Intermediates (Now Open)

@JustaDumbThriver @aah31415 @CatSquared @Cha @doomlightning
Sorry about not posting earlier. I had some personal stuff to deal with.

Turn 6

Turn 6 Summary:

650 million years after the formation of the Phyade I system, life continues to endure.

Thrivium phytus (Mutant 6), have a single Thylakoids, attempted to survive in the Cablevenian Underwater cave. Going north, it ran into an Iron chunk, hoping to find precious Glucose. Alas, as it past clouds of Hydrogen Sulfide and Phosophorus, but it could not find any Glucose clouds. Due to its high population, it had several “lives”. During the second life, Thrivium phytus went westward, nearly dying due to interactions with a Radiation Chunk. After finding a cloud of Glucose, it kept going westward and found another Glucose cloud. However, it did not notice that it was next to another Radiation Chunk, and nearly died again from excessive Radiation. Fleeing from the damage, this light eater found itself in a dead zone of resources and died a second time, next to a cubic chunk of Sulfur. For the third life, it went south, finding a small cloud of multiple resource. However, the resources were so thick that Thrivium phytus did not notice a poison cloud hidden with in it, taking some damage. The organism found several resource clouds in succession, but then started to run out of Glucose. Nearing completion of its cell cycle, with its health ticking away, it managed to inch its way to a nearby clouds of resources. However, it was not enough, dying quite literally just before it could divide. On the fourth life, Thrivium phytus went eastward, finding itself in area with several Radiation Chunks. After avoiding as much damage as it could, it found the motherlode of resource, but like last time, there was just not enough Glucose clouds to sustain it. It appeared that fifth time was the charm, nearly dying twice from a lack of glucose, but it finally managed to divide at the end.

Lux calientus (Subspecies 36) did not have any luck with Glucose clouds, either, in the Cablevenian Underwater cave. Due to its 11 C higher tolerance range, it had 10% higher Osmoregulation cost, 10% slower bioprocess speed, and -10.1% health. This meant it also ran into the unfixable lag damage bug on top of all the other problems, including getting stuck next to a Radiation Chunk. Unfortunately, Lux calientus died and became extinct due insufficient Glucose.

The Banana Biome has seemed to be repopulated with life after the banana meteors wiped it clean of its previous occupants. However, the Banana Biome will not make it easier for its new tenants to survive. Upsidownus Florus (Ecotype 28) has a reversed reproduction order, where its Thylakoids replicated first before its Cytoplasm. Like most who live in the Banana Biome, it was afflicted by the unfixable lag damage bug. Upsidownus Florus also had trouble finding Ammonia, finding itself in a dead zone of resources after going southeast. While it found a pool of Ammonia on Day 5, it was not enough to complete its cell division, and continued to search for the substance, which it eventually did.

Another light-eater, Upsidownus coccus (Subspecies 30,31,33), was only a single Thylakoids. Its smaller size and the Banana Biome’s conditions meant that the unfixable lag damage bug was far more deadly. Thus, Upsidownus coccus had to adopt a strategy of periodically stop moving in order to prevent itself from dying. Very slowly, it began to collect resources. Like a Tortoise, it turtled its way to survival and cell division on the Day 5.

Fostrogonpo chrysos (Subspecies 27) of the Fostrogonpo lineage was not faring any better in the Banana Biome. Like Upsidownus coccus , it had a much more severe case of the unfixable lag damage bug, had to occasionally stop to recover ATP. Due to its larger size, it ran out of Glucose before the Sun could replenish it ATP via Proteorhopodsin, and died. Fortunately, Fostrogonpo chrysos’ higher population meant it had more “lives”, and could continue attempting to survive the Banana Biome. Unfortunately, it respawned at night, and thus had not extra ATP from the Sun, dying again. On the third life, Fostrogonpo chrysos managed to crawl it way to a resource cloud abundant with Ammonia and Phosphate. But when night fell, it was doomed to die from a lack of ATP. Its fourth and fifth life was like its second, dying because Fostrogonpo chrysos could not make ATP from light. Despite gaining some extra population due to interactions with the Upsidownus lineage, it was not enough, and the sixth death meant another light eater became extinct. Fostrogonpo chrysos has gone extinct due to insufficient ATP at night.

Meanwhile in the Cablevenia Tidepool, Phytium responsiva (Ecotype 36), due its more responsive behavior, was able evade a lot of predators. It helped that it was smaller than the predators trying to eat it, and self-sustaining due to having Thylakoids. Most importantly, it was the only organism in the Cablevenian Tidepool that had enough excess ATP for an extended period of time while moving to regularly sprint. Like many life surviving in Treerilia, Phytium responsiva ran into a common issue: dead zones of resources. Many were lost in the times of night, causing many microbial crashes, including into poison clouds. But Phytium responsive persevered on.

