| abstract
| - The other part of Laurasia, North America, is narrower than its sibling, Eurasia, although it harbors the same range of climates, from rainforest to windswept desert to sprawling grassland. Two great mountain ranges flank the coasts of the continent---the ancient, weathered Appalachians to the East and the youthful, craggy Rockies to the West. Between these mountains was once solid forests (punctuated here and there by rain-shadow deserts) but the recent drying and cooling of the world has resulted in vast grasslands that stretch from the heart of Canada to the Gulf of Mexico. The richest land is to be found in central and southern North America, along the banks of the continent’s largest river, the Mississippi, where soil was dropped by melting glaciers at the end of the last the Ice Age. Glaciation is the most noticeable geological force acting upon northern North America, although the west coast, which rubs against the Pacific tectonic plate, is also volcanically active. Flora in North America is similar to that of Eurasia, although there are a few differences. There is no bamboo in North America, this grass being replaced by a wider diversity of deciduous trees such as poplars (p-Populus), birches (p-Betula), ailas ( Alia) and many others. Northern forests are dominated by spiny conifers such as pines (p-Pinus) and giant sequoias (p- Sequoia ), while southern forests are composed mostly of deciduous hardwoods like the oaks (p-Quercus), with an underbrush composed mostly of prickly Deinorubus (thornest) brambles. The plains are covered in grass, which may grow to two meters in height and is heavily fortified with silicates, making it is un-digestible to all but the most resilient herbivores. Few softwood trees can resist the grazing of dinosaurs, and so tend to be small and bushy. In the more arid portions of the continent, spiny cacti are the dominant flora. The wood-urchin cacti (genus Hursutis ) can be found as far north as Canada. Although North America’s plant life may seem fairly familiar, the animal life diverges strongly from that of Home-Earth. Spec’s North America emerged from the Mesozoic with a full compliment of fauna, from tyrannosaurs to ceratopsians, and animal diversity remained high throughout the Tertiary, although the species have changed somewhat. Several Cretaceous lineages have under gone changed and displacements (ceratopsids (minus the exception of the Everglades Tuskhorn aka Parajugaloceratops americensis), but sightings of creatures similar to the likes of ceratopsians have been reported in the colder regions, ankylosaurs (though they have adapted to an aquatic lifestyle here in the Americas while other traditional ankylosaurs thrive in other areas), troodonts (which thrive in Central America, South America, Asia and possibly Africa)) and other lineages which have now vanished forever from the fossil record (ornithomimids and pachycephalosaurs), while others (such as the viriosaurs) have arisen, but life goes on. In the north, North America’s principal herbivores are the therizinosaurs (Therizinosauria) much like their counterparts in Eurasia. Hunting these creatures are errosaurs and sabretyrants (Tyrannosauroidea) and draks (Boreonychidae), again the same as in Eurasia. Further south, a biologist begins to encounter differences between these two halves of Laurasia. Formosicorns are unheard of in North America, minus the exception of the recently discovered Yata which is a recent immigrant from the Pliocene epoch. Neohadrosaurs (Neohadrosauria) such as the as the hmungos, stellosaurs and some species of kritosaur exclusively, are now employed as the large and medium herbivores, though it is more likely to see the small stellosaurs are more likely to fulfill the role of the small grazers and browsers. Viriosaurs (Viriosauria), basal ornithopods from South America, take up most of the small herbivore niches, mirroring the image of various ornithopods that roamed North America in the past like Thescelosaurus. Birds are either South American forms or old North American. Mammals are mostly eutherians such as insectivores, spec-rodents (Xenotheridia), metherians (Metatheria) and bats (Chiroptera), although there are representatives of other, stranger groups present. For the most part, North America is still very much a part of Laurasia. A North American deciduous forest will look very much like a Eurasian deciduous forests, often with exactly the same species occupying the same niches. The reason for this similarity is Beringia, a landbridge connecting Alaska to Siberia. Throughout the Tertiary, Beringia has been an intermittent link between the Old and New worlds, rising from the ocean at every sea-level drop only to be inundated by the next sea-level rise. The bridge was stable enough however, to act as a conduit for Asian and North American fauna, and has only recently disappeared after the end of the