Intermediates (Now Open)

There are three tied options for the moon name thus far…

@JustaDumbThriver, are you planning to vote on the other polls?

Are these polls mandatory?

Yes, unless someone says they don’t want to vote on them, or someone cannot vote in them in reasonable timeframe since he/she/them have other things going on (which is understandable). The FG relies on the participation of everyone involved, not just the OP.

When should we expect the round two of the moon name vote?

No, not really. I’m too lazy.

Will the moon name choicehave deeper impact on the FG than we can presume by default?

@JustaDumbThriver @aah31415 @CatSquared @Cha @doomlightning @Rocketsgobrrrr

List of Extant Species:

1. Enakerbalia jebus archea (Mutant 46) – JustaDumbThriver
2. Nararustic amon (Ecotype 96)
3. Promardial refreshae (Ecotype 86)
4. Melasmin supermelo (Species 91) – aah31415
5. Perbalancea dudopsi (Species 82) – Cha
6. Burnillo hydro (Species 70)
7. Chemotillo melanocookie (Species 64) – Rocketsgobrrrr
8. Fluorestrillo irono (Species 53) – CatSquared
9. Detoxeto apprehesu (Species 50) – doomlightning

List of Organisms per Niche per Inhabited Biome before moving:

Cablevenian Tidepool

Glucose – Perbalancea genera, Perbalancea dudopsi (Species 82) – Cha.

Photosynthesis (Glucose Light) – Perbalancea genera, Perbalancea dudopsi (Species 82) – Cha.

Melanokoids (UV Light) – Melasmin genera, Melasmin supermelo (Species 91) – aah31415.

Proteorhodopsin (ATP Light) – Perbalancea genera, Perbalancea dudopsi (Species 82) – Cha.

Heat – N/A.

Predation – Fluorestrillo genera, Fluorestrillo irono (Species 53) – CatSquared.

Iron Chunks – Orthellosu genera, Heregamblerobacterkoinos species, Nararustic lineage, Nararustic amon (Ecotype 96).

Membrane – Orthellosu genera, Heregamblerobacterkoinos species, Nararustic lineage, Enakerbalia jebus archea (Mutant 46) – JustaDumbThriver.

Behavior – Fluorestrillo genera, Fluorestrillo irono (Species 53) – CatSquared.

Reproduction Order – Orthellosu genera, Heregamblerobacterkoinos species, Nararustic lineage, Enakerbalia jebus archea (Mutant 46) – JustaDumbThriver.

Tolerance – Fluorestrillo genera, Fluorestrillo irono (Species 53) – CatSquared.

Banana Biome

Glucose – Burnillo genera, Burnillo hydro (Species 70).

Photosynthesis (Glucose Light) – Detoxeto genera, Detoxeto apprehesu (Species 50) – doomlightning.

Melanokoids (UV Light) – Chemotillo genera, Chemotillo melanocookie (Species 64) – Rocketsgobrrrr.

Proteorhodopsin (ATP Light) – Burnillo genera, Burnillo hydro (Species 70).

Heat – Burnillo genera, Burnillo hydro (Species 70).

Predation – Chemotillo genera, Chemotillo melanocookie (Species 64) – Rocketsgobrrrr.

Iron Chunks – N/A.

Membrane – Chemotillo genera, Chemotillo melanocookie (Species 64) – Rocketsgobrrrr.

Behavior – Detoxeto genera, Detoxeto apprehesu (Species 50) – doomlightning.

Reproduction Order – N/A.

Tolerance – N/A.

Unovaskysian Epipelagic

Glucose – Prometa genera, atmos species, Promardial lineage, Promardial refreshae (Ecotype 86).

Photosynthesis (Glucose Light) – N/A.

Melanokoids (UV Light) – N/A.

Proteorhodopsin (ATP Light) – Prometa genera, atmos species, Promardial lineage, Promardial refreshae (Ecotype 86).

Heat – N/A.

Predation – N/A.

Membrane – Prometa genera, atmos species, Promardial lineage, Promardial refreshae (Ecotype 86).

