![]() ![]() ![]() At this stage, the Tiberium crystals glow bright green and spread far more rapidly. Green Tiberium is far more prolific than pod tiberium and far more radioactiveĪs Pod Tiberium grows, the Tiberium crystals begin to emit enough radiation to convert solid materials directly into crystalline Tiberium, including the 'pod' in which the Tiberium originally grew. Statistics Rate of Growth : 5 feet per week Radiation Output : 50 TREM/hour Hardness : 20 HP : 50 Optimum Heat/Humidity : 39☏ 10% Humidity Age of "Maturity" : 10 years Tiberium riparius (Green Tiberium) This radiation converts small amounts of the atmosphere into Tiberium crystals, resulting in gas with microscopic crystals. The Tiberium crystals nestled in the pod emit copious amounts of Tiberium radiation when they grow large enough. New pods are formed by sprouting from the root network, creating extensive fields of pods, all connected to the same root system. The particles then coalesce into atoms of elemental Tiberium, which in turn organize into dull green Tiberium crystals. These minerals are then broken down into subatomic particles by the Tiberium radiation. The crystals are formed from minerals leeched from the soil by roots extended deep into the earth. This form features Tiberium crystals sprouting from a semi-organic pod. The simplest and earliest form of Tiberium, this began flourishing in 1404. Tiberium arboreus, the earliest form of Tiberium Types of Tiberium Tiberium arboreus (Pod Tiberium) Because of this, arctic and arid regions are typically devoid of the crystal. Growth rates are slower in less favorable territory. The growth rate of any given Tiberium subtype assumes an optimum environment. This increase in radiation led to a rapid spread of the deadly crystal and higher incidences of mutation, making it imperative that the growth be somehow checked. From that point forward, crystalline Tiberium spread through direct conversion of other minerals with radiation. In 1414, Tiberium had begun outputting so much radiation that the pods themselves were converted into Tiberium. The radiation of the crystalline Tiberium also created a number Tiberium crystal that were not based in pods. Tiberium originally spread through the extensive root networks of the pods, creating vast fields of pods all connected to a massive root system. The elemental Tiberium is then arranged into a crystalline structure which emits Tiberium radiation. These pods release roots deep into the soil, leeching minerals and metals out of the soil and transforming them into the 120 th element, Tiberium. In early stages of Tiberium's evolution (1404-1413), the crystal grew from seemingly organic, plant-like pods. It is incredibly dense and extremely dangerous. Tiberium is an ionic crystalline lattice, often taking the form of a crystal. ![]()
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