@zenzonegaming you’re the only one left.
2 iron protiens.
2 cytoplasm.
So my pc finally connected to the internet, i don’t know why it didn’t want to, but it’s connected now.
10 Million Years pass
Non-Playable Species
A new species splits from Lukaria.
It’s called NPLukaria
It evolves 4 cytoplasms and 2 nitrogenase
Ostronada
Ostronada migrates to the bathypelagic zone
The resources of the bathypelagic are lower, so the Ostronada can’t make the necessary ATP for it’s survival
Ostronada Population decreases
The new thykaloid gives the Ostronada the ability to photosyntetize, but there’s no sunlight in the bathypelagic
LUCAS
LUCAS evolves more iron chemosinthetic organelles, but it isn’t enough
LUCAS population decreases
Lukaria
Lukaria evolves so much ATP generating organelles that it generates almost two times the ATP that it uses
PUKLA
PUKLA splits from LUCA
The new thykaloid gives PUKLA the ability to photosyntetize, but in the hydrothermal vents there’s no sunlight
Summary
LUCAS and Ostronada are still dying
Ostronada moves to the bathypelagic, but there’s less resources
PUKLA splits from LUCA
NPLukaria is the first NPS of Rodlaria
Lukaria generates almost two times the ATP it produces
Lukaria is still the most successful species of Rodlaria
Ostronada Evo Points: 9
LUCAS Evo Points: 8
Lukaria Evo Points: 8
PUKLA Evo Points: 5
Extinct Species
LUCA goes extinct because other species are more efficient in using the resources of the enviroment
New Ideas
Making ATP a number instead of a bar
Next Disaster: Gamma Ray Burst. Next turn everyone will have 10 extra Evo Points, but will decrease in population
Some things i suggest spending your Evo Points on
Cytoplasms give 5% health, cost 1 Evo Point and use 1 ATP
create a new species called Ocadria, it evolved from ostronada.
Ocadria:
- add 4 nitrogenase 8EP
- add 2 iron chemosyntethic Proteins 6EP
- add 5 Glycosome 5EP
Ostronada:
- migrate to mesopelagic 3 EP
- add 3 thykaloids 12EP
- add 2 sulphur chemosynthetic proteins 4EP
this is to help remove the pain of scrolling:
Organelles
Cytoplasm | Cost: 1 Evo Point | 1 ATP
Increases your cell health by 5%
Iron Chemosyntethic Protein | Cost: 3 Evo Points
Lets you make 1 ATP from 2% Iron
Nitrogenase | Cost: 2 Evo Points
Lets you make 1 ATP from 4% Nitrogen
Metabolosome | Cost: 4 Evo Point
Lets you make 1 ATP from 3% Glucose and 5% Oxygen
Glycosome | Cost: 1 Evo point
Lets you make 1 ATP from 100 Glucose
Sulphur Chemosynthetic Protein | Cost: 2 Evo Point
Lets you make 1 ATP from 2% Sulphur
Thykaloid | Cost: 4 Evo Points
Lets you make 1 ATP from 7% CO2 and 10% Sunlight
Plasmid | Cost: 5 Evo Points | 10 ATP
Gives you 3 extra Evo Points every turn
Cell Wall | Cost: 2 Evo Points | 3 ATP
Increases your defense by 2%
Vacuole | Cost: 2 Evo Points | 4 ATP
Lets you store Evo Points
Flagella | Cost: 4 Evo Points | 3 ATP
Increases your speed by 3%
Predatory Pilus | Cost: 3 Evo Points | 2 ATP
Increases your attack by 2%
Sexual Pilus | Cost: 3 Evo Points | 2 ATP
Gives you 1 extra Evo Point each turn
Toxin 1 | Cost: 3 Evo Points | 2 ATP
Increases your attack by 4%
Toxin 2 | Cost: 5 Evo Points | 4 ATP
Increases your attack by 6%
Nucleus | Cost: 10 Evo Points | 20 ATP
Unlocks more organelles
Removing any organelle costs 2 Evo Points
I see that you’re using 9 Evo Points for both species, but every species has 10 extra Evo Points, so you still have 10 Evo Points to use.
It’s just for this turn but it will give a boost to all players.
done, i added more stuff, anyways, can you make a map of the planet?
Lukaria:
2 cytoplasm left of metabolosome
A nucleus at the front
3 nitrogenase at front ahead of nucleus
PUKLA:
Move to Mesopelagic zone
Rest for thylakoids
What do you use to make your evolutionary tree?
cell walls are expensive ATP-wise, are you sure you should add 4 of them? Pukla has only one thykaloid. and in the bathypelagic there is no sunlight.
You might have fixed it but there is no sunlight in The Bathypelagic!
I know that, but hopefully I can reach sunlight before I go extinct
You can spend another 3 EP to get to the mesopelagic you know…
So pukla could spend 6EP to move and 8EP for thykaloids. BTW you don’t need a cell wall, i’m not gonna hunt you anytime soon.
