Round 27Event: In 8 TurnsSLS: PaigeriusCephalization: 4=4 | Worse Than Expected
Description: This organism develops a loose but larger more complex system of nerves towards its "front" or one side of it. It essentially is like a very very basic and rudimentary brain which allows the organism to form a general sense of direction.
Past Adaptations:
Swim Bladder+
More Dense
Anti-Freeze
Flippers+
Tentacle-limbs+
Anus
Mouth
Circulatory System ++
Improved Immunity
Thermal Resistance
Spores
Intracellular Immune System
Nervous System
Elastic Rebar
Signal Agents
Intracellular Scaffolding
Mineralized Exoskeleton-
VGT
Flagella
Thermoplast
Mitochondria
Conservation Status:
VU
[SLOT OPEN][Frozen]Past Adaptations:
Thermotaxis
Muscles
Immune System
Tentacles
Nervous System
Binding Proteins
Focal Adhesion
Signal Agents
Hydrothermal Gas Consumption
Thermoplasts
Thermal Resistance
HGT
Flagella
Chemosynthesis
Mitochondria
Conservation Status:
EN
ThrecubusBetter Eyes: 2+4=6 | Better Than Expected
Description: This organism evolves very small and basic eyes. A small hole for allowing tiny amounts of light and a lens.. Not quite perfectly in focus forms over the cornea of the eye, it doesn't have a.. perfect.. retina yet but it can make out objects and shapes much clearer. (Keep in mind your still about the size of your thumb if not smaller so this is far from perfect.) To get a sense of what this creature sees like, imagining looking through a knothole in a fence, now imagine everythings black and white, now imagine you got some water splashed in your eye from the neighbor. That's kinda what it looks like.
Past Adaptations:
Tentacles
Flotation Sacs
Heat-Trapping Hairs
Thermal Resistance
Vibration Detection
Nervous System
Mouth
Intracellular Immune System
Binding Proteins
Signal Agents
Eye-Spots++
Cytotoxicity
Vacoules
Cup-Cilia
Weak Acid
Density+
Golgi Apparatus
Cilia
Lithiotrophy
Bio-luminescence
Conservation Status:
NT
joshthehawk(Well your spores are pretty much single cells and too small to have even eye-spots. But I will give them chemoreception as it is basically the only sense a single cell can get, that would really make a difference anyway.)
Spore Chemoreception: 2+3=5 | As Expected
Description: This organism's spores develop small receptors and signal transmitters to send and detect signals about the chemical make up of its environment.
Past Adaptations:
Spore Flagella
Less Dense
Thermal Resistance+
Dessication Resistance
UV resistance
Hibernation
Eye-Spots
Heat Resistance
Low Pressure Tolerance
VGT
Mycelium (Strg.)
Improved Immunity
Immune System
Spores+ (Dspr.)
Signal Agents
Detritivore
Binding Proteins
Vacoules
Golgi Apparatus
Cilia
Flagellum
Mitochondria
Conservation Status:
LC
Classy: Rockus UnicellularisSpecialized VGT: 2+2=4 | Worse Than Expected
(Yes I copy/pasted. It was easier than re-explaining)
Description: This species evolves the ability to release packets of DNA when in close proximity to another cell. They are transferred through the cellular layers in a special waste portal, seeking other packets to merge with. When in contact with another packet, they form a new diploid organism. However to maintains the ability to reproduce via the typical cellular mitosis when no other cells are present. The actual process of this is still a bit rough and every now and then leads to flooding of the "airlock shell" this cell has devised but it for the most part works.
Past Adaptations:
Airlock Feeding System
High Temperature Eating
Pressure Resistance++
Thermal Resistance++++
Signal Agents
Total Oxygen Independence
Carbon Dioxide Dependence
Cup-Cilia
Weak Acid
Density+
Golgi Apparatus
Cilia
Lithiotrophy
Conservation Status:
NT
moopli[Frozen]Description:
Past Adaptations:
Water Sucking Tentacles
Stress Joint
Spore Muscles
Fractal Skeleton
Kelp Leaves
Immune Cells
Immune System+
Nervous System
Elastic Rebar
Signal Agents
Intracellular Scaffolding
Circulatory System+
Mineralized Exoskeleta
VGT
Extra-cellular Matrix
Flagella
Thermoplast
Mitochondria
Conservation Status:
NT
GabrielGG(No you need a way to exchange gasses. Everything else is good, until you'll need to move around. And also no, you may revert an adaptation but it will cost you that turn and you roll as if a regular turn.)
Description:
Past Adaptations:
Fat
Sensory Deprivation
Cephalization
Endoskeleton
Depth Control
Less Dense
UV Resistance
Nervous System
Desiccative Shell
Low Pressure Tolerance
VGT
Binding Proteins
Thermal Resistance+
Signal Agents
Total Oxygen Independence
Carbon Dioxide Dependence
Cup-Cilia
Weak Acid
Density+
Golgi Apparatus
Cilia
Lithiotrophy
Conservation Status
NT
Doc: RavenclawMagnetoception: 2+3=5 | As Expected
Sex Vote: Dessication resistance: 4 | Nothing
Description: This organism evolves magnetoception allowing it to align itself and follow the course of the planets natural magnetic force. Or just use it to navigate.
Past Adaptations:
Anti-Freeze Protein
Chromatophores+
Scales
Muscles
Nublets
Respiratory System
Notochord
Circulatory System
Actual Viruses
Viral Parasites
Endomoopliparasitism
Mouth
Nervous System
VGT
Binding Proteins
Signal Agents
Lysosomes
Phagocytosis
ER
Caveolae
Mitochondria
Conservation Status:
VU
Quests:-First To Rise Above Ice: By this I mean, you don't really need to leave the ocean, just expand on top of the ice, or onto land, however keep in mind the fact that you will need to protect yourself from not only the UV rays, or drying out, but also the cold, the lower pressure, and a way to exchange ges with the environment, also its not required but a way to preserve energy (fat maybe?) would be hugely beneficial as food on a frozen ice sheet tends to be few and far between.
-First To 5 Senses: For this they can be any 5 senses we know of, from the simple seeing, or smelling, to more complex ones such as electroreception or magnetoception.
Notes:-An important news post is up regarding the turns and the holiday season, if you haven't already read it go check it out.
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