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Post by DonaldCengXiongAzuma on Nov 18, 2019 18:22:28 GMT 5
Green eyed polar bear.
Status: They have similar size and weights with the original polar bear but after they were commanded by Artos H Verde to merge with human bodies, their eyes and tongue became green due to the fact they choose green eyed, red head, and fair skin human bodies to merged with. They were also nicknamed green polar bears by Artos H Verde due to the fact their fur became green during the summer due to algae and their fur remained green especially after they moved out of their original habitat. Males are generally 30% larger than females in their bear form.
Green eyed polar bears look just like original polar bears and have the same strength. However, they can turn into humans with red heads and green eyes and fair skin whenever they choose to (which they do most of the time except during combat mode). Some of the green eyed polar bears have even learned to utilize their bear strength in human form, therefore, they are able to beat animals the same weight and size in their human form but they still need to turn into their green eyed bear form when fighting a similar size brown bear and other large powerful predators and large powerful primates such as silverback gorillas. In human form, they do not have the weapons or size to kill a gorilla.
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Post by DonaldCengXiongAzuma on Dec 6, 2019 7:14:27 GMT 5
 Emerald bears fighting. |
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Post by DonaldCengXiongAzuma on Dec 12, 2019 12:55:52 GMT 5
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Post by dinosauria101 on Dec 13, 2019 3:57:01 GMT 5
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Post by DonaldCengXiongAzuma on Dec 13, 2019 6:30:16 GMT 5
Go ahead and include it. The green eyed polar bear has all the qualities of a natural polar bear except it is more adaptable to climate change and has a human body form. Please feel free to include it in a battle royale request anytime you like. |
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Post by Infinity Blade on Jan 17, 2020 23:16:57 GMT 5
I randomly thought of this when looking up speculative dinosaurs again.
Knechtosaurus americanum (“American knight lizard”) Phylogeny: Knechtosauridae ( Tyrannosauroidea) Distribution: all across United States (except Alaska and Hawaii), some range within Mexico and Canada Temporal range: ~2.1 million years ago to present Size: ~1,100 kilograms in body mass (not the largest member of its genus/family) Evidence suggests that 66 million years ago a massive impactor (either asteroid or comet) impacted a deep ocean of the Earth. Although the blast was enormous, the site was not particularly rich in hydrocarbons, which appears to have minimized the effect the impactor had on the Earth->. The consequences of such an impact remain unknown and hypothetical. Earth had entered a new era, the Cenozoic, but the planet’s fauna lived and evolved onward as usual. Throughout the early Cenozoic, the tyrannosaurid family of theropods evolved to have increasingly more powerful jaw and neck muscles relative to their body mass. These developments came at the cost of the relative size of the forelimbs, which already had a reduced function in predation in the tyrannosaurids of the Late Cretaceous. More area of the shoulder muscles gave way to neck musculature, and the forelimb elements became increasingly more atrophied. In an unusual twist, however, the forelimb elements did not go away entirely. Rather, they merely became embedded within the soft tissues of the pectoral region. The arm bones, the carpals, and the phalanges all became fused into a single, extremely stout mass of bone fused to where the glenoid fossa once was. The two functional digits became thick, wide bases, becoming fused to the ungual phalanges. And these ungual phalanges, once fulfilling a reduced grasping function, evolved into weapons arguably more cruel and nefarious than they had ever been in the history of the Tyrannosauroidea. Enter Knechtosaurus americanum. This dinosaur’s most distinctive feature are the two 1.5 meter long bicarinate spikes on each side of its pectoral region (giving it four spikes in total). These spikes are actually highly derived ungual phalanges, developing from the two remaining functional claws of the tyrannosaurids. These theropods additionally possess increased neck muscle mass, jaw adductor mass, and increasingly more robust skulls and teeth in comparison to their tyrannosaurid ancestors. The torso has become shorter, although it still retains some lateral flexibility. To accomodate the somewhat increased mass up front caused by the spikes, the leg musculature has proportionately increased (such that the ilium is now as proportionately as long as in Home Earth's ratites), as has the size of the tail and its muscles (these also adding significantly to its speed). The hindlimbs have otherwise remained proportioned for speed and agility as in their tyrannosaurid ancestors, with sharp and gently-curved claws on each toe. Though the mouth and foot claws of knechtosaurids remain weapons, their pectoral spikes are undoubtedly the most striking and unusual part of their armament. The spikes of Knechtosaurus and its kin function as stabbing and impaling weapons against prey and as weapons for intraspecific conflict. While two rival knechtosaurids may lock their pectoral spikes together to wrestle with, the spikes are built to withstand a full speed charge at other large animals. It is from here where the knechtosaurids get their name, charging and impaling prey and enemies like a mounted knight armed with a lance. Providing further protection to the pectoral region is a very thick ossified sternum covered in a thick sheath of keratin, acting as a ram between the spikes on both sides of the body. The ~1.1 tonne Knechtosaurus americanum can run at speeds of up to 18 meters per second (~40 miles per hour); larger species weighing as much as Home Earth's African bush elephants cannot run nearly as fast, but possess far more mass in their charge. The skin of Knechtosaurus is covered by small osteoderms densely packed together in thickened, yet flexible skin. These small osteoderms function like maille armor to provide some degree of protection from intraspecific bouts with conspecifics, further adding to the knight comparison. With long spikes protruding from their pectoral region, it is perhaps needless to say that the knechtosaurids and their similar extinct relatives have run into a problem when feeding and drinking. Luckily, the proportionately large neck not only provides enough reach to bend the neck down to feed and drink, but the vertebrae are surprisingly flexible for such a muscular structure. When feeding or drinking, knechtosaurids direct their necks and heads almost completely vertically downwards so that the spikes do not interfere. |