Behavior – Prometa genera, atmos species, Promardial lineage, Promardial refreshae (Ecotype 86).

Reproduction Order – Prometa genera, atmos species, Promardial lineage, Promardial refreshae (Ecotype 86).

Tolerance – Prometa genera, atmos species, Promardial lineage, Promardial refreshae (Ecotype 86).

List of Organisms per Biome after moving:

Cablevenian Tidepool

Players:

Enakerbalia jebus archea (Mutant 46) – JustaDumbThriver, Melasmin supermelo (Species 91) – aah31415, Perbalancea dudopsi (Species 82) – Cha, and Fluorestrillo irono (Species 53) – CatSquared.

Banana Biome

Players:

Burnillo hydro (Species 70), Chemotillo melanocookie (Species 64) – Rocketsgobrrrr, and Detoxeto apprehesu (Species 50) – doomlightning.

Cablevenian Estuary

Players:

Promardial refreshae (Ecotype 86).

Cablevenian Underwater cave

Players:

Nararustic amon (Ecotype 96).

Baszergatic Epipelagic

Players:

N/A.

Unovaskysian Epipelagic

Players:

N/A.

List of Interactions per Biome:

Cablevenian Tidepool

1. Enakerbalia jebus archea (Mutant 46) – JustaDumbThriver (yes – [1] Melasmin supermelo (Species 91) – aah31415).
2. Melasmin supermelo (Species 91) – aah31415 (yes – [1] Perbalancea dudopsi (Species 82) – Cha).
3. Perbalancea dudopsi (Species 82) – Cha (yes – [1] Melasmin supermelo (Species 91) – aah31415).
4. Fluorestrillo irono (Species 53) – CatSquared (none).

Banana Biome

1. Burnillo hydro (Species 70) (none).
2. Chemotillo melanocookie (Species 64) – Rocketsgobrrrr (yes – [2] Burnillo hydro (Species 70), and Detoxeto apprehesu (Species 50) – doomlightning).
3. Detoxeto apprehesu (Species 50) – doomlightning (yes – [2] Burnillo hydro (Species 70), and Chemotillo melanocookie (Species 64)).

Cablevenian Estuary

1. Promardial refreshae (Ecotype 86) (none).

Cablevenian Underwater cave

1. Nararustic amon (Ecotype 96) (none).

Baszergatic Epipelagic

N/A.

Unovaskysian Epipelagic

N/A.

Notes:

Note 1 – I will try to finish Turn 11 by the end of Memorial Day weekend.

And when is that weekend? (I think it could be better to use solid date numbers in cases like this)

@JustaDumbThriver @aah31415 @CatSquared @Cha @doomlightning @Rocketsgobrrrr

Sorry about taking so long for this Turn. I became this sick week.

Turn 11

Turn 11 Summary:

775 Million Years after the formation of the Phyade I system, life of the Thrivium taxonomic Order survived the First Great Plume Eruptions on Treerilia. Those organisms that survived gained a new ability: Passive Reproduction, where they slowly accumulate Ammonia and Phosphate from the environment. Due to player intervention, the species that survived were more diverse than normal. However, it did not come without cost. Many species became extinct simply due to niche extinctions, and many of these burgeoning organisms did not survive the Komatiite inferno.

As the surface of Treerilia changed, the land became shifted and lifted, connecting and disconnecting the world in new ways. New coasts and estuaries eroded from new lands. The Yrinian Epipelagic had been created, and it was now passable through the Cablevenian Estuary. Also, the Bazergatic Epipelagic and Unovaskysian Epipelagic biomes had switched places.

Due to the Plume Eruptions, the Bazergatic Epipelagic had greater air pressure than before. This was not the only change in gasses for biomes. The Unovaskysian Epipelagic, which had some oxygen before the First Great Plume Eruptions, had lost almost all of it. This oxygen appeared to be shuttled, as the Cablevenian Estuary and Cablevenian Underwater cave subsequently gained oxygen, especially the Cablevenian Estuary.