last Ice Age. Until recently, the extent of North American biological diversity was Asian migrants plus a handful of odd endemics, but that changed in the late Miocene, when a new landbridge opened. This was not the familiar Beringia route from Siberia to Alaska, nor was it the Newfoundland/Scandinavia link that existed during the Eocene and (possibly) during the glaciation of the Pleistocene, but the southern bridge, Panama, a pathway to Gondwana. South America, a chunk of the great southern continent Gondwana, broke away from the parent body some fifty million years ago, and sat in isolation until it linked up with North America via the Panama landbridge, which exists to this day. The formation of the Panama landbridge sparked off the Great Faunal Interchange, an event which, in our home timeline, took place as a shuffling of mammalian populations. The Interchange entailed the introduction of llamas, big cats, and rodents into South America, while ground sloths, armadillos, opossums, and many bird groups made their way north. In Spec, of course, different groups of animals were present to make the transition. The late Miocene marked the introduction of the viriosaurs , which now occupy every small herbivore niche throughout central and southern North America. Other new-comers included the opossums and their kin, armadillos and theirs, hummingbirds, swoops, parrots, and the enigmatic torrent raptors . -Daniel Bensen The Great Black Swamp of Eastern North America Stretching 120 miles along the southern Lake Erie shore and extending 40 miles inland lies Great Black Swamp, a huge area of marshy, woody, boggy habitat known to few and studied by almost no one. Its forests are dark and maze-like and its deceptively solid-looking ground hides deep, black pools of stagnant water, which spawn clouds of mosquitoes to swarm through the dense, dark columns of towering trees. In RL, the Great Black Swamp was so abominable, that no human--not even the Native Americans who had lived in the area for thousands of years--dared to enter it until the late 1800s, when the swamp was drained and converted into farmland. As the Great Black Swamp had never been formally studied, its memory faded quickly, and we will never know what kinds of plants and animals may have dwelt within its depths. RL's Black Swamp has been lost forever, but its Specworld counterpart lives on, bridging the gap between universes to hint at what our own timeline's Great Black Swamp might have been like in its heyday. Ironically enough, the Great Black Swamp is one of the few places where biologists can study the Specworld version to speculate on Home-Earth's lost environments. The Great Black Swamp is a dynamic and forbidding environment. Water levels are constantly fluctuating, reaching a maximum depth in spring, rapidly plunging in early August, and filling again during the fall and winter. Even in late summer, the Great Black Swamp is not completely dry, however. The ground is saturated year-round and thick with black, smelly muck. Because of the the amount of biological detritus dissolved in it, the swamp's water is also fairly acidic, black with tannin from moldering leaves, and quite deadly to many organisms. As well as the acidity and water level changes, the aquatic animals of the Black Swamp must deal with extremely low levels dissolved oxygen, as is the case in many marshy environments. The water is stagnant, and there is little wind to mix atmospheric oxygen in. What little oxygen is released into the water via the photosynthetic labors of green algae is quickly gobbled up by bacterial colonies during their feeding frenzy upon the decaying swamp muck. During the winter, when the trees are bare, even the meager amounts of oxygen produced by the algae shrinks to nothing as the water ices over and light from above is cut off. As the snow melts in spring, the swamp floods to its maximum depth (never more than three meters). During this time, the swamp experiences a sudden flush of oxygen as aquatic plants quickly grow to take advantage of the first warm rays of sun, but the bacteria soon multiply to bring oxygen levels back down. As the trees overhead leaf out, pockets of shade spread to cover the soggy ground, and from late spring to early autumn, the Great Black Swamp earns its name. Across an area almost equal to that of Connecticut, hardly a ray of sunlight reaches the ground. The huge trees growing throughout the swamp create canopies upon canopies in an attempt to consume every bit of solar energy. The aquatic plants die in the months of darkness, and the bacteria die down and wait for the autumn, when the trees will drop their leaves. The harsh conditions of the Great Black Swamp have fueled the evolution of many strange creatures. Fish are the most common vertebrates of the swamp's waters, most belonging to the family Umbridae, related to the mudminnows of our home timeline. Umbrids