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June 14, 2023 • 6 min read
by Simon Meng, mp.weixin.qq.comSee original
An attempt to create an animated guide of silicon-based organisms using guided artificial evolution + GPT4/chatGLM + stable diffusion / Midjourney + Runway GEN2, it feels like we can start creation from scratch with AI! 🥰
▶Species Name - Silicon Diatom Jester (Silicon Diatom Jester)
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Energy Acquisition Method: The Silicon Diatom Jester acquires energy by forming symbiotic relationships with other microorganisms. They utilize intense sunlight for photosynthesis and release a unique silicon-based nutrient. To obtain additional energy, the Silicon Diatom Jester also captures fluorine gas from high-pressure environments as an auxiliary energy source during defluorination.
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Biology Structure: The Silicon Diatom Jester possesses a tiny and intricate silicon shell with a unique structure, somewhat similar to plankton on Earth. Their silicon shells have delicate structures that can expand and contract, altering their shape and buoyancy in the dense atmosphere, allowing for swift movement.
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Biochemical Characteristics: The Silicon Diatom Jester enhances its metabolic rate through symbiosis with other microorganisms attached to its silicon shell. It absorbs fluorine gas as an auxiliary energy source, which undergoes a series of complex biochemical reactions with oxygen in the atmosphere.
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Biochemical Cycle: Their biochemical cycle relies on silicon and fluorine elements, producing silicon-based nutrients through photosynthesis. The fluorine gas is absorbed by the Silicon Diatom Jester, participating in the energy exchange and waste disposal processes with symbiotic microorganisms.
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Physical Geometric Features: The Silicon Diatom Jester is cylindrical in shape, with a diameter of about 1 millimeter and a length of approximately 5 millimeters. The delicate silicon structures allow them to float more easily in the viscous atmosphere of SL Star 2.
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Survival Conditions: The Silicon Diatom Jester prefers to live in the upper layers of the atmosphere where there is abundant sunlight. They disperse in the atmosphere, forming a spectacle known as diatom clouds, which is sometimes considered a peculiar natural phenomenon in the skies of SL Star 2.
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Adaptation to Environment: The Silicon Diatom Jester is highly adapted to the atmosphere of SL Star 2. They are able to survive in environments with high pressure, high fluorine content, and ample sunlight, as well as withstand complex climatic changes. Additionally, they can rapidly move within the atmosphere by altering their silicon structures to adapt to different environmental conditions.
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Reproduction: The Silicon Diatom Jester reproduces through fission. When they reach a certain volume and energy level, the Silicon Diatom Jester will divide itself into two equal parts, regrowing new silicon shells and delicate structures over the next few days.
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Behavioral Traits: The Silicon Diatom Jester typically lives in groups, creating dense formations much like flocks of birds on Earth. They can swiftly move through the atmosphere, seeking out better sunlight resources and symbiotic microorganisms. Moreover, they communicate with other Silicon Diatom Jesters by releasing special chemical signals and collectively respond to potential threats.
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Predation and Defense: Due to their minute size and unique silicon shells, the Silicon Diatom Jester has virtually no predators in the ecosystem of SL Star 2. However, they still need to be vigilant against other life forms in the atmosphere that may pose a threat. To protect themselves, the Silicon Diatom Jester releases a special chemical substance that causes discomfort or confusion to potential predators.
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Interactions with Other Organisms: The Silicon Diatom Jester forms close symbiotic relationships with other microorganisms in the atmosphere. These symbionts depend on the silicon-based nutrients provided by the Silicon Diatom Jester and help in the excretion of waste and hazardous chemicals. Furthermore, the Silicon Diatom Jester may indirectly affect other atmospheric and terrestrial ecosystems, as the chemical signals and emissions they release could influence other life forms.
▶SL Star 2 Parameters:
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SL Star 2 is an astonishing planet located in a distant star system, seemingly beautiful on the outside while teeming with mysteries within. This planet is home to silicon-based life forms thriving in high-temperature and high-pressure environments, showcasing incredible adaptability and unique biological traits.
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The surface of SL Star 2 is replete with active volcanoes, rich in geothermal energy, with endless heat filling the planet's atmosphere. Volcanic eruptions release large amounts of gases, providing a rich resource for the respiration of silicon-based life. In addition, the continuous rise in air pressure allows the life here to inhale fluorine gas smoothly and exhale silicon tetrafluoride. Intense blue sunlight bathes the planet, providing the energy needed for silicon-based life to thrive.
On this planet, gravity is lower, and the atmosphere is unusually viscous. Silicon-based life can move quickly in such an environment, swiftly searching for food and adapting to survival challenges. Under such harsh conditions, SL Star 2 nurtures a unique kingdom of silicon-based organisms.
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Below are the physical parameters and current climate conditions of SL Star 2:
  1. Temperature: 1500 degrees Celsius
  1. Air Pressure: 100 atmospheres
  1. Gravity: 0.2 times that of Earth
  1. Atmospheric Composition: Fluorine, nitrogen, argon, sulfur dioxide, etc.
  1. Light Intensity: 1.5 times that of Earth
  1. Geothermal Energy: Strong volcanic activity
  1. Climate: High temperature, high pressure, viscous atmosphere
  1. Terrain: Land made of volcanic rock, abundant lava flows, and widespread geothermal energy
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Simon Shengyu Meng
Simon Shengyu Meng
AI artist driven by curiosity, cross-disciplinary researcher, PhD candidate, science communication blogger.
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