Beneath the Yrinian Ocean, during the First Great Plume Eruptions, the Yrinian Volcanic Vent had erupted Hydrogen Sulfide and Carbon Dioxide. And on the other side of Treerilia, a previously unknown meteor impact occurred in the Rikystasean Ice Shelf before the First Great Plume Eruptions, bringing more Phosphates to the icy North Pole. At this point, the Bazergatic Volcanic Vent was erupting Hydrogen Sulfide and CO2.

Cablevenian Tidepool

Enakerbalia jebus archea (Mutant 46), previously Neonara rustic, was one of the three organisms to have Rusticyanin. Like its descendants, this organism of the Chrysos taxonomic Family has a Chemoreceptor and a Mucocyst. Unlike the rest of the Orthellosu genera, which did not survive the First Great Plume Eruptions of Komatiite, Enakerbalia jebus archea (Mutant 46) and Nararustic amon (Ecotype 96) no longer use Proteorhodopsin as source for ATP. It was fortunate to find a Large Iron chunk and some clouds of Ammonia. However, Enakerbalia jebus archea had to swim against a strong current to reach it. This cyan Iron eater also encountered a group of Melasmin supermelo (Species 91), which formed a temporary blockade to the Iron clouds. Another unexpected issue was encountering the unfixable lag damage bug once Enakerbalia jebus archea no longer had Glucose left to be used to generate ATP, which was due to the -6% Osmoregulation cost from a lack of Oxygen Tolerance.

Melasmin supermelo (Species 91) was the first organism to evolve three Melanokoids. This member of the Coccidownsu taxonomic Family was the same size as Perbalancea dudopsi (Species 82), but it appeared larger because of how the organelles were arranged. An optical illusion. The 4% Oxygen Tolerance deficit did not seem to affect the organism. While crossing a current, the Melanin organism encountered a Perbalancea dudopsi. As night fell, Melasmin supermelo continued to search for resources, not being affect by the lack of light since it did not get ATP from Proteorhodopsin. When night fell, it became pitch black. The rocks from the First Great Plume eruptions were darker than the original Treerilian crust, meaning very little light was reflected from the stars at night. Perhaps there was a haze in the atmosphere deflecting and scattering away more light than normal. So dark that the organim accidentaly ran into a poison cloud hazard. When the Phyad I star rose again in the sky, Melasmin supermelo was nearing cell division. Coming across another Perbalancea dudopsi, this time, the supermelaninated organism was large enough to engulf it.

Perbalancea dudopsi (Species 82) was the only member of the Perbalancea genera to survive into the new world. This member of the Chrysium taxomic Family had two Proteorhodopsins, which gave it a lot of ATP during the day. During its peregrination for resources, Perbalancea dudopsi ran into a large group of itself. Fortunately, the fellow light eaters seemed to courteous enough to move away. The same could not be said for a group of Melasmin supermelo (Species 91). Being the same size, neither organism could eat each other. However, the group of Melainated organisms impeded the Photosynthetic organism. Even going as far as to completely surround Perbalancea dudopsi, as the groups were coming from different directions. Once that passed, the organism became caught in a current as the Phyade I sun began to set. Eventually, with insufficient ATP, Perbalancea dudopsi was simply carried downstream.

Fluorestrillo irono (Species 53) was one of four species descendant from the Delta taxonomic Family to live beyond the First Great Plume Eruptions. Like the Delta species from before, this member of the Fluorestrillo genera it has a Cytotoxic Toxisome and Proteorhodopsin. What makes Fluorestrillo irono unique is that it has Iron, and it was the only surviving species in Treerilia that had Bioluminescent Proteins. These glowing proteins gave +10% Oxygen Resistance, allowing the yellow organism to have no environmental tolerance penatlies to osmregulation and health. One drawback was that this organism was shaped like a three-leaf clover, meaning it had slower turning speed and slower forward speed. This was plain to see when Fluorestrillo irono was moving to resources clouds, and could not move against the stronger currents.