first appear in fossil record in the Paleocene, and today have taken grabbed many of the niches reserved, in RL, for their cousins the pike. The reason for this switch from the RL standard is unknown, but in the Great Black Swamp, at least, the umbrids' advantage over the other salmoniforms is clear: they can breath. Umbrids get most of their oxygen, not from the choking, acidic waters of the swamp, but from the relatively fresh air above. This advantage has allowed the umbrids to dominate most niches in the Great Black Swamp. They range from small species resembling minnows and darters to large predatory species like the mudpike. In clearer water, umbrid diversity falls off, and in many of the streams of North America, they are replaced by their more familiar cousins, the trout. Another dominating force within the swamp are the trees, which are the originators of most of the biological material in the environment. The dormant tree species of the Great Black Swamp, and the most influential ecologically, are the endemic swamp-chestnuts (p-Castanea belli), part of the large radiation of Spec's North American p-Castanea species. P-C. belli can be found only on Spec, although some botanists argue that there may have been swamp chestnuts in RL, now destroyed along with that timeline's Great Black Swamp. The success of the swamp-chestnut tree is tied to its reproduction. Like their dry-land relatives, these trees produce countless billions of nuts each year, a strategy meant to overwhelm the other trees sharing their environment by sheer numbers. During the peak of the nut-glut (late September) there are simply too many nuts for the animals in the area to consume. Some animals try to save nuts in buried caches for later, sometimes forgetting to dig them up, and thereby helping to spread the trees. Other nuts simply get lost in the muck and germinate when conditions are right. Among the animals specialized to take advantage of this sudden bounty is the cracker-carp, a large stocky umbrid, resembling the true carp (order Cypriniformes). This large, slow-moving fish typically feeds on a variety mollusks and crustaceans, smashing through shells and exoskeletons with its powerful jaws. During nut-glut, the snails, freshwater clams, and crustaceans can breath a sigh of relief as the cracker-carp turns its attention to the nuts raining down from the trees. Cracker-carp eagerly swarm around the base of a fruiting tree, grasping the spiny nuts in their their powerful, beak-like mouths and bearing down to crush the nut's shell with a loud CRACK! These gluttonous fish are actually the principal limiting factor in the chestnut trees' expansion, as they eat far more nuts than any other animal. However, their very gluttony makes the cracker-carp vulnerable to predation, themselves. As they rise to the surface to grab a floating nut, many a cracker-carp has fallen prey to the snatching talons of a drak or mattiraptor. One of the cracker-carp’s usual prey items also exploits the abundance of food pouring from the trees, but the chestnut lobster is not always patient enough to wait for the chestnuts to fall on their own. This large crayfish will occasionally haul itself out of the murky water and clamber onto low tree branches, where it snips off bundles of immature chestnuts. After the nuts have fallen into the water, the crustacean (wary of flying predators) plunges in after them. The chestnut lobster's strong claws make short work of outer casing, and the little crustacean happily devours the nutritious goo inside. After finishing their meal, chestnut lobsters often carry around empty chestnut shells in a manner similar to hermit crabs. Various species of multituberculate have learned to harvest the food to be found in the trees of the swamp. Two of the most notable and frequently seen of these are the golden flying multi and the larger, more cryptic castor. The golden flying multi is an flamboyant relative of the eastern flying multi, which can also be found swamp during the chestnut season. The golden flying multi is slightly larger than its close relative, with thick, dense fur to ward of the cold and mosquitoes. Only the males are actually golden in color and are quite conspicuous in the dark swampy forest. As with the eastern flying multi, females golden multies typically raise only a single pup per year, inside some hollow tree. The flashy male acts as a decoy, luring predators away from the nest and gliding to safety before it is caught itself. The other common multi in the swamp is of an entirely different sort. Sightings of the castor have been reported since the first explorations of Spec, but since they are rare outside the swamp, the existence of these creatures has been a matter of some debate. Originally reported to be a beaver-like creature (the earliest sketches of the animal even inaccurately showed the animal with a flattened beaver-like tail), the