"Seriously," Roger said, gesturing for Julian's rifle. "I'd like to try. I turn the sight off from time to time, but it's not the same. And what happens if I lose it?"

Julian shook his head and traded rifles.

"It's going to be a bit tough to zero," he warned.

"Not really." The prince looked the rifle over. He'd checked them out when the first of them came off the assembly line, even fired a few rounds through one of them. But that had been months ago, and he took the time to refamiliarize himself with the weapon. Especially with the differences between it and his own Parkins.

Dell Mir, the K'Vaernian inventor who'd designed the detailed modifications, had done a good job. The weapons were virtually identical, with the exception of removing the optional gas-blowback reloading system—which Roger had to disengage anyway, when he used black-powder rounds in the Parkins—and the actual materials from which it was constructed.

It was fortunate that while the Mardukans' materials science was still in the dark ages, their machining ability was fairly advanced, thanks to their planet's weather. Whereas industrial technology had been driven, to a great extent, by advances in weaponry on Earth—and Althar, for that matter—the development of machining on Marduk had been necessitated by something else entirely: water. It rained five to ten times a day on this planet, and the development of any sort of civilization with that much rain had required advanced pumping technology. It was a bit difficult to drain fields with simple waterwheel pumps in the face of four or five meters of rain a year.

Production of the best pumps, the fastest and most efficient ones—and the ones capable of lifting water the "highest"—required fine machine tolerances and resistant metals. Thus, the Mardukans had early on developed both the machine lathe and drill press, albeit animal driven, as well as machine steel and various alloys of bronze and brass that were far in advance of those found at similar general tech levels in most societies.

But because they'd never developed electricity, there was no stainless steel, and no electroplating, so the rifle was made out of a strong, medium-carbon steel that was anything but rust-proof. And the stock, instead of a light-weight, boron-carbon polymer like the Parkins and Spencer's, was of shaped wood.

The weapon's ammunition was slightly different, as well. The cases were the same ones Roger had started with—as long as his hand, and thicker than his thumb, necking downward about fifteen percent to a bullet that was only about as thick as his second finger. The major changes were in the propellant and the bullet.

Roger's rifle used an electronic firing system that activated the center-point primer plug, and in the one operation that had been handled almost entirely by the Marines, Julian and Poertena had installed firing systems in each of the rifles created from spare parts for their armor, downchecked plasma rifles, and odd items of personal gear that hadn't been used up on the trek. Each of the weapons had the same basic design, although each had a few different parts. Mostly, though, it used parts from the plasma rifles, including the faulty capacitors which had made the off-world weapons unsafe to use. There was no problem using them for this application, since the energy being temporarily stored was far below that necessary to cause the spectacular—and lethal—detonations that had forced the weapons' retirement.

Julian had recommended, effectively, scrapping all of the plasma rifles and using their stocks for the base of as many of the black-powder rifles as possible, but Captain Pahner had nixed the idea. There hadn't been enough of the plasma rifles to provide all the black-powder weapons the company was going to require, so the majority of them would still have had to be made from native materials. Besides, he was still debating whether or not Julian and Poertena might be able to come up with a "fix" good enough to use the energy weapons for just one more battle. Given the probable difficulty of taking the starport, the plasma rifles might be the difference between success and failure, and he'd been unwilling to completely foreclose the possibility of using them.

The propellant in Roger's original rounds had been an advanced smokeless powder. From the perspective of the Marines with their electromagnetic bead rifles, long-range grenade launchers, and plasma rifles, that propellant had been a laughable antique. Something dating back to the days when humans were still using steam to make electricity. But that same propellant was far, far out of reach of the Mardukans' tech base, so Dell Mir and the Marines had accepted that black powder was the only effective choice for a propellant.

Black powder, however, had its own peculiar quirks. One, which was painfully evident whenever someone squeezed a trigger, was the dense cloud of particularly foul-smelling smoke it emitted. Another was the truly amazing ability of black powder to foul a weapon with caked residue, and that residue's resistance to most of the Marines's cleaning solvents. Old-fashioned soap and water actually worked best, but the Bronze Barbarians' sensibilities were offended when they found themselves up to their elbows in hot, soapy water scrubbing away at their weapons with brushes and plenty of elbow grease.

But the biggest functional difference between black powder-loaded rounds and the ones Roger had brought out from Old Earth with him was that black powder exploded. More modern propellants burned—very rapidly, to be sure, but in what was a much more gradual process, relatively speaking, than black powder's ... enthusiastic detonation. While nitro powders might well produce a higher absolute breech pressure, they did it over a longer period of time. For the same breech pressure, black powder "spiked" much more abruptly, which imposed a resultant strain on the breech and barrel of the weapon.

Not to mention a particularly nasty and heavy recoil.

Fortunately, the old axiom about getting what you paid for still held true, and the Parkins and Spencer was a very expensive weapon, indeed. Part of what Roger had gotten for its astronomical purchase price was a weapon which was virtually indestructible, which was a not insignificant consideration out in the bush where he tended to do most of his hunting. Another part, however, was the basic ammunition design itself. The Parkins' designers had assumed that situations might arise in which the owner of one of their weapons would find himself cut off from his normal sources of supply and be forced to adopt field expedients (if not quite so primitive as those which had been enforced upon the Marines here on Marduk) to reload their ammo. So the cases themselves had been designed to contain pressures which would have blown the breech right out of most prespace human firearms. And they had sufficient internal capacity for black-powder loads of near shoulder-breaking power.

In fact, the power and muzzle velocity of the reloaded rounds, while still far short of what Roger's off-world ammunition would have produced with its initial propellant, had been sufficient to create yet another problem.

The rounds Roger had started out with had jacketed bullets—old-fashioned lead, covered in a thin metal "cladding" that intentionally left the slug's lead tip exposed. On impact, the soft lead core mushroomed to more than half-again its original size and the cladding stripped back into a six-pronged, expanding slug. The main reason the cladding was necessary, however, was because the velocity of the round would have "melted" a plain lead bullet on its way up the barrel, coating the barrel and rifling in lead. Modern chemical-powered small arms ammunition was manufactured using techniques which were a direct linear descendent of technology which had been available since time immemoriaclass="underline" copper or some other alloy was added to the outside of lead bullets by a form of electroplating. But Mardukans didn't have electroplating, and it was a technology there'd been no time to "reinvent," so the humans had been forced to make do.

There'd been three potential ways to solve the problem. The first had been to reduce the velocity of the rounds to a point where they wouldn't lead the barrel, but that would have resulted in a reduction in both range and accuracy. The second choice had been to try to develop a stronger alloy to replace the lead, but since that wasn't something the Mardukans had ever experimented with, it would once again have required "reinventing" a technology. Finally, they'd settled on the third option: casting thin copper jackets for the rounds and then compressing the lead into them. There was an issue with contraction of the copper, but the compression injection—another technique garnered from pump technology—took care of that.