Cryophytes
Cryophytes | ||
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Information | ||
Creator | Mnidjm Other | |
Week/Generation | 23/149 | |
Habitat | Global (Sagan 4) | |
Size | 10 μm - 15 μm Wide Cells; 80 μm - 100 μm Long Chains | |
Primary Mobility | Unknown | |
Support | Cell Membrane | |
Diet | Photosynthesis, Chemoorganoheterotroph | |
Respiration | Cellular Respiration | |
Thermoregulation | Ectothermic | |
Reproduction | Mitosis | |
Taxonomy | ||
Domain Superkingdom Kingdom Phylum Class Order | Eukaryota Viridisagania Kyanozoa Kyanophyta Cryosaganopsida Cryosaganales |
Ancestor: | Descendants: |
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The cryophytes are a primitive branch of Sagan 4 life. First arising in the Ladymian period, they have since proliferated to form the base of many polar and alpine food chains. Their primary trait is their ability to live within very cold environments such as the extreme polar latitudes, mountains, or even deep underground in ice caves. While similar to their relatives the kyanos and its descendants, they can be distinguished by their less structurally complex cellular structure, including the lack of cell walls, and their flagella that allow them mobility the kyanoses lack. Each individual cell has at least two flagella, which together allow them to swim around in a random fashion. They are reliant on water to survive, but can live in both cold seawater and freshwater ice.
They derive their color from the blue-green chloroplast analogs and utilize their flagella to keep them in the light. During the long winters or times of poor nutrition the cryophytes it will go dormant. Most form long chains of cells, however the speccies descended from sphrioo form a shperoidal shape to help them with locomotion. While the majority of species are reliant on sunlight to facilitate photosynthesis, some species have adapted to subterranean living. Those derived from the cavern cryosagania have specialized into a symbiotic relationship with the local swarmers. While not bright enough to support photosynthesis, they utilize the light to find spots of organism waste material. These swarmers benefit by having a readily available supply of food. They eat the waste of the detritivores and scavengers within the subterranean environments, and are eaten by swarmers in return. When their predators are eaten by higher predators such as other swarmers or teuropins, their waste is used as fertilizer for the cryophytes, completing the cycle. When there are no swarmers around they will either attempt to migrate towards the surface, go dormant, or keep consuming organic particles until they exhaust them. This relationship has developed so thoroughly that it has allowed the species of the Yannick Ice Caves to spread throughout the water table.
When reproducing via mitosis, they will split on the boom of the last one, making cone like chains out of their disc shaped cells. During the course of their lives, they will continually grow, eventually dying off at the tips. They sometimes break apart, forming new cone chains. In optimal conditions the blooms can be large enough to dye the soil or water a deep, rich teal color.
Relationship With Other Species
The following species have spread to the Fermi Water Table:
- Penitoflora Aquanus
- Carpomarine Guttoplaque
- Mainland Penitoflora Coli
- Cave Swarmer
- Cave Teuthopin
- Tunneling Uksip
- Thornbutt Swarmer
- Teuthomimic Swarmer
- Fathead Swarmer
- Crawlegume
- Tongue Swarmer
Integrated Species
Family Cryosaganaceae
- Cryosagania
- Cavern Cryosagania
- Halosagania
- Dixon Cryosagania
- Cryosqualinia
- Cryolaborametiri Triacellula
Family Geliglobulaceae
- Species by Mnidjm
- Week 23 species
- Generation 149
- Species
- Extant
- Algae of Huckian Jujubee Ocean
- Algae of Huckian LadyM Ocean
- Algae of Huckian Mnid Ocean
- Algae of Huckian Drake
- Algae of Huckian Fermi
- Algae of Huckian Kosemen
- Algae of Huckian Vonnegut
- Algae of Huckian Wallace
- Primary Mobility Unknown
- Cryosaganales
- Descendant of Cryosagania
- Descendant of Cavern Cryosagania
- Descendant of Halosagania
- Descendant of Dixon Cryosagania
- Descendant of Sphrioo
- Descendant of Cryosqualinia
- Descendant of Cryolaborametiri Triacellula