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Post by dinosauria101 on Mar 18, 2020 0:56:33 GMT 5
Wrecking Ball
-An Ankylosaurus
-Weighs 14 tonnes
-Enjoys demolishing things with its club
-Has killed 12 Tyrannosaurus and 6 Triceratops by beating them up
-Once it has its club facing a foe, it cannot be bypassed
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Post by DonaldCengXiongAzuma on Mar 18, 2020 2:49:41 GMT 5
Wrecking Ball -An Ankylosaurus -Weighs 14 tonnes -Enjoys demolishing things with its club -Has killed 12 Tyrannosaurus and 6 Triceratops by beating them up -Once it has its club facing a foe, it cannot be bypassed What planet is Wrecking Ball on? |
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Post by dinosauria101 on Mar 18, 2020 3:19:14 GMT 5
Earth, so far
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Post by DonaldCengXiongAzuma on Mar 18, 2020 5:33:36 GMT 5
Cool. I will be waiting for a story. |
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Post by dinosauria101 on Mar 18, 2020 7:27:19 GMT 5
I'll think up one sooner or later.
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Post by Infinity Blade on Mar 18, 2020 9:23:01 GMT 5
Not as good as my first one here, but just wanted to see where I could go with a bird becoming a gigantic apex predator. Giant horntooth ( Megatherovenator revenitus; “comeback big beast hunter”) Phylogeny: Phoneornithidae ( Phoneornithiformes) Distribution: large expanses of Africa, Eurasia, Australia, and North America ( link->Temporal range: 45-50 million CE Size: 8,000 to 10,000 kg In the first half of the Cenozoic, there were herbivorous mammals on land that reached truly tremendous sizes. These could weigh many tonnes, and vastly outweighed virtually all contemporaneous predators. As such, adults were extremely well protected from predation, if not outright immune to it. After the Anthropocene had ended and humanity’s stranglehold on the natural world loosened, megaherbivores were once again allowed to evolve even after older ones succumbed to the environmental degradation caused by Homo sapiens. And so once again, megaherbivores enjoyed a level of safety from the new predators. But that was before the giant horntooth. In the last 20 million years, a family of terrestrial birds had evolved hyper carnivorous habits and were somehow able to evolve to rather respectable sizes. 5 million years ago, a truly dreadful form evolved from this family, the giant horntooth. This monstrous carnivorous bird and its kin seem to signal a return of the gigantic carnivorous theropod dinosaurs. With its immense size and complex hunting group hunting behaviors, all megaherbivores faced a daunting challenge to their continued existence. Those megaherbivores that were too poorly armed, too solitary and likewise insufficiently large, insufficiently armored, among other reasons, were literally eaten to extinction by this horrific predator and its almost horde-like packs. Those that weathered out the pressure from its predation were those that evolved extreme adaptations in response to it. The caudal vertebrae count has greatly increased, and these vertebrae and the pygostyle have increased in overall size, being particularly heavy bones. This has alleviated much of the pressure on the femur to be inclined in a very horizontal or sub-horizontal position, and the animal now sort of resembles the non-avian theropods of old. The locomotor muscles still don’t attach to the tail like they did in Mesozoic theropods, however, and the hip and thigh muscles all attach to the ilium like they do in other birds. These muscles are exceptionally large for a creature this size, allowing the giant horntooth to run relatively fast at this size (~18 mph) and to effectively retain stability and outmuscle large prey while struggling with it. The neck is shaped like a tyrannosaurid’s, being relatively abbreviated and extremely thick muscular. But, while this bird has some rather sharp claws on its heavy feet that it can use to kick with to an extent, it’s the 1.5+ meter skull that is the most terrifying weapon on this animal. The beak has become a wide, blunt-tipped, and rather deep structure, with tooth-like projections from the margins of the teeth. These pseudo-teeth are similar in size and shape to the front horn of a white rhinoceros, except that they have smooth cutting edges on the mesial and distal margins. Because of the relatively shorter rostrum and larger “teeth” than in Mesozoic theropods, the “tooth count” for the bird is relatively low. But there are, of course, a sufficient number of horn-like pseudo-teeth to kill prey with. The back of the skull is exceptionally wide and deep, with the proximal end of the lower jaw being very deep. This allows for the attachment of prodigiously large adductor muscles, giving the giant horntooth an exceptionally powerful bite for its size. An animal bitten by this bird will essentially feel like it will have several horns all coming together goring it. While feathers still exist on the bird’s body, it has had to combat the problems of thermoregulation. Among other adaptations, the head and neck are relatively bare with folded, baggy (albeit also thick) skin, as are the hindlimbs, as in an ostrich. |
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