castor (a relative of the digga-dumdum) is more like a muskrat or a nutria. Only the animal's hind legs are truly modified for its aquatic existence, being webbed and possessing a large claw on the first toe, used to anchor the animal while it nests in the trees. Castor nests are large, spherical structures made out of branches and leaves cemented by mud to the middle boughs of the swamp-chestnut trees. This behavior places the castors out the reach of ground-dwelling predators, and allows them to raise their young away from the wet. The multituberculates form only a fraction of the Great Black Swamp's mammalian diversity. Spiny hellrats are small weasle-like predators, one of two species of Erebusolens, a strange genus of the widespread order Insectivora, part of the widespread solenodont radiation. The spiny hellrat spends most of its time probing the muck with its long mobile snout for buried invertebrates, fishes, and other edibles. These vicious little predators also tackle snakes, and often sneak into the arboreal nests of multis to eat their young. Hellrats' sharp claws and toxic bite tend to ward off would-be predators. American harracks are also seasonally common in the swamp. The fall nut-glut attracts large numbers of these little dinosaurs, every harrack in Great Lakes region makes its way to the Great Black Swamp, where the uneven ground guarantees an absence of larger predators. During their stay, the harracks compete with and prey upon the local hellrats (which are quarter of the size of the little mattiraptors). Too avoid too much contact with the harrakcs, hellrats adopt a temporary semi-arboreal mode, which unfortunately brings them into competition with North America’s only pokemuriod: the not-a-coon. The not-a-coon is a recent addition to the Neartic fauna, arriving via the Bering land bridge during the Pleistocene. From their stronghold in western Canada, not-a-coons quickly spread across the entire continent. Like its close cousin, the pikachilla, the not-a-coon carries out a very raccoon-like existence, but their arboreal primate legacy allows not-a-coons to spend much of their time in the trees, out of the way of most predators. During most of the year, not-a-coons and hellrats eat similar foods, and so the little solenodonts would have a difficult time finding enough food in the trees. By the time the harracks arrive in the swamp, however, the not-a-coons are already gorging themselves on swamp-chestnuts, leaving the hellrats to dine on a carnivore's fare. Amphibians abound in the Great Black Swamp. The largest of these is the Eerie crocamander (arguably a sub-species of the great crocomander), which lacks the streamlined contours of others of its kind. From all over its body, the head in particular, sprout a variety of fleshy lobes, camouflage against the leaves that carpet the the swamp's bed. The Eerie crocamander does not lie dormant during the short “dry” period in summer, but merely buries enough of itself in the thick mud to lie in ambush, prepared to strike at any animal that comes within range. This crocamander is quite a bit more ambitious in its prey selection than most, with small dinosaurs a significant part of the menu. There have been some reports of humans being attacked as well, but the Eerie crocamander apparently has yet to develop a taste for rubber waders. Another large amphibian of the region is the balrog. This large species of frog resembles a ranid bull frog, but this resemblance is convergent, as ranids never evolved on Spec. Balrogs may grow to half a meter in size, and dine upon a variety of invertebrates and even small fishes and mammals. Lacking the extendable tongue of true ranids, balrogs instead catch their prey with their hands and then stuff the hapless creature into their mouths, which are wide and bristle with tiny teeth. The balrog's true classification still under investigation, as are other ranid-like species found across the globe. They seem to share many features with RL ranids, and current theory dictates that balrogs and their kin evolved in the Cenozoic from the same ancestor of Arel-ranids. The Great Black Swamp is a densly-packed web of life, as rich, in its way, as a coral reef, with thousands of species churning through their lives, redistributing energy up a vast pyramid of life. Our understanding of this swamp, of the biological intricacies that keep it running, is still very fragmentary. Entire groups of animals and plants no doubt still reside there, unknown to humans, waiting in the dampness and gloom, to be discovered. (Text by Clayton Bell and Daniel Bensen) The great North American desert stretches in Spec as it does in HE from the Rocky Mountains to the Sierra Nevada, encompassing the Arizonan, Sonoran, Mojave, and Chihuahuan desert, as well as the infamous Death Valley. While the Sahara remains a practically empty desert, the deserts of Spec's Western North