Bootleg Thrive Forum Game Competition
Nov 29, 2017 5:36:12 GMT
blackink, GabrielGG, and 2 more like this
Post by mitobox on Nov 29, 2017 5:36:12 GMT
Round 19:
Event: N/A
Wiki Page: thrive.wikia.com/wiki/Game:_Bootleg_Thrive_Forum_Game_Competition
Player Species
Gravenis knytrium (TheGraveKnight)
Stronger Binding Agents: 5
The intercellular bonds of Gravenis knytrium have been strengthened thanks to a stronger binding agent.
Habitat: Open Ocean
Conservation Status: Least Concern
Gabrielus gabrielus (GabrielGG)
Just make an extra standard vote next round.
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Endangered
Draconia encrypta (Immortal_Dragon)
Skin Cells: 4
Two-End Tract: 5
Draconia encrypta has developed an outer layer of cells that keratinize into a protective, yet elastic covering.
In addition, colonies now sport tracts that run through their centers. The forward opening allows nutrient intake, while unwanted debris exits through the back opening.
Habitat: Open Ocean
Conservation Status: Least Concern
Dynamicus respire (evolution4weαk)
Bigger Colony: 3
Fix Colony: 4
Dynamicus respire has regained its ability to form multicellular colonies.
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Least Concern
Agentus non-failus (agenttine)
Pursuit Fins: 6
Mineral Ganglia: 3
Agentus non-failus has developed versatile fins that expend minimal energy when chasing down prey items, while still being strong enough to catch prey quickly.
These fins synergize with A. non-failus’s gripping mouthed and scent masking to make this species a formidable predator.
Habitat: Open Ocean
Conservation Status: Least Concern
Specium fractium (soundwave)
Signal Agent: 4
Bonding Agent: 3
Individual Specium fractium cells can now send out a chemical signal to one another, causing them to converge on the signal’s location.
Habitat: Open Ocean
Conservation Status: Least Concern
Dynamicus failicus (bigyihsuan)
Specialization: 5
Muscle Cells: 4
Colonies of Dynamicus failicus have restored their specialization capabilities, finally demonstrating the species’s new ocelli.
In addition, newly-evolved muscle cells now allows faster, more fluid movement (as opposed to rigidity due to the skeletal system).
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Least Concern
Gravenis sparkus (shiny)
Schooling/Swarming: 4
Cell Specialization (from A. non-failus: 2
Gravenis sparkus colonies have developed basic social behavior toward one another. They now travel in groups.
Habitat: Open Ocean
Conservation Status: Least Concern
Dynamicus camelopard (Lanky Giraffe)
Tail Muscle Cells: 4
More “Leaf” Cells: 6
Dynamicus camelopard has developed muscles in its colonies’ “tails,” allowing relatively swift swimming.
In addition, it has developed additional leaflike fin structures. Together, these appendages not only provide D. camelopard with light collection and hydrodynamic swimming, but also have some musculature of their own. In conjunction with the tail muscles, this species’s ability to evade predators has been vastly improved.
Habitat: Open Ocean, Southwest Coast
Conservation Status: Least Concern
Draconia antecedere (RoboTranic)
True Spine: 5
A Stolen Mutation: 3
Draconia antecedere has refined the spinal cord that originally emerged in D. showa. Segments consisting of bone cells now surround it, adding to its structural use while also preventing injuries.
However, the continued lack of function in its fins makes catching up to the now more mobile D. showa difficult.
Habitat: North Polar Ocean
Conservation Status: Vulnerable
Dynamicus showa (hirohito )
Worm Shape: 3
Basic Muscle System: 4
Dynamicus showa has developed muscle cells throughout its colonies. These first instances are used to wriggle the ovular colonies along, instrumental in avoiding D. antecedere.
Habitat: North Polar Ocean
Conservation Status: Least Concern
Draconia australis (aviscerator)
Fix Digestion: 6
Develop Nervous Center: 3
Draconia australis’s frontal spikes no longer inhibit nutrient intake. Instead, they now ring the mouth-like opening at the front, and have been reformed into proper teeth suitable for gripping and tearing smaller colonies (although not usually enough to puncture the skin of its relative, D. encrypta ).
Habitat: Open Ocean
Conservation Status: Least Concern
Dynamicus vitalis (vitagum)
Waste System: 4
Intestine: 3
A new bodily tract accompanies the esophagus of Dynamicus vitalis. This one is located at the rear, disposing of unwanted waste materials.
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Least Concern
Gabrielus nocturna (blackink)
Nervous Cells: 5
Elongate for Mobility: 6
Networks of nervous cells now secure and distribute information throughout Gabrielus nocturna colonies.
In addition, it has developed a longer body. This change is accompanied by muscle cells that work alongside the tentacles to allow fast swimming, with coordination greatly aided by the above muscle cells.
All things considered, its toothed jaws make it a faster, far less stealthy, but much stronger surface counterpart to A. non-failus.
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Vulnerable
NPC Species
Dynamicus combinare
When the northeast continent moved into cold waters, some D. respire and D. camelopard survived by evolving cold resistance. These two groups of survivors hybridized into this new species, which inherited most, if not all of its parent species' common traits.
