(3 intermediate revisions by the same user not shown)
Line 11:
Line 11:
|ancestor = Pioneer Glasstalk
|ancestor = Pioneer Glasstalk
|size = 4 cm Tall
|size = 4 cm Tall
|habitat = North Barlowe Tundra
|habitat = North Barlowe Tundra, Abello High Desert, Time High Desert
|locomotion = Sessile
|habitat2 = Abello High Desert
|habitat3 = Time High Desert
|habitat4 =
|diet = Photosynthesis
|diet = Photosynthesis
|thermoregulation=Ectotherm
|reproduction= Asexual, Budding
|reproduction= Asexual, Budding
|domain = Eukaryota
|parent = Vitrirugaceae
|kingdom = Kyanozoa
|phylum = Hyalophyta
|class = Vitricaulopsida
|order = Procerales
|family = Vitrirugaceae
|genus = Vitriruga
|genus = Vitriruga
|species = twistus
|species = twistus
}}
}}
The '''pioneer glasstwist''' replaced its ancestor the [[Pioneer Glasstalk|pioneer glasstalk]]. It has spread to the northern deserts of Barlowe. It now grows in a twisty shape. Like its ancestor its roots allow for the nixus to grow inside. Thus spreading [[nixus]], [[nitritus]], [[nitratus]] and [[denitritus]] wherever it grows. This in turn completes the nitrogen cycle and helps make the soil suitable for larger flora to spread to.
The '''pioneer glasstwist''' replaced its ancestor, the [[Pioneer Glasstalk|pioneer glasstalk]]. It has spread to the northern deserts of Barlowe. It now grows in a twisty shape. Like its ancestor its roots allow for the nixus to grow inside. Thus spreading [[nixus]], [[nitritus]], [[nitratus]] and [[denitritus]] wherever it grows. This in turn completes the nitrogen cycle and helps make the soil suitable for larger flora to spread to.
The pioneer glasstwist replaced its ancestor, the pioneer glasstalk. It has spread to the northern deserts of Barlowe. It now grows in a twisty shape. Like its ancestor its roots allow for the nixus to grow inside. Thus spreading nixus, nitritus, nitratus and denitritus wherever it grows. This in turn completes the nitrogen cycle and helps make the soil suitable for larger flora to spread to.
Living Relatives (click to show/hide)
These are randomly selected, and organized from lowest to highest shared taxon. (This may correspond to similarity more than actual relation)