America are home to countless animal species, including many unique forms of dinosaur. Colossal p-saguaro cacti cast long shadows as they stand, lone sentinels, in an arid world of sun and all-pervasive heat. They are flanked by ocotillos, paloverde, creosote bushes, and other hardy shrubs that exist in both timelines. The spines of barrel cactus and hedgehog cactus gleam golden in the rays of the morning sun. No plant here has evolved the same arsenal as can be found on the paintree or the death-thorn in such an unforgiving land, there is little to fear from large grazers. But animals do exist in here, and when the sun comes out, the day shift comes crawling, skittering, slithering, and hopping out of the ground. These are mostly small animals that revel in the sunlight, but which are driven back into their cool retreats as the sun reaches its zenith. One of the first out is the Swellsaur (Tetrodosaurus spinosus), a small iguana that has come to emulate the pufferfish's act. Usually found basking on rocks, the swellsaur instantly runs into a crevice when danger threatens. There it gulps in air, inflating its body and raising the stiff spines that normally lay flat on its body. When fully-inflated, it is almost inextractable. Accompanying the swellsaur are nimble drallocs (Bipedodraco sp.) and drazils (Callicursor sp.) that race on the dunes after small insects. Once the sun has heated up the earth sufficiently, the reptilian giants of the desert come forth. The Celestial Zallingersaur (Acanthozallingersaurus bonestelli) is one of these, a one-meter long lizard armed with six shoulder spikes and a tail bristling with barbs. Heaving out of its burrow, the lizard, bedecked in dark blue-black speckled with white dots, crawls out to feed on cactus blossoms, leaves, and the occasional small animal. He is a polyglyphanodontid, a member of an ancient lineage that survives today on Spec as several giant Zallingersaur species and far more burrowing, mole-like glyphons. Accompanying him on his vegetarian forays are other gentle giants: the Gopher Panzer (Geolorica rugosa) and the Tiger Tank (Striatochelys difficilis), both desert meiolaniids. Viriosaurs, the most common and widespread herbivores of the desert, are soon on their feet. They are active during the cooler hours of the day, resting under paloverde bushes when the sun grows too hot. The Mojave Viri (Viriosaurus aridophilus) is the prince of these viris. With an ornate-patterned tawny hide, these dinosaurs can be seen hopping around the desert in search of food. They rarely drink water; instead, most of their humidity is taken from prickly pears and other succulent cacti. Other viris include smaller Gray Viris (Viriosaurus minor) and tiny, dainty Brocket Viris (Merycoviriosaurus callipodus). On the other end of the scale, Spiny Vans (Aridovanguarda paiweiae) and Hoplite Vans (Aridovanguarda armatus) trundle across the plains like overgrown, spiky peccaries, digging up roots and foraging for plant matter. Hogbirds like the Yraccep (Tayassuornis priscus) and the Anilevaj (Tayassuornis mexicanus) are also common. Eventually, the largest animal of the desert appears, ambling sedately in search of greenery. It is a Rhamel (Sonoraonychus pallidus), a heat-loving ceronychid that thrives in the Great American desert. While the driest regions are the realm of viris, rhamels can subsist on meager nutrition for long periods at a time, storing nutrition in a fatty hump on the back. Its large claws are handy for safely slashing into cacti to get at the succulent pulp, but they also are use to delineate territory. Rhamel land can easily be noted by the gashes left in saguaros, made by the resident male. The gashes, incidentally, never seem to kill the cactus either the segno checks itself, or Spec's cacti have developed thick epidermises in response to such actions. Rhamels, like most other daytime animals, come out only during the cooler parts of the day. During the afternoon, they are forced to find some shade. Predators, too, come out during the day. Snakes are the rule, slithering across the flats with predatory intent. These include colubrids like the handsome Yellow Racer (Flavoserpens sonoriensis), Blue Streak (Agilireptophis azul), and Greased Lightnin' (Atercoluber lumina), all of which are fast predators of lizards and small mammals. Larger snakes prefer to sleep underground till nightfall, safe from the burning sun, with the exception being the Mesquite Boa (Arizonaboa mesquitei), which can be found hunting birds in creosote bushes and chollas. Mattiraptors stalk the desert like hungry coyotes, and are themselves stalked by occasional wandering draks. The daylight hours also see the appearance of Chucks (Toxicanalis sp.), ground-dwelling tweeties that have evolved along the lines of roadrunners. Unlike roadrunners, however, these unique birds have a sharp bill lined with a channel down either side. Venom