“And they’ve recovered bodies from wrecks in the Great Lakes that look absolutely fresh after decades—you can still see the expressions of surprise on the sailors’ faces!

  “So,” continued Bradley, “the first requirement is that the corpse be in a sealed environment, where marine organisms can’t get at it. That’s what happened here; these people were trapped when they tried to find a way out—poor devils, they must have been lost in first-class territory! They’d broken the lock on the other door of the suite—but couldn’t open the other before the water reached them. . . .

  “But there’s more to it than cold, stagnant water—and this is the really fascinating part of the story. Have you ever heard of bog people?”

  “No,” said Parkinson.

  “Neither had I, until yesterday. But from time to time Danish archaeologists keep finding almost perfectly preserved corpses—victims of sacrifices, apparently—more than a thousand years old. Every wrinkle, every hair intact—they look like incredibly detailed sculptures. The reason? They were buried in peat bogs, and the tannin protected them from decay. Remember the boots and shoes found scattered around the wreck—all the leather untouched?”

  Parkinson was no fool, though he sometimes pretended to be a character out of P. G. Wodehouse; it took him only seconds to make the connection.

  “Tannin? But how? Of course—the tea chests!”

  “Exactly; several of them had been breached by the impact. But our chemists say tannin may be only part of the story. The ship had been newly painted, of course—so the water samples we’ve analyzed show considerable amounts of arsenic and lead. A mighty unhealthy environment for any bacteria.”

  “I’m sure that’s the answer,” said Parkinson. “What an extraordinary twist of fate! That tea did a lot better than anyone ever imagined—or could imagine. . . . And I’m afraid G.G. has brought us some very bad luck. Just when things were going smoothly.”

  Bradley knew exactly what he meant. To the old charge of desecrating a historic shrine had now been added that of grave robbing. And, by a strange paradox, an apparently fresh grave at that.

  The long-forgotten Thomas Conlin, Patrick Dooley, Martin Gallagher, and their three as-yet-still-anonymous companions had transformed the whole situation.

  It was a paradox which, surely, would delight any true Irishman. With the discovery of her dead, Titanic had suddenly come alive.

  31

  A MATTER OF MEGAWATTS

  We have the answer,” said a tired but triumphant Kato.

  “I wonder if it matters now,” answered Donald Craig.

  “Oh, all that hysteria isn’t going to last. Our P.R. boys are already hard at work—and so are Parky’s. We’ve had a couple of summit meetings to plan a joint strategy. We may even turn it to our mutual advantage.”

  “I don’t see—”

  “Obvious! Thanks to our—well, Parky’s—careful exploring, these poor folk will at last get a Christian burial, back in their own country. The Irish will love it. Don’t tell anyone, but we’re already talking to the Pope.”

  Donald found Kato’s flippant approach more than a little offensive. It would certainly upset Edith, who seemed fascinated by the lovely child-woman the world had named Colleen.

  “You’d better be careful. Some of them may be Protestant.”

  “Not likely. They all boarded in the deep south, didn’t they?”

  “Yes—at Queenstown. You won’t find it on the map, though—a name like that wasn’t popular after Independence. Now it’s called Cobh.”

  “How do you spell that?”

  “C-O-B-H.”

  “Well, we’ll talk to the archbishops, or whoever, as well as the cardinals, just to cover all bases. But let me tell you what our engineers have cooked up. If it works, it will be a lot better than hydrazine. And it should even start Bluepeace shouting slogans for us.”

  “That’ll be a nice change. In fact, a miracle.”

  “Miracles are our business—didn’t you know?”

  “What are the specs of this particular one?”

  “First, we’re making our iceberg larger, to get more lift. As a result, we’ll only need about ten k-tons of extra buoyancy. We could go Parky’s route for that, and at first we were afraid we might have to. But there’s a neater—and cleaner—way of getting gas down there. Electrolysis. Splitting the water into oxygen and hydrogen.”

