“See what I mean?” he said to Bradley. “As they’re so fond of saying, ‘Time is the art of the Swiss.’ ” Then he called out: “Come in, Franz.”
There was a moment of silent appraisal before scientist and engineer shook hands; each knew the other’s reputation, and each was wondering, “Will we be colleagues—or antagonists?” Then Professor Franz Zwicker said, “Welcome aboard, Mr. Bradley. We have much to talk about.”
PREPARATIONS
23. PHONE-IN
“There can’t be many people,” said Marcus Kilford, “who don’t know that it’s now less than four years to the Titanic centennial—or haven’t heard about the plans to raise the wreck. Once again, I’m happy to have with me three of the leaders in this project. I’ll talk to each of them in turn—then you’ll have a chance of calling in with any specific questions you have. At the right time, the number will flash along the bottom of the screen…
“The gentleman on my left is the famous underwater engineer Jason Bradley; his encounter with the giant octopus in the Newfoundland oil rig is now part of ocean folklore. He’s currently with the International Seabed Authority, and is responsible for monitoring operations on the wreck.
“Next to him is Rupert Parkinson, who almost brought the America’s Cup to England last year. (Sorry about that, Rupert.) His firm is involved in raising the forward portion of the wreck—the larger of the two pieces into which the ship is broken.
“On my right is Donald Craig, who’s associated with the Nippon-Turner Corporation—now the world’s largest media chain. He will tell us about the plans to raise the stern, which was the last part to sink—carrying with it most of those who were lost on that unforgettable night, ninety-six years ago…
“Mr. Bradley—would it be fair to call you a referee, making sure that there’s no cheating in the race between these two gentlemen?”
Kilford had to hold up his hand to quell simultaneous protests from his other two guests.
“Please, gentlemen! You’ll both have your turn. Let Jason speak first.”
Now that I’m disguised as a diplomat, thought Bradley, I’d better try to act the part. I know Kilford’s trying to needle us—that’s his job—so I’ll play it cool.
“I don’t regard it as a race,” he answered carefully. “Both parties have submitted schedules which call for the raising mid-April 2012.”
“On the fifteenth itself? Both of them?”
This was a sensitive matter, which Bradly had no intention of discussing in public. He had convinced ISA’s top brass that nothing like a photo finish must be allowed. Two major salvage operations could not possibly take place simultaneously, less than a kilometer apart. The risk of disaster—always a major concern—could be greatly increased. Trying to perform two difficult jobs at once was a very good recipe for achieving neither.
“Look,” he said patiently, “this isn’t a one-day operation. Titanic reached the bottom in a matter of minutes. It’s going to take days to lift her back to the surface. Perhaps weeks.”
“May I make a point?” said Parkinson, promptly doing so. “We have no intention of bringing our section of the wreck back to the surface. It’s always going to remain completely underwater, to avoid the risk of immediate corrosion. We’re not engaged in a TV spectacular.” He carefully avoided looking at Craig; the studio camera was less diffident.
I feel sorry for Donald, thought Bradley. Kato should have been here instead: he and Parky would be well matched. We might see some real fireworks, as each tried to be more sardonically polite than the other—in, of course, the most gentlemanly way possible. Bradley wished that he could help Donald, toward whom he had developed a warm, almost paternal feeling, but he had to remember that he was now a friendly neutral.
Donald Craig wriggled uncomfortably in his chair, and gave Parkinson a hurt look. Kilford seemed to be enjoying himself.
“Well, Mr. Craig? Aren’t you hoping to film the stern rising out of the water, with your synthetic iceberg looming over it?”
That was exactly what Kato intended, though he had never said so in public. But this was not the sort of secret that could be kept for more than a few milliseconds in the electronic global village.
“Well—er,” began Donald lamely. “If we do bring our section up above sea level, it won’t be there for long—”
“—but long enough for some spectacular footage?”
