Quaxaca: Difference between revisions

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Line 5:

|creator = Coolsteph

|image = Quaxaca.png

|extant =

|ancestor = Pioneer Quillball

|size = 9 cm Tall

Line 13:

Line 12:

|habitat5 = Dixon Savanna

|habitat6 = Raptor Volcanic

|locomotion = Sessile

|diet = Photosynthesis

|thermoregulation=Ectotherm

|respiration = Passive (Stomata)

|reproduction= Super Fast Asexual Budding, Very Resistant Spores

|~~domain~~ = ~~Eukaryota~~

|parent = Taraxacoformaceae

|kingdom = Phoenoplastida

|phylum =

|class =

|order =

|family =

|genus = Taraxacoformus

|species = taraxacum

}}

The quaxaca can live even in soils poor in bio-available nitrogen and phosphorus. This hardiness makes it very common in its habitats. This advantage is all in its roots. The roots grow in a dense, clustered form that clings to soil and increases surface area. With this increased surface area, the quaxaca is very effective at turning the nearby phosphorus into a bio-available form by means of enzyme secretions from the root. This is in addition to hosting nitrocycle microbes in the roots, which will give the quaxaca nitrogen compounds the quaxaca can use for growth.

The '''quaxaca''' can live even in soils poor in bio-available nitrogen and phosphorus. This hardiness makes it very common in its habitats. This advantage is all in its roots. The roots grow in a dense, clustered form that clings to soil and increases surface area. With this increased surface area, the quaxaca is very effective at turning the nearby phosphorus into a bio-available form by means of enzyme secretions from the root. This is in addition to hosting nitrocycle microbes in the roots, which will give the quaxaca nitrogen compounds the quaxaca can use for growth.

[[Image:Quaxaca Range.png]]

@@ Line 5: / Line 5: @@
 |creator     = Coolsteph
 |image       = Quaxaca.png
-|extant      =
 |ancestor    = Pioneer Quillball
 |size        = 9 cm Tall
@@ Line 13: / Line 12: @@
 |habitat5    = Dixon Savanna
 |habitat6    = Raptor Volcanic
+|locomotion = Sessile
 |diet        = Photosynthesis
+|thermoregulation=Ectotherm
+|respiration = Passive (Stomata)
 |reproduction= Super Fast Asexual Budding, Very Resistant Spores
-|domain      = Eukaryota
+|parent      = Taraxacoformaceae
-|kingdom     = Phoenoplastida
-|phylum      =
-|class       =
-|order       =
-|family      =
 |genus       = Taraxacoformus
 |species     = taraxacum
 }}
-The quaxaca can live even in soils poor in bio-available nitrogen and phosphorus. This hardiness makes it very common in its habitats. This advantage is all in its roots. The roots grow in a dense, clustered form that clings to soil and increases surface area. With this increased surface area, the quaxaca is very effective at turning the nearby phosphorus into a bio-available form by means of enzyme secretions from the root. This is in addition to hosting nitrocycle microbes in the roots, which will give the quaxaca nitrogen compounds the quaxaca can use for growth.
+The '''quaxaca''' can live even in soils poor in bio-available nitrogen and phosphorus. This hardiness makes it very common in its habitats. This advantage is all in its roots. The roots grow in a dense, clustered form that clings to soil and increases surface area. With this increased surface area, the quaxaca is very effective at turning the nearby phosphorus into a bio-available form by means of enzyme secretions from the root. This is in addition to hosting nitrocycle microbes in the roots, which will give the quaxaca nitrogen compounds the quaxaca can use for growth.
 [[Image:Quaxaca Range.png]]