Thrivum Solaris (Subspecies 39) had lost its Cytoplasm, but still retained it more focused behavior. With other species in the Cablevenian Tidepool, especially Garlabius Delta (Species 7), it was very dangerous for it try and survive. It did not help that Thrivum Solaris encountered the unfixable lag damage bug, which occasionally slowed the organism down. It appears that luck was not on its side, as it was eaten by Garlabius Delta. Thrivum Solaris has become extinct due to being engulfed by a predatory organism.

Chrysium phyto (Species 8) gained a Thylakoid, giving it the ability to produce Glucose. It attempted to eat most of the other organisms, even Garlabius Delta to its detriment. One does not simply attempt to eat poison. Even worse, a large group of itself appeared out of nowhere, forcing the organism to weave its way out of the swarm. Not just once, but several times. Although tumultuous, Chrysium phyto made it to the proverbial finish line.

Macro phaüs (Mutant 10) had an additional Proteorhodopsin compared to Chrysos Macro. It attempted to prey on Phytium responsiva (Ecotype 36), but the organism was too slow to catch all of them. Fortunately, like Chrysos Macro , it had enough ATP to keep being active during the night. It also encountered a dead zone of resources, forcing it to hunt even more. After some close call escapes, it managed to catch more Phytium responsiva and find resource clouds necessary to divide on Day 8.

Chrysos Macrobackus (Mutant 9) appears the same as its ancestor, Fostrogonpo chrysos, due to losing the Macro lineages Hydrogenase. Like other newly diverged species, it no longer recognizes its ancestors as a part of itself, and preys on other organisms. Despite getting a few other organisms, Chrysos Macrobackus was too slow to sustain itself on predation. And the night time was already brutal for Proteorhodopsin organisms. With the predation behavior, it over-exerted itself and went into a negative ATP spiral, ending in its death. Chrysos Macrobackus has become extinct due to insufficient ATP from predation and lack of light.

Garlabius Delta (Species 7) was the only organism in the Cablevenian Tidepool to have a Toxin organelle. Since it had Cytotoxin (I still thought the default was OxyToxy), as well as more Opportunistic behavior, it had predatory behavior towards other organisms. This dangerous light eater now had Thylakoids in addition to Proteorhodopsin, meaning it was a relatively complex Prokaryotic organism. Garlabius Delta became overly enthusiastic at firing its Cytotoxin at everything, slowing it down due to getting damage as the Toxin built up. However, this did not prevent it from successfully gaining resources through predation.

In the Cablevenian Estuary, it was just as hectic. For Thrivum Lux (Ecotype 29), which had more focused behavior, it had +10% Osmoregulation cost, -10% bioprocess speed, and -35.1% health. Fortunately, it did not encounter any predatory organisms. But it had to deal with the unfixable lag damage bug. This slowed down its progress, but did not stop it.

Chrysos cyanoa (Species 4) had a different colored membrane that the rest of the Chrysos genera. However, unlike Chrysos Maco, it did not have a Hydrogenase for extra ATP when there is no light at night. It died, but respawned when Phyade I’s rays touched the surface of Treerilia once again. Unfortunately, due to improper ATP balance from lack of proper tolerances, Chrysos cyanoa could not move without sustaining damage. Perhaps it was lucky the previous 25 million years, but not this time. Chrysos cyanoa has gone extinct from lack of ATP.

Heregamblerobacterkoinos archea (Mutant 8) had the same issue as its predecessor, Chrysos cyanoa. However, the heirs of gamblerbacter managed to snag some Thrivum Lux as food. Painfully, it slowly moved towards clouds of resources when it could, barely surviving. After over a month, it was able to divide.

Chrysos Macro (Species 5) was not having a good time in the Cablevenian Estuary, either. Like many organisms in the Estuary, it suffered Osmoregulation cost, bioprocess speed, and health penalties for improper tolerances. While searching for resource clouds at night, it ran out of Glucose and died literally just as the Sun was rising. On it second life, it adopted a strategy of being sessile at night to conserve Glucose, which saved it throughout the night. Serendipitously, it found very large resource clouds, and simply had to wait multiple nights to get what it needed for division.

Garlabio Upsilon (Subspecies 2) had Cytotoxin, but its smaller size meant that it was at risk of predation by Chrysos Macro. Also, it had +21.4% Osmoregulation cost, -10% bioprocess speed, and -41.8% health. It seems that its Cytotoxin was insufficient deterrent for being engulfed by the much larger organism, as it was engulfed every time its predator came closer to it. Garlabio Upsilon simply lacked the amount of ATP needed for sprinting, as well as the regular speed needed to outrun Chrysos Macro. Garlabio Upsilon has become extinct due to predation.

…

An extremely large meteor breaks a part due to a collision with another meteor. All of these pieces miss Treerilla. Life, for now, is safe.

Surviving Players:

Third Pass (Playing) Extinction:

Notes:

Note 1: I will post the options sometime tomorrow, since I am too tired to do them now.

Note 2: Even though Cat Squared died, everyone still has their respective lineages to choose from when I post the new options.