  “That’s an old idea. Won’t it take enormous amounts of current? And what about the risk of an explosion?”

  “Silly question, Donald. The gases will go to separate electrodes, and we’ll have a membrane to keep them apart. But you’re right about the current. Gigawatt-hours! But we’ve got them—when our nuclear subs have done their thing with the Peltier cooling elements, we’ll switch to electrolysis. May have to rent another boat, though—why are subs always called boats? I told you that the Brits and the French would like to get into the act, so that’s no problem.”

  “Very elegant,” said Donald. “And I see what you mean about pleasing Bluepeace. Everyone’s in favor of oxygen.”

  “Exactly—and when we vent the balloons on the way up, the whole world will breathe a little easier. At least, that’s what P.R. will be saying.”

  “And the hydrogen will go straight up to the stratosphere without bothering anyone. Oh—what about the poor old ozone layer? Any danger of making more holes?”

  “We’ve checked that, of course. Won’t be any worse off than it is now. Which, I admit, isn’t saying a great deal.”

  “Would it make sense to bottle the gases on the way up? You’re starting with hundreds of tons of oxy-hydrogen, at four hundred atmospheres. That must be quite valuable; why throw it away?”

  “Yes—we’ve even looked into that. It’s marginal—increased complexity, cost of shipping tanks, and so on. Might be worth a try on a test basis—and gives us a fall-back position if the environment lobby gets nasty again.”

  “You’ve thought of everything, haven’t you?” said Donald with frank admiration.

  Kato shook his head slowly.

  “Our friend Bradley once told me: ‘When you’ve thought of everything—the sea will think of something else.’ Words of wisdom, and I’ve never forgotten them. . . . Must hang up now— Oh—give my love to Edith.”

  OPERATIONS

  32

  NOBODY HERE BUT US ROBOTS

  Until the first decade of the new century, the great wreck and the debris surrounding it had remained virtually unchanged, though not untouched. Now, as 2010 approached, it was a hive of activity—or, rather, two hives, a thousand meters apart.

  The framework of scaffolding around the bow section was almost complete, and the Mole had successfully laid twenty-five of the massive straps under the hull; there were only five to go. Most of the mud that had piled up around the prow when it drove into the seabed had been blasted away by powerful water jets, and the huge anchors were no longer half buried in silt.

  More than twenty thousand tons of buoyancy had already been provided by as many cubic meters of packaged microspheres, strategically placed around the framework, and at the few places inside the wreck where the structure could safely take the strain. But Titanic had not stirred from her resting place—nor was she supposed to. Another ten thousand tons of lift would be needed to get her out of the mud, and to start her on the long climb to the surface.

  As for the shattered stern—that had already disappeared inside a slowly accreting block of ice. The media were fond of quoting Hardy’s “In shadowy silent distance grew the Iceberg too”—even though the poet could never have imagined this application of his words.

  The penultimate verse was also quoted widely, and equally out of context. Both the Parkinson and Nippon-Turner consortia were rather tired of being told that

  They were bent

  By paths coincident

  On being anon twin halves of one august event

  They hoped that it would be “august”—but not, if they co
uld possibly help it, coincident.

  Virtually all the work on both portions of the wreck had been carried out by remote control from the surface; only in critical cases were human beings actually required on the site. During the past decade, underwater robot technology had been pushed far beyond even the remarkable achievements of the previous century’s offshore oil operations. The payoff would be enormous—although, as Rupert Parkinson often wryly remarked, most of it would go to other people.

  There had, of course, been problems, mishaps—even accidents, though none involving loss of life. During one severe winter storm, Explorer had been forced to abandon station, much to the disgust of her captain, who considered this a professional insult. His vomitous passengers did not altogether appreciate his point of view.

