological theories about the origin and gradual shaping of the Earth, along with biological insights into the evolution of life, were what genetic engineering and nanotechnology are for us today: innovative and exciting areas of scientific research that have a profound bearing on the way we think about our own identity and experience our everyday lives. Verne’s familiarity with these debates shows up in every chapter of
Journey to the Center of the Earth,
which abounds in references to the leading scientific minds of his day, from naturalists and geologists such as Georges Cuvier to explorers such as Alexander von Humboldt and archaeologists such as Jacques Boucher de Perthes. Caught up in the evolving plot, a contemporary reader’s attention might easily slide over such references unawares. But their presence is the equivalent of mentions of James Watson and Francis Crick, Stephen Hawking, or Bill Gates in a novel written today.
Verne’s editor, Pierre-Jules Hetzel, claimed in a preface he wrote in 1866—just two years after the first publication of
Journey to the Center of the Earth—
that Verne’s novels were finally making a place for science in the domain of literature, and that Verne would eventually present all the knowledge of geography, geology, physics, and astronomy that modern science had accumulated. Verne himself once remarked to the French novelist Alexandre Dumas père, “Just as you are the great chronicler of history, I shall become the chronicler of geography.” It is not hard to see why an integration of scientific knowledge with compelling literary characters and plots would have proved an attractive mix both to the audience of Verne’s own day and those of subsequent periods: It combines the heady excitement of techno-scientific innovation with the pleasures of narrative storytelling and the free flight of the imagination.
This combination of science and fantasy may explain why Verne did not stick with the serious scientific theories of his day, but included marginal and controversial notions, too, such as that of a hollow Earth. English astronomer Edmund Halley proposed the idea that the Earth is hollow in the late seventeenth century. Swiss mathematician Leonhard Euler pursued the theory in the eighteenth century, as did Americans John Cleves Symmes and Jeremiah Reynolds and Scottish mathematician Sir John Leslie in the nineteenth century. (Axel alludes to Symmes in chapter XXIX, mistakenly identifying him as English rather than American.) Such theories influenced not only Verne, but also other writers and were sporadically revived until the early twentieth century. Edgar Allan Poe’s “Manuscript Found in a Bottle” and
Narrative of Arthur Gordon Pym
and Edgar Rice Burroughs’s At the
Earth’s Core
and
Pellucidar
are other examples. Yet by the time Verne published
Journey to the Center of the Earth
in 1864, hollow-Earth theories, while not entirely disproved, were not a central topic of debate among leading scientists.
Verne, famous for his extensive and meticulous note taking, was surely not unaware of this fact; what led him to use the idea of a hollow Earth as the foundation for his novel was no doubt the way in which the notion allowed him to tie scientific exploration into some of the oldest and most significant motifs of the Western literary tradition. On the surface, the plot of
Journey to the Center of the Earth
seems relatively straightforward: Lidenbrock and his nephew by sheer coincidence discover an ancient cryptogram that points to the bottom of an Icelandic volcano as the entryway to a passage that will eventually lead to the Earth’s core. Axel prefers the safety of life above ground and is reluctant to leave his fiancee, the professor’s goddaughter Graüben, but Lidenbrock becomes obsessed with the idea of retracing the steps of his illustrious predecessor, the sixteenth-century Icelandic scholar Arne Saknussemm, [...] to the center of the Earth. Lidenbrock, Axel, and their Icelandic guide Hans penetrate deep beneath the Earth’s crust, where they discover an alternative world of plants, animals, and even human beings that have long gone extinct on the surface, and return to ground level through another volcano. Although this plot may at first appear to be quite linear, it derives much of its narrative force from the way in which it invokes some of the founding stories of Western culture: the quest narrative, the descent to the underworld, and the initiatory voyage.
Professor Otto Lidenbrock is without any doubt a prime example of a hero on a quest so urgent that no one and nothing can stop it. His obstinacy in reaching the center of the Earth in spite of seemingly insurmountable obstacles puts him in the company of other literary figures whom we remember principally because of their overriding obsession with a single project: Jules Verne’s own Captain Nemo from
Twenty Thousand Leagues under the Sea
and Phileas Fogg from
Around the World in Eighty Days
provide the most obvious parallels, but one is also reminded of Captain Ahab, the protagonist of Herman Melville’s
Moby-Dick.
