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Authors: Ian Douglas

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Well, that's the thing about aliens. They're
alien
. . . different to the point of incomprehensibility.

In Corps School, when they were teaching us about alien cultures and social norms, they spent a lot of time hammering home the idea that just because a particular cultural belief set is
different
, it's not wrong. I've never necessarily subscribed to that notion, not wholeheartedly. I mean . . . look at radical fundamentalist Islam as practiced a ­couple of centuries ago during the Troubles . . . or even today in places like the Central Asian Caliphate that recognize only Sharia law. Ask the inhabitants of what once was Tel Aviv about the morality—­or the validity—­of a god who glories in murder, vengeance, and genocide.

But the rule is that alien environments, alien physiologies, alien psychologies produce worldviews that are fundamentally different from ours. The M'nangat would have developed ways of thinking, patterns of beliefs, that fit their particular evolutionary backgrounds.

And according to the xenosoc downloads I'd taken in school, it was wrong to judge them for simply being what they were.

“So . . .” I said, “was that what you wanted to see me about?”

T
O THANK YOU, YES
,
D'deen told me,
AND TO MAKE A SPE
CIFIC REQUEST.

“Oh?”

T
HE
THREE OF US HAVE BEE
N ASSIGNED TO THIS M
ISSION,
D'drevah said.
W
E ARE TO H
ELP YOUR SCIENTISTS
WITH ACCESS TO PORTI
ONS OF THE
E
PHEMERIS
DURING THIS EXPEDIT
ION TO THE PLACE YOU
CALL
A
BYSSWORLD.

There'd been M'nangat in the Murdock colony, too, I remembered. The chances were good that they were also there to look after their own.

D
'DNAH IS DUE TO RELE
ASE OUR BUDS IN ANOT
HER THREE OF YOUR WE
EKS,
D'deen said.
W
E WILL REQUIRE
MEDICAL ASSISTANCE.
W
E WISH FOR YOU TO PROVIDE THAT ASSISTANCE.

I gaped at them. They wanted me to deliver their young.

And from what I'd learned so far of M'nangat physiology, that would mean allowing D'dnah, the being whose life I'd saved, to die.

 

Chapter Seven

I
'd hoped for a last chance to say good-­bye to Joy, but it didn't happen. I was still on restriction, which now meant I couldn't leave the
Haldane
, and security had been stepped up and no one was allowed to come on board who wasn't part of her assigned crew or an appropriately tagged member of the Starport work crew. War fever—­the worsening situation in the Caliphate—­had everyone on edge, and the CAC's views on scientific research were well known. Privacy would have been an issue on board the cramped science vessel in any case. We had a final in-­head conversation late at night. “Damn it, you come back to me, Elliot,” she told me. “That's a goddamn fucking order.”

“You don't outrank me, Sergeant,” I said, grinning into the darkness. A Marine sergeant and a Navy second class both were E-­5, the same rank. “But I'll be back for you. Promise . . .”

We departed from Starport at 0700 the next morning.

Our immediate destination, though, was not the world of GJ 1214 I, some forty-­two light years distant. Instead, we used our Plottel Drive to tack on the sun's magnetic field out-­system to Jupiter, making the passage of 9 AUs in eight and a half days.

During the outbound passage, I pulled down the ephemeral data. I'd actually been scheduled to deploy to Europa at the end of my FMF training, but the deployment to Bloodworld had intervened.

Commonwealth Planetary Ephemeris

Entry: Europa, Jupiter II

Star
: Sol

Planet
: Sol V, Jupiter

Satellite
: Sol Vf, Jupiter-­f

Name
: Europa

Type
: Ice-­covered world ocean, kept liquid by tidal heating; rocky core

Mean orbital radius
: 670.900 km;
Orbital period:
3
d
13
h
13
m
42
s

Orbital eccentricity
: 0.009;
Inclination:
0.47
o

Rotational period
: 3
d
13
h
13
m
(tide-­locked with primary)

Mass
: 4.7988 x 10
25
g = 0.008 Earth;
Equatorial diameter:
3,121.6 km = 0.245 Earth

Mean planetary density
: 3.01 g/cc = .545 Earth;
Surface gravity:
0.134 G

Surface temperature range
: ~ -­160
o
C to -­220
o
C

Surface atmospheric pressure
: 0.1 υPa, or 10
-13
bar [0.000000000001 Earth average];
Percentage composition:
O
2
100 [Molecular oxygen]

Age
: 4.6 billion years

Biology
: Diverse marine forms; no surface forms ­present

Human presence
: Conamara Chaos research colony, established 2110. Fifty scientists, xenobiologists, and technicians in residence as of 2247. The base is an inverted cone hanging from the underside of the ice cap, at the bottom end of a 600-­meter access tube from the surface. Further human presence in Europa is prohibited pending additional study of Europan biosphere, and in particular of the Medusae, which show evidence of being sapient. . . .