  Even this display of North Atlantic ferocity, however, had not interrupted operations on the stern. Two hundred meters down, the demobilized nuclear submarines, now rechristened, after a pioneer oceanographer and a famous shipbuilder, Matthew Fontaine Maury and Peter the Great, were scarcely aware of the storm. Their reactors continued steadily pouring megawatt upon megawatt of low-voltage current down to the seabed—creating a rising column of warm water in the process, as heat was pumped out of the wreck.

  This artificial upwelling had produced an unexpected bonus, by bringing to the surface nutrients that would otherwise have been trapped on the seabed. The resulting plankton bloom was much appreciated by the local fish population, and the last cod harvest had been a record one. The government of Newfoundland had formally requested the submarines to remain on station, even when they had fulfilled their contract with Nippon-Turner.

  Quite apart from all this activity off the Grand Banks, a great deal of money and effort was being expended thousands of kilometers away. Down in Florida, not far from the launchpads that had seen men leave for the Moon—and were now seeing them prepare to go to Mars—dredging and construction for the Titanic Underwater Museum was well under way. And on the other side of the globe, Tokyo-on-Sea was preparing an even more elaborate display, with transparent viewing corridors for visitors and, of course, continuous performances of what was hoped would be a truly spectacular movie.

  Vast sums of money were also being gambled elsewhere—especially in the land once more called Russia. Thanks to Peter the Great, share dealings in Titanic spinoff companies were very popular on the Moscow Stock Exchange.

  33

  SOLAR MAX

  Another of my monomanias,” said Franz Zwicker, “is the sunspot cycle. Especially the current one.”

  “What’s particular about it?” asked Bradley, as they walked down to the lab together.

  “First of all, it will peak in—you guessed it!—2012. It’s already way past the 1990 maximum, and getting close to the 2001 record.”

  “So?”

  “Well, between you and me, I’m scared. So many cranks have tried to correlate events with the eleven-year cycle—which isn’t always eleven years anyway!—that sunspot counting sometimes gets classed with astrology. But there’s no doubt that the Sun influences practically everything on Earth. I’m sure it’s responsible for the weird weather we’ve been having during the last quarter century. To some extent, anyway; we can’t put all the blame on the human race, much as Bluepeace and Company would like to.”

  “I thought you were supposed to be on their side!”

  “Only on Mondays, Wednesdays, and Fridays. The rest of the week I keep a wary eye on Mother Nature. And the weather patterns aren’t the only abnormality. Seismic activity seems to be increasing. Look at California. Why do people still build houses in San Francisco? Wasn’t 2002 bad enough? And we’re still waiting for the Big One. . . .”

  Jason felt privileged to share the scientist’s thoughts; the two men, so different in background and character, had grown to respect each other.

  “And there’s something else, that occasionally gives me nightmares. Deep-water blowouts—perhaps triggered by earthquakes. Or even by man.”

  “I’ve known several. A big one in ’98, in the Louisiana Field. Wrote off a whole rig.”

  “Oh, that was just a mild burp! I’m talking about the real thing—like that crater the Shell Oil scientists found two kilometers down in the Gulf, back in the eighties. Imagine the explosion that caused that—three million tons of seabed scooped out! Equivalent to a good-sized atomic bomb.”

  “And you think that could happen again?”

  “I know it will—but not when and where. I keep warning the people up at Hibernia that they’re tickling the dragon’s tail. If Tommy Gold is right—and he was right about neutron stars, even if he struck out on moondust and the Steady State!—we’ve barely scratched the Earth’s crust. Everything we’ve tapped so far is just minor leakage from the real hydrocarbon reservoirs, ten or more kilometers down.”

  “Some leak! It’s been running our civilization for the last couple of centuries.”

  “Did you say running—or ruining? Well, here’s your prize pupil. How’s class going?”

  J.J. lay in a transporter cradle, very much a fish out of water. It was attached to a bank of computers by what seemed to Bradley to be an absurdly thin cable. Having grown up with copper wiring, he had never become quite accustomed to the fiber-optic revolution.