Banana Biome

Burnillo hydro (Species 70) of the Burnillo genera was the only organism to survive with a Thermosynthase and a Hydrogenase. However, like all members of the Delta taxonomic Family, it had to first survive the damage as the Toxisome was charging and storing toxins. It did, but with only 4 health left. And being in the Banana Biome, which now has over 5% Oxygen, meant Burnillo hydro had to deal improper Pressure and Oygen tolerances. This added to 16% extra osmoregulation cost, 15% slower bioprocess speed, and 16% lower health due the Hydrogenase giving it a slightly negative Oxygen Tolerance over the Thylakoids. And this meant Burnillo hydro encountered the unfixable lag damage bug a lot. This does not include having to roam around to find the highest temperatures in order for Thermosynthase produces some ATP. At the banana-shaped Xanrillon and Submoon lit night, the thermophilic organism nearly ran out of Glucose, but was able to find a large resource cloud with Glucose, allowing it to survive with half of its health.

Chemotillo melanocookie (Species 64) of the Chemotillo genera was the only organism on Treerilia to have survived with a Chemosynthesizing Proteins. While this did not immediately help the organism, the Chemosynthesizing Proteins gave it extra ATP via Cytosolic Glycolysis. After finding a fellow member of the Delta taxonomic Family, Burnillo hydro (Species 70), a group of Detoxeto apprehesu (Species 50) were congregating next to a Banana-shaped Large Iron chunk. Slowly, Chemotillo melanocookie made its way to the area, coming from the concave side of the Large Iron chunk across a current. When it was close enough, the sulfur-containing organism managed to engulf one member of the Detoxeto apprehesu. And something crazy ensued. Another group of Detoxeto apprehesu was being pushed by the nearby current. Since Chemotillo melanocookie was near the end of the current, the thio organism simply went up stream and started to engulf the tiny organisms that were being pushed toward it. Not even having the unfixable lag damage bug stopped the microbial buffet.

Detoxeto apprehesu (Species 50) was the smallest organism to survive the First Great Plume Eruptions of Treerilia. Being the smallest organism of the Delta taxonomic Family meant everything would try to consume it. And having lost the defining trait of Toxisomes for the Delta genera meant Detoxeto apprehesu would not be able to defend itself against Burnillo hydro (Species 70) and Chemotillo melanocookie (Species 64). Perhaps it was a good thing, then, the little Thylakoid organism had evolved to be slightly more fearful and occupied the Behevior Niche. Unfortunately, the 4% deficit of Oxygen Tolerance was enough for organism to have insufficient ATP due to the unfixable lag damage bug. When Detoxeto apprehesu was spotted by Burnillo hydro (Species 70), it could not move very far without taking damage, allowing a Chemotillo melanocookie (Species 64) to engulf it. doomlightning has become extinct due to being engulfed by a Sulfur-containing predator organism.

Cablevenian Estuary

Promardial refreshae (Ecotype 86) was the only Cyan organism in Treerilia to survive with Metabolosomes, which gave it 3% Oygen Tolerance. It was also the only organism to have a very wide Pressure Tolerance range, 1900 kPa, occupying the Tolerance Niche, so it did no have any environmental penalties due to differences in surface pressure. Since Oxygen concentrations were above 2%, this meant the only living descendant of the Prometa genera could now move without having to worry about the unfixable lag damage bug. At least, as long as Promardial refreshae had Glucose to consume. And as long as there was still light. But that was the major issue: finding Glucose. The other was trying to travel, as the strong currents prevented the organism from exploring everywhere it wished to go. When night came after finding some resource clouds, Promardial refreshae’s ATP level dropped, once again slowly losing health. Literally just before it could die, with 1 point of health left, the air breather of the Chrysos taxonomic Family was able to divide.