“—because just as you intend to do, Rupert, we’ll tow it underwater until it reaches its final resting place, at Tokyo-on-Sea. And there’s no danger of corrosion; most of the ironwork will still be enclosed in ice, and all of it will be at freezing point.”
Donald paused for a second; then a slow smile spread over his face.
“And by the way,” he continued, obviously gaining confidence, “haven’t I heard that you are planning a TV spectacular? What’s this story about taking scuba divers down to the wreck, as soon as it’s within reach? How deep will that be, Mr. Bradley?”
“Depends what they’re breathing. Thirty meters with air. A hundred or more with mixtures.”
“Then I’m sure half the sports divers in the world would love to pay a visit—long before you get to Florida.”
“Thanks for the suggestion, Donald,” said Parkinson amiably. “We’ll certainly give it a thought.”
“Well, now we’ve broken the ice—ha, ha!—let’s get down to business. What I’d like you to do—Donald, Rupert—is for each of you to explain where your project stands at the moment. I don’t expect you to give away any secrets, of course. Then I’ll ask Jason to make any comments—if he wants to. As C comes before P, you go on first, Donald.”
“Well—um—the problem with the stern is that it’s so badly smashed up. Sealing it in ice is the most sensible way of handling it as a single unit. And, of course, ice floats—as Captain Smith apparently forgot in 1912.
“My friends in Japan have worked out a very efficient method of freezing water, using electric current. It’s already at almost zero centigrade down there, so very little additional cooling is needed.
“We’ve manufactured the neutral-buoyancy cables and the thermoelectric elements, and our underwater robots will start installing them in a few days. We’re still negotiating for the electricity, and hope to have contracts signed very soon.”
“And when you’ve made your deep-sea iceberg, what then?”
“Ah—well—that’s something I’d rather not discuss at the moment.”
Though none of those present knew it, Donald was not stalling. He was genuinely ignorant—even baffled. What had Kato meant in their last conversation? Surely he must have been joking: really, it was not very polite to leave his partners in the dark…
“Very well, Donald. Any comments, Jason?”
Bradley shook his head. “Nothing important. The scheme’s audacious, but our scientists can’t fault it. And, of course, it has—what do you say?—poetic justice.”
“Rupert?”
“I agree. It’s a lovely idea. I only hope it works.”
Parkinson managed to convey a genuine sense of regret for the failure he obviously expected. It was a masterly little performance.
“Well, it’s your turn. Where do you stand?”
“We’re using straightforward techniques—nothing exotic! Because air is compressed four hundred times at Titanic’s depth, it’s not practical to pump it down to get lift. So we’re using hollow glass spheres; they have the same buoyancy at any depth. They’ll be packed—millions of them—in bundles of the appropriate size. Some may be put in the ship at strategic points, by small ROVs—sorry, Remote Operated Vehicles. But most of them will be attached to a lifting cradle we’re lowering down to the hull.”
“And just how,” interjected Kilford, “are you going to attach the hull to the cradle?”
Kilford had obviously done his homework, Bradley thought admiringly. Most laymen would have taken such a matter for granted, as a point not worth special attention; but it was the
key to the whole operation.
Rupert Parkinson smiled broadly. “Donald has his little secrets; so have we. But we’ll be doing some tests very shortly, and Jason has kindly agreed to observe them—haven’t you?”
“Yes—if the U.S. Navy can lend us Marvin in time. ISA doesn’t have any deep subs of its own, alas. But we’re working on it.”
“One day I’d like to dive with you—I think,” said Kilford. “Can you get a video link down to the wreck?”
“No problem, with fiber optics. We have several monitoring circuits already.”
“Splendid. I’ll start bullying my producer. Well, I see there are lots of lights flashing. Our first caller is Mr.—sorry, I guess that’s Miss—Chandrika de Silva of Notting Hill Gate. Go ahead, Chandrika…”
24. ICE
“We’re in a buyer’s market,” said Kato with undisguised glee. “The U.S. and USSR navies are trying to underbid each other. If we got tough, I think they’d both pay us to take their radioactive toys off their hands.”