  Nothing seemed to be happening; the technician in charge hastily concealed the microbook she was viewing, and quickly scanned the monitor display.

  “Everything fine, Doctor,” she said cheerfully. “Just verifying the expert system databases.”

  That’s part of me, thought Jason. He had spent hours in dive simulators, while computer programmers tried to codify and record his hard-won skills—the very essence of veteran ocean engineer J. Bradley. He was beginning to feel more and more that, at least in a psychological sense, J.J. was becoming a surrogate son.

  That feeling became strongest when they were engaged in a direct conversation. It was an old joke in the trade that divers had a vocabulary of only a couple of hundred words—which was all they needed for their work. J.J. had enough artificial intelligence to exceed this by a comfortable margin.

  The lab had hoped to surprise Jason by using his voice as a template for J.J.’s speech synthesizer, but his reaction had been disappointing. The pranksters had forgotten that few people can recognize their own recorded voice, especially if it is uttering sentences that they have never spoken themselves. Jason had not caught on until he had noticed the grinning faces around him.

  “Any reason, Anne, why we can’t start the wet run on schedule?” Zwicker asked.

  “No, Doctor. The emergency recall algorithm still doesn’t seem to be working properly, but of course we won’t need it for the tests.”

  Although the sound transducers were not designed to function in air, Jason could not resist a few words with Junior.

  “Hello, J.J. Can you hear me?”

  “I can hear you.”

  The words were badly distorted, but quite recognizable. Underwater, the speech quality would be much better.

  “Do you recognize me?”

  There was a long silence. Then J.J. replied.

  “Question not understood.”

  “Walk closer, Mr. Bradley,” the technician advised. “He’s very deaf out of water.”

  “Do you recognize me?”

  “Yes. You are John Maxwell.”

  “Back to the drawing board,” muttered Zwicker.

  “And who,” asked Bradley, more amused than annoyed, “is John Maxwell?”

  The girl was quite embarrassed.

  “He’s section chief, Voice Recognition. But there’s no problem—this isn’t a fair test. Underwater he’ll know you from half a kilometer away.”

  “I hope so. Goodbye, J.J. See you later—when you’re not quite so deaf. Let’s see if Deep Jeep is in better shape.”

  Deep Jeep was the lab’s other main project, in some ways almost equally demanding. The reaction of most visitors at first viewing was: “Is it a submarine or a di
ving suit?” And the answer was always, “Both.”

  Servicing and operating three-man deep submersibles like Marvin was an expensive business: a single dive could cost a hundred thousand dollars. But there were many occasions when a much less elaborate, one-man vehicle would be adequate.

  Jason Bradley’s secret ambition was already well known to the entire lab. He hoped Deep Jeep would be ready in time to take him down to Titanic—while the wreck still lay on the ocean floor.

  34

  STORM

  It would be decades before the meteorologists could prove that the great storm of 2010 was one of the series that had begun in the 1980s, heralding the climatic changes of the next millennium. Before it exhausted its energies battering against the western ramparts of the Alps, Gloria did twenty billion dollars’ worth of damage and took more than a thousand lives.

  The weather satellites, of course, gave a few hours’ warning—otherwise the death toll would have been even greater. But, inevitably, there were many who did not hear the forecasts, or failed to take them seriously. Especially in Ireland, which was the first to receive the hammerblow from the heavens.

  Donald and Edith Craig were editing the latest footage from Operation DEEP FREEZE when Gloria hit Conroy Castle. They heard and felt nothing deep inside the massive walls—not even the crash when the camera obscura was swept off the battlements.

  • • •

  Ada now cheerfully admitted that she was hopeless at pure mathematics—the kind which, in G. H. Hardy’s famous toast, would never be of any use to anyone. Unknown to him—because the secrets of ENIGMA’s code-breaking were not revealed until decades later—Hardy had been proved spectacularly wrong during his own lifetime. In the hands of Alan Turing and his colleagues, even something as abstract as number theory could win a war.