Brain Trees

Information gathered to-date; unfortunately more finite testing to move towards either revision or progression towards theory, is hindered by the lack of the programs capabilities.

Current hypothesis, based upon observation are:

a. agricultural in nature, and placement, based upon the 7 known varieties, and their locations. Current known variations are: Roseum, Gypseeum, Ostrinum, Viride, Lividum, Aureum, and Lindigoticum.

b. age classifications based upon height, development, and/or root-bulb and stem markings.

c. sexuality distinction based upon twin root-bulb number and markings.

d. variations of bulb structure and markings, stem/bark/flesh variations and markings, capacity for growth within a wide-breadth of soil nutrient types; provided two or more known macro-nutrients are present- subject to change.

Bulbs are historically known as an underground storage organ formed from the planet steam, with interesting structure on the steam, leading up to some type of bulbous nutrient that people have dubbed ‘brains’ due to their shape and appearance.

Immediate differences in bulb structure were noted, with the adolescent having a more elongated bulb, with a clearly defined root line, were-as the adult plant, maintained a more compressed bulb structure, with additional lineage. The same sloped sub-soil line patterns, at angles to the bulbs, were noted in all plants; regardless of age.

Soil coloration is consistent with that found at other ‘Guardian‘ xeno-biological sites. the oxidation color with the presence of both sulfur and phosphorus; two known macro-nutrients.

The brains are bio-luminescent, through a yet as unknown chemical process. If holding with known nature, this can be a form of either/or communication or defense; unfortunately there is no method known of taking a tree to a Thargoid held area, or discovered chamber, to test the effects of its presence.

Variations were noted in the above sample, taken in system HR 4220. Though macronutrient remains constant with this particular species, variations were noted.

Clearly defined surface root-structure was readily apparent, with soil coloring consistent with tellurium deposits.
Sub-soil noted the same tellurium deposits.

While examining sub-soil deposits, banding variations were noted in this species, with clearly defined banding on both adult bulbs. Further inspection above the soil layer showed variations in the flesh and bark; though specific purpose and design has yet to be determined.
What is not yet known, is the life-cycle of the seven known tree species. What can be determined, through general observation, is a simile to a few, of the up-to 700 earthen fig tree species. Using that as the measuring stick, a clear separation of growth-stages, can be visually observed.

Variations and coloration of the root-ball, speaks of stage of maturity.
1. The adolescent having a singular root-ball with a distinct separation zone; indicating its budding duality. Fruit produced at this stage is 7.
2. As the tree matures a clear separation is noted, though specific banding coloration has yet to take place. As the tree matures and its fruit matures, the tree will enter into its next life-cycle.
3. The mature tree is at its apex, with a clear blue banding. Fruit produced is a consistent 12.
4. As the tree continues to age, and progresses through its life cycle, its root-bulb coloration changes to that of gold, indicating advanced maturity; fruit remains consistent at 12.

No deceased tree or remnant has yet to be found; searching continues.

Figs are a shallow fibrous root species; location dependent. In certain conditions the roots can spread laterally or even vertically; Note: Roseum Brain Tree with lateral root spread.
Certain Fig tree species can live as long as 200 years.
It is common for most Fig species (not all) to not require pollination for fruit to begin to set.