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Jaback steam3/16/2023 ![]() 1b-Type: 1b-Type Organisms are biota that can live under the orbit of low-luminous supergiant stars.1ab-Type: 1ab-Type Organisms are biota that can live under the orbit of medium-luminous supergiant stars.1a-Type: 1a-Type Organisms are biota that can live under the orbit of high-luminous supergiant stars.0-Type: 0-Type Organisms are biota that can live under the orbit of hypergiant stars.Flora in this orbit are usually black instead of green as to absorb all wavelengths of light, or could be mostly aquatic due to the ultraviolet flares of a younger red star. M-Type: M-Type Organisms are biota that can live under the orbit of M-Type stars, or red stars, which are between 2,400–3,700 K, are the least luminous, and have the weakest amount of hydrogen.Flora in this orbit are dark or black to absorb any life there can be. K-Type: K-Type Organisms are biota that can live under the orbit of K-Type stars, or orange stars, which are between 3,700–5,200 K, have a solar luminosity of between 0.08–0.6 L, and a very weak amount of hydrogen.This is the base type of Earth/Marbon-like biota, and thus flora can be exclusively green. G-Type: G-Type Organisms are biota that can live under the orbit of G-Type stars, or yellow stars, which are between 5,200–6,000 K, have a solar luminosity of between 0.6–1.5 L, and have a weak amount of hydrogen.Flora under this sunlight can receive too much, and thus they can be either blue to reflect the UV rays, or yellow to harness blue light and reflect green and red light. F-Type: F-Type Organisms are biota that can live under the orbit of F-Type stars, or yellow-white stars, which are between 6,000–7,500 K, have a solar luminosity of between 1.5–5 L, and a medial amount of hydrogen.Since white contains all colors, flora can be any kind of color possible to absorb it. A-Type: A-Type Organisms are biota that can live under the orbit of A-Type stars, or white stars, which are between 7,500–10,000 K, have a solar luminosity of between 5–25 L, and have the strongest amount of hydrogen.Flora under this sunlight can be a lot more vibrant in colors but also require a limited degrees to reflect unwanted light. B-Type: B-Type Organisms are biota that can live under the orbit of B-Type stars, or blue-white stars, which are between 10,000–30,000 K, have a solar luminosity of between 25–30,000 L, and a medial amount of hydrogen.Flora under this sunlight can be green, yellow, or mostly red to absorb this more energy-rich blue light. O-Type: O-Type Organisms are biota that can live under the orbit of O-Type stars, or blue stars, which are the hottest, most luminous, but lowly hydrogenous, stars known, with most of their radiated output in the ultraviolet range.Brighter stars make flora brighter while dimmer stars make plants darker. Based around the Hertzsprung-Russell diagram (Starzsprung diagram in AUU terms), the spectrum measures the type of sunlight and radiation of a star, and the magnitude measures the size of the star. Star-Type would classify what kind of star the creature can thrive in based both on spectrum and magnitude. This would be classified in 4 types: Star-Type (ST), Gravity-Type (GT), Distance-Type (DT), and Atmosphere-Type (AT). The biota would be categorized based on planetary conditions. Biota that was not the traditional physiology of life would often be dubbed 'xenimals', or 'xeno-animals'. This is because of the conditions of different planets, their location in the system, and the stars themselves. Though the commonality of OUU life would form, other groups occurred. Life in the AUU evolved differently from the OUU because of always interacting with each other since the beginning when the Evolution Masters of the Gods of the Alternate UUniverses were growing to council it with their ability to warp genetic code. 7.2.1 Jawless Fish/Armored Fish/Cartilaginous Fish.7.1.1 Jawless Fish/Armored Fish/Cartilaginous Fish.
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