Cablevenian Underwater cave

Nararustic amon (Ecotype 96) of the Orthellosu genera was the only organism with a Mucocyst present in the Cablevenian Underwater cave. As its name implies, this cyan-colored organism has Rusticyanin and a Nitrogenase. Also, having a Cellulose membrane meant it had about twice the health health compared to an organism with a Single membrane. But this increased health was reduced by over 3% due to a lack of Oxygen Tolerance, and the -1% Oxygen tolerance from the Nitrogenase. This extra health was usefull, since the Cablevenian Underwater cave continued to be a death trap. The underwater cave was a death trap due to having a large dead zone of resources right off the gate, including Iron. While its sister cell went Southeast, the other Nararustic amon headed in a Northeastern direction. Despite the Cablevenian Underwater cave seemingly having Iron, which was necessary for Nararustic amon to survive, there was not any in microbe sight. After running out of Glucose and Iron, the organism ran on fumes for over a minute thanks to its higher health. As its health ticked in away, just at the last second, a Large Iron chunk was visible. Vainly, Nararustic amon headed the Large Iron Chunk’s direction, but could not make it. As a last ditch effort, the Iron eater cysted itself, until it died. If the organism had that 3% extra health from having proper Oxygen tolerances, it would have been able get resources from the Large Iron chunk. Nararustic amon went extinct due to being unable to make it to Iron Chunks.

…

Remanents of one of the mantle plumes began to erupt in the Cablevenian Estuary, and the boiling temperatures made Promardial refreshae (Ecotype 86) extinct.

…

One of the Gas Planets in the outer Phyade I system redirected a binary of meteors toward the Inner Phade I system. When entering the Treerilian-Xanrillon-Submoon system from the opposite side of Xanrillon, the gravitation pull of Treerilia broke the pair free into different trajectories. For a brief moment in the Treerillian sky, twin streaks could be visible for miles on one side of the planet. One of the Meteors broke into two pieces, which hit the Cablevenian Tidepool and the Cablevenian Estuary. The other Meteor broke into two pieces as well, hitting the Unovaskysian Epipelagic and Yrinian Epipelagics devoid of life. JustaDumbThriver, aah31415, Cha, and CatSqured have gone extinct.

Third Pass (Playing) Extinctions:

Fourth Pass (Volcanic) Extinctions:

Fifth Pass (Meteor) Extinctions:

Surviving Organisms:

0.8.2.1 World Map

Still the same seed956×573 66.2 KB

Notes:

Note 1 - I was hoping that something would survive in the Cablevenian Underwater cave, but alas, it was not meant to be.

Note 2 - Predatory pressure is still a very an important factor.

Note 3 - Oxygen resistance is becoming an increasingly important factor as Oxygen levels start to skyrocket.

Note 4 - OMG. I thought everyone was going to become extinct this round. The amount of Meteors hitting this round is literally crazy. To have four meteors hitting is 21/250,000 (twenty-one/two-hundred-and-fifty-thousand), or 0.000084 (0.0084%).

Note 5 - I will try to complete the options by Friday.

Welp, the “UV plants” won’t be forgotten…

@JustaDumbThriver @aah31415 @CatSquared @Cha @doomlightning @Rocketsgobrrrr

What do you want to name the Submoon? - Second Round Voting

I am thinking of adding more niches. Which ones should I add?

First Pass (ATP Balance) Extinctions:

Second Pass (Miche) Extinctions:

Options:

All under the Delta Family

Rocketsgobrrrr

List of Inhabitable Biomes:

New Biomes:

Notes:

Note 1 – If you want to choose an organism from Rocketsgobrrrr’s lineage, tell me, since you must first wait for Rocketsgobrrrr to choose his/her/their organism first.

Note 2 – Everyone can go to the Cablevanian Tidepool, Cablevenian Estuary, or Unovaskysian Epipelagic, since everyone is in the Banana Biome.

Note 3 – I am still very sick at the moment. Hopefully, I will be better enough next week to get the FG back in rhythm.

I’ll choose mutant 55 and have them live in the cable tidepool.

I’ll go with M53. Naming it enakerbalia jebus mesoa.

These new patches will likely cause a massive amount of species to emerge…

Mutant 55, whatever is the most friendliest to its existence and I guess the name will be Pertinacia Spiritus

Many can choose one mutant?

Not in this case, since there are six options. Granted, half of them are locked behind Rocketsgobrrrr’s lineage, so I could see why Cha might be confused.

@Cha, you need to choose another organism, since aah31415 already took Mutant 55. Species 70 is still free.

By the way, what do you want to name your organism?

I’ll name mine one Revita Superstes.