glands at the base of the beak secrete tweety poison into the channels, from which it flows down to the tip of the beak. Chucks use this venom-channel system to easily dispatch their fleet-footed prey, and to dissuade potential predators. Meanwhile, high up in the endless sky, the feathered jackals soar: harpies, kronks, and horrows. Harpies are the dominant scavengers here, taking precedence at a carcass. Kronks, the southerly icevens, are omnivorous and opportunistic, and the horrows will dive at anything that moves. Endemic to the desert are Sponge-birds (Spongioplumia sp.), allocolumbids that carry water to their young in their chest feathers. They are preyed upon by Windlords (Avisaurus gwaihiri), golden-brown avisaurs that approximate HE's golden eagles. However, it is at night that the desert truly comes to life. The animals which enjoy the sun have retreated to the safety of their burrows, leaving the night shift free to appear. By day, most animals, fearing the power of the burning sun, hide in their burrows; by night, they emerge and go about their business. Xenotheridians peep cautiously out of their holes. They are preyed upon by practically every predator in the desert, and so a degree of vigilance is in order. Pack-xenos (Pararidorattus sp.) go around gathering dead matter and plants for their nest. White-footed unmice (Albapodamys sp.) hunt out small insects. Naked Sweat Mice (Sebaceomus vomitorius) are among the less savory of xenos; these nude, hairless unmice seem to be secreting a nauseous liquid from every pore and opening in the body, which gives them a foul stench and fouler taste, and renders their bald skin permanently wet and glistening. When directly attacked, a Naked Sweat Mouse will void the contents of its stomach at the attacker to further drive its point home. Despite this defense, unowls and ultravipers seem unfazed, and happily gobble sweat mice up. Viris, too, will come out at night. Several species are active during the morning hours and at dusk and the early portion of the night, sleeping in between. Such viris include the elusive Obsidian Viri (Viriosaurus ater), known only from scattered reports and one badly mangled carcass. All of these are preyed upon by the predators. Bat-eared Hoeks and other deltatheroids hunt the xenos. The Desert Brock (Proparameles deserticus) tunnels underground, hoping to find a sleeping daytime animal. Nimble, undersized Stripetailed Draks (Paraboreonychus arizonensis) seek out a variety of small beasts, and will gang up to take on viris. Reptiles also come out at night. The Z-shadow Lizard, a powerful heloderm, crawls sluggishly, confident in its venomous defense. The enormous Rubyback Viper (Paracrotalus adamanteus), a mighty desert ultraviper, also surges forth at this time. Skunkos, geckos, sausagetails, and many more all belong to the host of the dark. Beetles such as the Executioner (Cybridoscarabeus sinistrus) also crawl out; the Executioner in particular buries dung and carrion alike. There are scorpions, too, centipedes, and dinner-plate-sized spiders, the Shelob (Daspletotarantula tolkieni) and Aragog (Daspletotarantula rowlingsi). Both Daspletotarantula spiders are easy prey to the gleaming-blue Sting wasp (Arachnodestructor samwisei). However, the Shelob in particular has an ace up its sleeve: its own army of ants. The Sonoran desert is home to Mordorants (Mordormyrmecia terribilis), omnivorous mound-builders that will eat almost anything. Castes range from the tiny Goblins that scurry over the larger comrades, Orcs which carry out most menial tasks, and the massive-jawed Uruks that defend the colony and are recruited to finish off difficult prey. However, the Shelob circumvents all of this. If a Shelob encounters a Mordorant, it quickly flutters its palps against the ant's antennae, stimulating it to care for the much larger spider. The Shelob also exudes secretions from its abdomen that soothe ants and induce them to protect it. As a result, Shelobs may be found living happily in Mordorant nests, feeding on the eggs, larvae, and even adult ants in total impunity, while the hoodwinked ants protect it and bring food to its mouth. The biggest killer in the desert is the noble Sonoran Strider (Errosaurus saguarorex). Moving gracefully between cacti and scrub, it preys upon anything that cannot run away fast enough. Small draks and rubybacks are taken, as are the mammals which are run down or dug out of their nests. Nevertheless, the hardy strider will not disdain unmice it the opportunity presents itself. High over its head, above the flowering cereus and the yucca blossoms, bats flit, overshadowed by the Frilled Unowl (Peudobubo cristatus). Distinguished by an exceptionally prominent ruff, frilled unowls are the largest nocturnal desert birds, the equivalent of HE great horned and eagle owls. The desert can be a harsh and arid place, but to the animals that live