On the other side of the world, the Craigs were watching him through the latest marvel of communications technology. POLAR 1, opened with great fanfare only a few weeks ago, was the first fiber-optic cable to be laid under the Arctic ice cap. By eliminating the long haul up to the geostationary orbit, and its slight but annoying time delay, the global phone system had been noticeably improved; speakers no longer kept interrupting each other, or wasting time waiting for replies. As the Director-General of INTELSAT had said, smiling bravely through his tears, “Now we can devote comsats to the job God intended them for—providing service to airplanes and ships and automobiles—and everyone who likes to get out into the fresh air.”
“Have you made a deal yet?” asked Donald.
“It will be wrapped up by the end of the week. One Russki, one Yank. Then they’ll compete to see which will do the better job for us. Isn’t that nicer than throwing nukes at each other?”
“Much nicer.”
“The British and French are also trying to get into the act—that helps our bargaining position, of course. We may even rent one of theirs as a standby. Or in case we decide to speed up operations.”
“Just to keep level with Parky and Company? Or to get our section up first?”
There was a brief silence—just about long enough for the question to have traveled to the Moon and back.
“Really, Edith!” said Kato. “I was thinking of unexpected snags. Remember, we’re not in a race—perish the thought! We’ve both promised ISA to lift between seven and fifteen April ’12. We want to make sure we can meet the schedule—that’s all.”
“And will you?”
“Let me show you our little home movie—I’d appreciate it if you’d exit RECORD mode. This isn’t the final version, so I’d like your comments at this stage.”
The Japanese studios, Donald recalled, had a long and well-deserved reputation for model work and special effects. (How many times had Tokyo been destroyed by assorted monsters?) The detail of ship and seabed was so perfect that there was no sense of scale; anyone who did not know that visibility underwater was never more than a hundred meters—at best—might have thought that this was the real thing.
Titanic’s crumpled rear section—about a third of her total length—lay on a flat, muddy plain surrounded by the debris that had rained down when the ship tore in two. The stern itself was in fairly good shape, though the deck had been partly peeled away, but farther forward it looked as if a giant hammer had smashed into the wreck. Only half of the rudder protruded from the seabed; two of the three enormous propellers were completely buried. Extricating them would be a major problem in itself.
“Looks a mess, doesn’t it?” said Kato cheerfully. “But watch.”
A shark swam leisurely past, suddenly noticed the imaginary camera, and departed in alarm. A nice touch, thought Donald, silently saluting the animators.
Now time speeded up. Numbers indicating days flickered on the right of the picture, twenty-four hours passing in every second. Slim girders descended from the liquid sky, and assembled themselves into an open framework surrounding the wreckage. Thick cables snaked into the shattered hulk.
Day Four Hundred—more than a year had passed. Now the water, hitherto quite invisible, was becoming milky. First the upper portion of the wreck, then the twisted plating of the hull, then everything down to the seabed itself, slowly disappeared into a huge block of glistening whiteness.
“Day Six Hundred,” said Kato proudly. “Biggest ice cube in the world—except that it isn’t quite cube-shaped. Think of all the refrigerators that’s going to sell.”
Maybe in Asia, thought Donald. But not in the U.K.—especially in Belfast… Already there had been protests, cries of “sacrilege!” and even threats to boycott everything Japanese. Well, that was Kato’s problem, and he was certainly well aware of it.
“Day Six Hundred Fifty. By this time, the seabed will also have consolidated, right down to several meters below the triple screws. Everything will be sealed tight in one solid block. All we have to do is lift it up to the surface. The ice will only provide a fraction of the buoyancy we need. So…”
“…so you’ll ask Parky to sell you a few billion microspheres.”
“Believe it or not, Donald, we had thought of making our own. But to copy Western technology? Perish the thought!”
“Then what have you invented instead?”