Can we start creating unique behaviors and such?
6 Nitrogenase.
another advanced toxin so i can be a good little hunter.
1 Cytoplasm.
I don’t know what you mean, could you explain that?
4 hours to make this, this is taking longer every time. This is why we need automation
10 Million Years Pass
New Organelle List
Prokaryote
Cytoplasm | Cost: 1 Evo Point | 1 ATP
Increases your cell health by 5%
Iron Chemosyntethic Protein | Cost: 3 Evo Points
Lets you make 1 ATP from 2% Iron
Nitrogenase | Cost: 2 Evo Points
Lets you make 1 ATP from 4% Nitrogen
Metabolosome | Cost: 4 Evo Point
Lets you make 1 ATP from 70 Glucose and 5% Oxygen
Glycosome | Cost: 1 Evo point
Lets you make 1 ATP from 100 Glucose
Sulphur Chemosynthetic Protein | Cost: 2 Evo Point
Lets you make 1 ATP from 2% Sulphur
Thykaloid | Cost: 4 Evo Points
Lets you make 1 ATP from 7% CO2 and 10% Sunlight
Plasmid | Cost: 5 Evo Points | 10 ATP
Gives you 3 extra Evo Points every turn
Cell Wall | Cost: 2 Evo Points | 3 ATP
Increases your defense by 2%
Vacuole | Cost: 2 Evo Points | 4 ATP
Lets you store Evo Points
Flagella | Cost: 4 Evo Points | 3 ATP
Increases your speed by 3%
Predatory Pilus | Cost: 3 Evo Points | 2 ATP
Increases your attack by 2%
Sexual Pilus | Cost: 3 Evo Points | 2 ATP
Gives you 1 extra Evo Point each turn
Toxin 1 | Cost: 3 Evo Points | 2 ATP
Increases your attack by 4%
Toxin 2 | Cost: 5 Evo Points | 4 ATP
Increases your attack by 6%
Nucleus | Cost: 10 Evo Points | 20 ATP
Unlocks more organelles
Eukaryote
Cell Wall 2 | Cost: 8 Evo Points | 7 ATP
Increases your cell defense by 10%
Chloroplast | Cost: 7 Evo Points
Lets you do 4 ATP from 7% CO2 and 10% Sunlight
Cilia | Cost: 7 Evo Points | 10 ATP
Increases your cell speed by 12%
Hydogenosome | Cost: 1 Evo Points
Lets you do 1 ATP from 3% hydrogen
Lysosome | Cost: 5 Evo Points
Let’s you digest other cells (Increases your ATP half of the predated species)
Melanosome | Cost: 2 Evo Points | 3 ATP
Protects your species from UV light
Mitochondrion | Cost: 1 Evo Points
Lets you make 3 ATP from 70 glucose and 5% oxygen
Toxin 3 | Cost: 7 Evo Points | 8 ATP
Increases your attack by 10%
Removing any organelle costs 2 Evo Points
Species
@TeaKing
@OoferDoofer
@zenzonegaming
LUCAS
The Gamma Ray almost kills all of the LUCAS, but a small population survives
The Gamma Ray makes LUCAS mutate faster, and thid gives LUCAS many Nitrogenase, now it produces more ATP that it needs
LUCAS population increases
LUCAS won’t go extint in long if it stays like this
Lukaria
Lukaria evolves a nucleus, giving it access to more organelles
Lukaria is the most successful species of Rodlaria, but LUCAS is catching up
PUKLA
PUKLA migrates to the mesopelagic zone, where it’s thykaloids can photosyntetize
PUKLA becomes cyanobacteria
Ostronada
Ostronada migrates to the mesopelagic zone, where it’s thykaloids can photosyntesize
The Gamma Ray almost kills all the Ostronadas, but a small group survives.
The thykaloids now produce more ATP than they need.
Ostronada population increases
Ocadria
Ocadria splits from Ostronada
The Gamma Ray kills most of the Ocadria, but a small group survives
Ocadria evolves many nitrogenase and glycosomes, saving it from extinction
NPLukaria
NPLukaria evolves many Nitrogenase and becomes the third most successful species of Rodlaria
Summary
LUCAS makes the biggest comeback of Rodlaria
Lukaria won’t go out of the first place
NPLukaria is the third place of Rodlaria
PUKLA and Ostronada want to make the great oxygenation
Ocadria splits from Ostronada
New Ideas
With the Oofer idea of behaviour i could do this idea. Agents
More organelles i suggest spending your Evo Points on
Cytoplasm actually gives you more health and is cheap
Of you’re closer to the bottom of the ocean Hydrogen is very useful
Next Disaster: Alien Encounter. Next turn aliens will come to Rodlaria
I mean like choosing to predate/ not predate certain species, form clusters etc.
For example, lukaria not attacking Pukla cells
That would work really well!
I could maybe help with it if you wanted