there, it is home. And at no time is it more beautiful than during the brief rainy season, when the sudden downpour cues thousands upon thousands of hidden seeds to germinate. Then the desert blooms with glorious, colorful life, and, for a brief while at least, it looks like an earthly paradise. (Texts of -Emile Moacdieh) Spec's North America has a Great Lakes region that has some parallels to HE.Although the exact number of water bodies is disputed on HE, in Spec, five Bodies are recognized according to relative surface level above the Global Datum i.e. sea level and interconnecting direct flow to the St. Lawrence Seaway.Lake Superior,The Michigan-Huron-St. George's bay Lake Complex,Lake St. Clair,Lake Erie and Lake Ontario.The Great Black Forest Swamp has already briefly touched on this realm.Now we proceed to another aspect of the area that has a more bizarre parallel to HE, the Flame Forest. The remaining terrestrial predatory dinosaurs are tyrants such as the Wendigo (Paraerrosaurus marjanovici), a 1 m long strider weighing 15kgs and the Yarper (Errosaurus latransoides) and longer, but more light weight species of strider as well. The Yarper is known for hunting in a speckled dun and red ochre coat, it preys on the abundant Hy-O Dogbunny (Cynolepus minilaborispealeaus) which has a warning call of "hiiyye-O!" repeated in quick fashion seven times.Unwary young belch pigs may also end up down the strider's gullet. Snow honas have their southernmost range here, changing from solid red coats in summer to mottled red and white in winter. They are preyed upon by eastern draks and Shunka Warak'in (Contusisaurus rodloxi), 2 m long bruisers.The Paul Bunyan (Smilotyrannus billi mississippiensis) preys on the larger segnosaurs such as the Blue Babe (Kentroynx azulirhinus) and the ever present common trig (Seculasaurus vulgaris). The Mississippi Castle Ecosystem: The following is a collection of notes taken for an account of exploring Spec’s Mississippi River. Note: this paper is still in production and will not be released until some time in the near future. However, here is a brief sample of the findings. Part one: the Champs: The ruddy champ (Megagnathis paradoxis) fills the last niche one would expect a champsosaurid to fill: the role of shellfish-eater. The overbite which made the group so famously recognizable, has by now become little more than a vertical boss which the males use to engage in shoving matches during territorial disputes. One of the early suggestions for naming this species was Scuteoplatus, only for Spexplorers to remember that that name had not long beforehand been given to a Mississippi eutriconodont (Scuteoplatus wellsi, named in an obscure publication). But like their duckgong neighbors, the ruddys have to be on the alert for a champsosaurid that prefers more lively game, as of this publishing. While at first Spexplorers thought that Sapiengnathus hydroensis was two species -- one being a small, needle-snouted fish-eater; the other being a broad-snouted duckgong eater; preying on the chicks because taking on an adult would be a waste of time on behalf of the champsosaur. A closer examination revealed that these are actually one and the same species. Like the avisaurs, S.hydroensis fills different niches at different points in its life. Only the largest of the carnosaurs dare challenge this pack hunter on its turf. It may be that the presence of S.hydroensis has prevented hybodonts and other freshwater hunters from setting up shop in the Mississippi, and thereby allowing the existance of the ruddy champ. Part two: the eutriconodonts' circle: Scuteoplatus wellsi, named for the famous Briton, actually has no scutes on its body. Its fur coat, however, bears a pattern that gives the impression of scutes. The "plated rat" as some came to call this little predator, starts its territory wherever the champsasaurids can't reach, particularly in the denser forests and drier land -- though it doesn't go too far from the wet ground, as it does not fare well against draks and bruisers. Plated rats are moderately good climbers, their thumbless hands wrapping around all but the slenderest of branches as it goes in search of prey. In late spring, the trees along the Mississippi River resound with a little animals' attempt at a foghorn. It's sister species, Scuteoplatus bradburyi, has a similar call, though it bellows in the middle of spring. p.p1 {margin: 0.0px 0.0px 0.0px 0.0px; font: 12.0px Helvetica; color: #454545} p.p2 {margin: 0.0px 0.0px 0.0px 0.0px; font: 12.0px Helvetica; color: #454545; min-height: 14.0px} Among the creatures preyed upon by the Scuteoplatus, are Microloris gracilis, among the smallest of primates anywhere on Spec. Some Spexplorers argue that Microloris should be split, into one species that makes spherical nests out on the thinner branches, and one species that makes no nest.
|
![[RDF Data]](/fct/images/sw-rdf-blue.png)