While these may well be more complex characters, Lidenbrock shares with them their stubborn single-mindedness, their iron determination, and the reckless imposition of their will on others who have no desire to take part in the pursuit but are dragged along regardless. Even seen through Axel’s reluctant eyes, however, Uncle Lidenbrock remains likable: His personal foibles, which Axel dwells on with a mix of gentle malice and affection, make him a more human figure than Nemo or Ahab, and the novel leaves us in no doubt that Lidenbrock is genuinely attached to his nephew and his ward Graüben—though his concern for them will never in the end deter him from his quest for knowledge.
While there is no doubt something cliched about this portrait of the fierce scientist with the warm heart under his crust of social brusqueness, it is Lidenbrock’s enthusiasm and determination in the pursuit of science that gives the novel much of its propulsive energy (as literary critics have pointed out, his temper is compared to volcanic eruptions and electric discharges long before his expedition actually encounters these phenomena in their literal shape). Yet it is curious that Lidenbrock’s scientific obsession is not presented as a quest for genuine innovation and original discovery, but rather as the repetition of a project that was already executed by someone else centuries earlier. The discovery of sixteenth-century scholar Arne Saknussemm’s manuscript certainly strikes a familiar note, as ancient books or maps and lost manuscripts written in secret codes play a crucial role in many nineteenth- and twentieth-century adventure romances. But here, the discovery turns the journey into the realm of the unknown into a simultaneous quest for the traces left by the historic predecessor; the search for the new combines with an attempt to reconnect with the past. These two time vectors in Lidenbrock’s voyage point to two quite different conceptions of history: on one hand, the idea of progress and its association with the increase of scientific knowledge, and on the other hand, the idea of a heroic past in which great men accomplished tasks that are difficult to repeat for ordinary individuals of the modern age. The ultimate outcome of Lidenbrock’s quest should be seen in light of this tension between different perspectives on the relationship of modern society to its past and future.
But whatever the philosophical implications of the professor’s expedition into the unknown may be, the reader’s attraction to following the journey lies above all in the abundance of physical detail that Verne provides. Whether the expedition’s goal is reached or not soon seems less important than the marvelous details that unfold before the travelers’ eyes. As the famous science-fiction writer Isaac Asimov has shrewdly noted, the scientific implausibility of humans penetrating deep into the Earth’s mantle despite increasing heat and pressure is compensated by Verne’s emphasis on precise details. From the meticulous attention paid to the tools and instruments the expedition requires to the narrator’s lovingly detailed descriptions of the physical features of each geological layer they encounter, Verne’s writing bewitches the reader with its insistence on the wonders of sheer materiality. He writes of the ingenuity of Ruhmkorff lamps with as much devotion as he describes the colored striations of marble in underground tunnels and the festive scintillations of light falling on thousands of bits of crystal and quartz embedded in walls and vaults of rock. Of course, this intense physical presence of nature is not always inviting for the characters: Steep vertical slopes, regions without a drop of water, heat, fierce storms, and darkness so absolute as to be almost palpable endanger the travelers, just as the primeval magnificence of the subterranean landscapes delights them. But whether it is splendid or menacing, the physicality of the environment in Verne’s novel holds the reader spellbound.
At the same time, Verne associates the materiality of the Earth with symbolic and metaphoric dimensions that may be quite familiar to the reader. Some of the most influential texts of the Western cultural tradition, from Homer’s
Odyssey
and Virgil’s
Aeneid
to Dante’s
Divine Comedy,
prominently feature the protagonist’s descent into the underworld, the realm of the dead, as an important part of his social and spiritual development. Usually, the point of this voyage to the underworld is to confront deceased individuals whom he used to know: parents, lovers, friends, or public figures from his own era, whose manner of death and afterlife are significant for his own course of life and contribute to a deeper understanding of his past and present. In
Journey to the Center of the Earth,
this confrontation with death and desolation starts long before the protagonists descend into the crater of the Snaefells volcano; fully a third of the novel is taken up with the description of their journey toward and across Iceland. This part of the trip takes the expedition through a magnificently portrayed wasteland of cold, solitude, and poverty where plants, animals, and humans are barely able to survive and shadowy lepers scurry away at the travelers’ approach. The impoverished Icelanders, portrayed as almost congenitally prone to silence and stolid acceptance of extreme adversity, sometimes seem to form part of an all-encompassing landscape of rock, ice, and steam more than of human society as we usually conceive it. All of these elements already suggest that the protagonists have entered a netherworld that will confront them with the bare essentials of their own existence.