Well, that's the sort of information you can download from the ship's library to your in-­head memory. But how do you convey the sense of an entire, living
world
. . . even one as small, as bleak, and as ice bound as Europa? Like many moons and tide-­locked planetary bodies of this type, the world has a very slight eccentricity to its orbit—­0.009 in this case. When Europa is closest to Jupiter, it's stretched slightly by Jove's massive gravitational grip. A little less than two days later, at its farthest point from the gas giant, the squeezing relaxes. This constant stretch-­relax cycle through every three and a half Earth days creates internal heat, kneading the core like a lump of clay in a potter's hands.

There's a second set of tidal forces at work too—­Europa's resonances with both Io and Ganymede. Europa circles Jupiter once for every two orbits of Io, and twice for every one orbit of Ganymede. These Laplace resonances, as they are called, help pump up Europa's interior temperature by ultimately stealing energy from Jupiter's rotation through the tidal interactions between the planet and Io.

The combined effects are strong enough that even though the surface temperature is a frigid two hundred below zero, it turns out that there's a liquid ocean between ice and the rocky mantle a hundred kilometers down.

And liquid water always means there's a good potential for life.

During the last few hours of the approach, I watched the banded, slightly flattened disk of Jupiter swelling on the viewall in the mess bay. Three stars were visible to either side of the giant planet—­two to the left and one on the right—­three of the four classic Galilean satellites. First glimpsed through his primitive telescope by Galileo Galilei in 1610, those four moons shuttling around
Jupiter
rather than around a geocentric Earth had sounded the death knell of Aristotelian Cosmology. Four centuries later, the discovery of an induced magnetic field around one of those moons, Europa—­a discovery made by a spacecraft named Galileo—­had demonstrated for the first time that an actual liquid saltwater ocean existed somewhere other than on the planet Earth. In 2107, the Olympus Expedition to Jupiter had drilled down through the ice and discovered the Medusae. Three years later, exactly half a millennium after Galileo's observations, the base beneath Conamara Chaos had been built, primarily to study them.

I was interested to see in the ephemeris data that “Jupiter II” is an alternate name for Europa. Until the mid-­nineteenth century, only the four Galilean satellites were known. Europa was the second out from Jupiter after Io, and was followed by Ganymede and Callisto, Jupiter I through IV. Not counting Jupiter's dark and mostly invisible ring system, though, we now know there are five moons closer to Jupiter than Europa; hence, “Jupiter f.”

The
Haldane
continued decelerating as we dropped deeper and deeper into Jupiter's titanic gravity well. The missing moon of the quartet turned out to be Io, which eventually appeared as a tiny red disk visible against the backdrop of the Jovian cloud decks closely paced by the black dot of its own shadow. Hour by hour, the view slid off to the left as the turbulent colored bands of Jupiter's upper atmosphere filled the viewall. The mess bay was filled now with Marines and off-­duty naval personnel who'd wandered in to see the show.

Eventually, though, Jupiter drifted out of frame, and we were bearing down on the inner of the two stars to the left. Another hour, and Europa resolved as a gleaming blue-­white sphere, as smooth faced as a billiard ball, and thickly webbed by darker, brownish streaks and lines. Those lines, properly called
lineae
, reminded me of the supposed “canals” once thought to have crisscrossed the deserts of Mars, thanks to a nineteenth-­century English mistranslation of the Italian word for “channels,”
canali
.

One crater on that icy surface stood out more brightly than any other—­a 26-­kilometer-­wide hole called Pwyll, looking like the starred impact of a hammer against a sphere of glass crystal. A thousand kilometers to the north, two particularly dark
lineae
crossed in a giant X, and just below was a tangle of broken and jumbled ice terrain darker than the surrounding areas. This was the Conamara Chaos, and the location of Humankind's sole outpost within the vast Europan ocean.

It takes some getting used to . . . the idea of an ocean more than a hundred kilometers deep covering the entire Jovian satellite. Europa is slightly smaller than Earth's moon, with a diameter of just over three thousand kilometers. Between its rocky, silicate mantle below and its shell of ice above lies that ocean of liquid water, but because of its depth, it's an ocean that actually and surprisingly holds more than twice the volume of water of all of the oceans on Earth.

Europa's ice varies considerably in thickness. South, where Pwyll Crater punched deep into the surface in the recent past, the crust is more than fifty kilometers thick. Elsewhere, though, as at Conamara Chaos, the ice is much thinner—­in places only a few hundred meters thick. There's evidence that the ice doesn't rotate at the same speed, quite, as the moon's central core . . . and even that the entire shell has shifted, rotating independently of that core by as much as eighty degrees, many times throughout its history.