Habitat: Northern Ocean Surface, Northeast Coast
Conservation Status: Vulnerable
Note: Event coming next turn.
Event: N/A
Wiki Page: thrive.wikia.com/wiki/Game:_Bootleg_Thrive_Forum_Game_Competition
Player Species
Gravenis knytrium (TheGraveKnight)
Stronger Binding Agents: 5
The intercellular bonds of Gravenis knytrium have been strengthened thanks to a stronger binding agent.
Habitat: Open Ocean
Conservation Status: Least Concern
Gabrielus gabrielus (GabrielGG)
Just make an extra standard vote next round.
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Endangered
Draconia encrypta (Immortal_Dragon)
Skin Cells: 4
Two-End Tract: 5
Draconia encrypta has developed an outer layer of cells that keratinize into a protective, yet elastic covering.
In addition, colonies now sport tracts that run through their centers. The forward opening allows nutrient intake, while unwanted debris exits through the back opening.
Habitat: Open Ocean
Conservation Status: Least Concern
Dynamicus respire (evolution4weαk)
Bigger Colony: 3
Fix Colony: 4
Dynamicus respire has regained its ability to form multicellular colonies.
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Least Concern
Agentus non-failus (agenttine)
Pursuit Fins: 6
Mineral Ganglia: 3
Agentus non-failus has developed versatile fins that expend minimal energy when chasing down prey items, while still being strong enough to catch prey quickly.
These fins synergize with A. non-failus’s gripping mouthed and scent masking to make this species a formidable predator.
Habitat: Open Ocean
Conservation Status: Least Concern
Specium fractium (soundwave)
Signal Agent: 4
Bonding Agent: 3
Individual Specium fractium cells can now send out a chemical signal to one another, causing them to converge on the signal’s location.
Habitat: Open Ocean
Conservation Status: Least Concern
Dynamicus failicus (bigyihsuan)
Specialization: 5
Muscle Cells: 4
Colonies of Dynamicus failicus have restored their specialization capabilities, finally demonstrating the species’s new ocelli.
In addition, newly-evolved muscle cells now allows faster, more fluid movement (as opposed to rigidity due to the skeletal system).
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Least Concern
Gravenis sparkus (shiny)
Schooling/Swarming: 4
Cell Specialization (from A. non-failus: 2
Gravenis sparkus colonies have developed basic social behavior toward one another. They now travel in groups.
Habitat: Open Ocean
Conservation Status: Least Concern
Dynamicus camelopard (Lanky Giraffe)
Tail Muscle Cells: 4
More “Leaf” Cells: 6
Dynamicus camelopard has developed muscles in its colonies’ “tails,” allowing relatively swift swimming.
In addition, it has developed additional leaflike fin structures. Together, these appendages not only provide D. camelopard with light collection and hydrodynamic swimming, but also have some musculature of their own. In conjunction with the tail muscles, this species’s ability to evade predators has been vastly improved.
Habitat: Open Ocean, Southwest Coast
Conservation Status: Least Concern
Draconia antecedere (RoboTranic)
True Spine: 5
A Stolen Mutation: 3
Draconia antecedere has refined the spinal cord that originally emerged in D. showa. Segments consisting of bone cells now surround it, adding to its structural use while also preventing injuries.
However, the continued lack of function in its fins makes catching up to the now more mobile D. showa difficult.
Habitat: North Polar Ocean
Conservation Status: Vulnerable
Dynamicus showa (hirohito )
Worm Shape: 3
Basic Muscle System: 4
Dynamicus showa has developed muscle cells throughout its colonies. These first instances are used to wriggle the ovular colonies along, instrumental in avoiding D. antecedere.
Habitat: North Polar Ocean
Conservation Status: Least Concern
Draconia australis (aviscerator)
Fix Digestion: 6
Develop Nervous Center: 3
Draconia australis’s frontal spikes no longer inhibit nutrient intake. Instead, they now ring the mouth-like opening at the front, and have been reformed into proper teeth suitable for gripping and tearing smaller colonies (although not usually enough to puncture the skin of its relative, D. encrypta ).
Habitat: Open Ocean
Conservation Status: Least Concern
Dynamicus vitalis (vitagum)
Waste System: 4
Intestine: 3
A new bodily tract accompanies the esophagus of Dynamicus vitalis. This one is located at the rear, disposing of unwanted waste materials.
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Least Concern
Gabrielus nocturna (blackink)
Nervous Cells: 5
Elongate for Mobility: 6
Networks of nervous cells now secure and distribute information throughout Gabrielus nocturna colonies.
In addition, it has developed a longer body. This change is accompanied by muscle cells that work alongside the tentacles to allow fast swimming, with coordination greatly aided by the above muscle cells.
All things considered, its toothed jaws make it a faster, far less stealthy, but much stronger surface counterpart to A. non-failus.
Habitat: Ocean Surface, Southwest Coast
Conservation Status: Vulnerable
NPC Species
Dynamicus combinare
When the northeast continent moved into cold waters, some D. respire and D. camelopard survived by evolving cold resistance. These two groups of survivors hybridized into this new species, which inherited most, if not all of its parent species' common traits.
Habitat: Northern Ocean Surface, Northeast Coast
Conservation Status: Vulnerable
Note: Event coming next turn.