“Something very simple; we’ll use a really hi-tech approach.
“Don’t tell anyone yet—but we’re going to bring the Titanic up with rockets.”
25. JASON JUNIOR
There were times when the International Seabed Authority’s deputy director (Atlantic) had no official duties, because both halves of the Titanic operation were proceeding smoothly. But Jason Bradley was not the sort of man who enjoyed inaction.
Because he did not have to worry about tenure—the income on his investments was several times his ISA salary—he regarded himself as very much a free agent. Others might be trapped in their little boxes on the authority’s organization chart; Jason Bradley roved at will, visiting any departments that looked interesting. Sometimes he informed the D.G., sometimes not. And usually he was welcomed, because his fame had spread before him, and other department heads regarded him more as an exotic visitor than a rival.
The other four deputy directors (Pacific, Indian, Antarctic, Arctic) all seemed willing enough to show him what was happening in their respective ocean empires. They were, of course, now united against a common enemy—the global rise in the sea level. After more than a decade of often acrimonious argument, it was now agreed that this rise was between one and two centimeters a year.
Bluepeace and other environmental groups put the blame on man; the scientists were not so sure. It was true that the billions of tons of CO2 from thermal power plants and automobiles made some contribution to the notorious “Greenhouse Effect,” but Mother Nature might still be the principal culprit; mankind’s most heroic efforts could not match the pollution produced by one large volcano. All these arguments sounded very academic to peoples whose homes might cease to exist within their own lifetimes.
ISA chief scientist Franz Zwicker was widely regarded as the world’s leading oceanographer—an opinion he made little effort to discourage. The first item most visitors noticed when entering his office was the Time magazine cover, with its caption “Admiral of the Ocean Sea.” And no visitor escaped without a lecture, or at least a commercial, for Operation NEPTUNE.
“It’s a scandal,” Zwicker was fond of saying. “We have photo coverage of the Moon and Mars showing everything down to the size of a small house—but most of our planet is still completely unknown! They’re spending billions to map the human genome, in the hope of triggering advances in medicine—someday. I don’t doubt it; but mapping the seabed down to one-meter resolution would pay off immediately. Why, with camera and magnetometer we’d locate all the wrecks that have ever happened, since men started
to build ships!”
To those who accused him of being a monomaniac, he was fond of giving Edward Teller’s famous reply: “That’s simply not true. I have several monomanias.”
There was no doubt, however, that Operation NEPTUNE was the dominant one, and after some months” exposure to Zwicker, Bradley had begun to share it—at least when he was not preoccupied with Titanic.
The result, after months of brainstorming and gigabytes of CADCAMing, was Experimental Long-Range Autonomous Surveyor Mark I. The official acronym ELRAS survived only about a week; then, overnight, it was superseded…
“He doesn’t look much like his father,” said Roy Emerson.
Bradley was getting rather tired of the joke, though for reasons which none of his colleagues—except the director-general—could have known. But he usually managed a sickly grin when displaying the lab’s latest wonder to VVIPs. Mere VIPs were handled by the deputy director, Public Relations.
“No one will believe he’s not named after me, but it’s true. By pure coincidence, the U.S. Navy robot that made the first reconnaissance inside Titanic was called Jason Junior. So I’m afraid the name’s stuck.
“But ISA’s J.J. is very much more sophisticated—and completely independent. It can operate by itself, for days—or weeks—without any human intervention. Not like the first J.J., which was controlled through a cable; someone described it as a puppy on a leash. Well, we’ve slipped the leash; this J.J. can go hunting over all the world’s ocean beds, sniffing at anything that looks interesting.”
Jason Junior was not much larger than a man, and was shaped like a fat torpedo, with forward- and downward-viewing cameras. Main propulsion was provided by a single multibladed fan, and several small swivel jets gave attitude control. There were various streamlined bulges housing instruments, but none of the external manipulators found on most ROVs.
The Ghost from the Grand Banks Page 11