The base itself was invisible from space. Europa's disk filled the viewall, continuing to expand as the
Haldane
zeroed in on the navigation broadcasts from the colony's surface facility.

The Conamara Chaos
looks
chaotic from above—­a vast, sprawling tumble of ice blocks and floes, all frozen together now, but quite obviously the product of some major melting and jostling at some point in the not-­so-­distant past. We think there's a collection of hot vents opening from the rocky core a hundred kilometers down, that major eruptions in the past actually broke through the ice cap at this point, and that continuing upwellings of hot water keep the ice at Conamara relatively thin. That's what they were looking for when they began probing beneath Europa's icy roof, of course—­thin ice.

And they found it, here amid ten-­kilometer floes and bergs that looked like they'd been jumbled together, spun about, and even flipped upside down before being refrozen, broken, and refrozen yet again. The dark reds and browns mixed in with the ice were organic chemicals from the sea below, organics that had worked their way up and onto the surface each time the ice cracked all the way through, a clue both to the presence of life and to the richness of that life down in that chill, lightless void.

Eventually, we were close enough to see a kind of navigational marker, a vast, twin plume or cloud hovering above its shadow. The Europan surface is
cold
—­about minus 160 degrees Celsius near the equator, and much lower, minus 220ºC, at the poles. Conamara Base is heavily insulated to avoid damage to the local environment, and that means they need to dispose of excess heat as efficiently as possible, venting it as sterile plumes of steam from a pair of hundred-­meter stacks north of the facility. The steam cools high above the surface, crystallizing as ice that eventually falls back across the chaotic terrain as a blanket of fresh, white snow.

The landing zone was well south of the plume, a flattened-­out rectangle a kilometer across with a ­couple of other spacecraft resting there in the open. Nearby was a surface blockhouse, heavily insulated, and the array of dish antennas that maintained communications—­through a satellite network orbiting Jupiter—­with Earth.

Conamara Chaos is about a quarter of the way east around the moon from the sub-­Jovian point; Jupiter at half-­phase dominated the bleak, ice-­block tumble of the western horizon, an enormous dome with pale red and pink, brown, white, gray, and salmon-­hued stripes running up and down, with detail enough at this distance to see the swirls, eddies, and storm spots within the various fast-­rotating cloud bands. I looked for the Great Red Spot, the south hemisphere superstorm two to three times as broad as Earth herself, but didn't see it. I did see the small, flattened oval of Io's shadow, though, close to the planet's limb, and above, a tiny red disk that was Io itself.

We settled to ground, and the elevator tube rose up out of the ice to meet us. The expedition's five Corpsmen, as technical staff, plus our two civilian passengers, the ship's skipper, and Lieutenant Kemmerer would make the journey down to the base. Dr. Kirchner had been invited, I understood, but had opted to stay in his office on
Haldane
.

The radiation at Europa's surface is fierce—­about 540 rem per day, enough to kill an unprotected human in fairly short order.
Haldane
's rad shielding had protected us down to the surface; from there on, the ice itself would keep us safe from being fried by Jupiter's intense radiation belts.

I felt a spring in my step as I entered the elevator. We'd been accelerating at one gravity for a week, now, but the surface gravity on Europa was only a bit more than a tenth of that. Drop something and it will fall half a meter in the first second, so there
is
a clear up and down, unlike on the tethered asteroid at Starport, but you need to watch your reflexes. Jump, and you could bang your noggin against the overhead.

“Welcome to Chaos,” a voice said from a hidden speaker as we gathered within the elevator. “We're bringing you all the way down to Level Three. Please hang on to the handrails beside you. Enjoy the ride!”

The elevator ride was a long one—­well over half a kilometer straight down. The warning about handrails was a good one. With a surface gravity of only 1.314 meters per second squared, our downward acceleration through that tunnel more than canceled our weight. I don't know how fast we were going, but we were in zero-­G for most of the descent. The trip was also
boring
, with nothing to see but the gray metal of the shaft sliding up around us through the clear transplas of the car.

But then the elevator emerged at the bottom level, we stepped out onto the main deck, and I gasped at the view.

Okay, so I'm easily impressed. But the others were speechless, too, even the usually unflappable Dubois, who said, “Fuck me,” the words spoken very, very softly. Nearby, Dr. Ortega muttered something that sounded like, “Sweet holy Mother of God.”

Conamara Base is upside down, as humans think of things, literally growing down from the underside of the ice ceiling overhead. Level One, with the hab quarters, is at the top, then Level Two with the lab spaces, with Level Three and the command center at the bottom, a broad, circular compartment fifty meters wide with instrument consoles and deck-­to-­overhead viewalls looking out into the abyss. The walls leaned out at a sharp angle, giving a clear view almost straight down.

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