"Mushroom Spores' Routes Of the Cosmos: Mycelium Network Intelligence—Beyond 'So Last Season' Science, Our Future Must Be Interstellar."
What if Warp drives, subspace networks, inertial dampeners, transporters, holodecks, universal translators, telepathy, multi-dimensional, or even multi-civilization connector stargates are enabled via something currently best described as a mycelial network. What if this network, akin to the so-called halls of Amenti and the universal knowledge compendium spiritualists refer to as the Arkashic records, is an integral part of a vast and immeasurable system.
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In his writings, Joe Prasva suggests that advanced science, though currently confined to the screens of Hollywood's science fiction and other fields, has compelled us to reconsider the plausibility of space travel and our perception of the space surrounding our planet. The USS Discovery's experimental displacement-activated spore hub drive, commonly known as the spore drive, and the exploration of the mycelial network in the Star Trek universe propose alternative methods for traversing space beyond traditional wormholes and warp drives.
Future scientists, armed with enthusiasm, education, and advanced tools, may confirm or debunk the existence of this network, shedding light on its potential as a microscopic web spanning the entire cosmos—an intergalactic ecosystem with infinite pathways. The relevance of physically observing or topographically mapping this network is currently inconclusive; the crucial focus lies in comprehending the concept itself.
Paul Stamets, a pioneering mycologist and advocate, introduces mycelium as the "neurological network of nature" in his book "Mycelium Running." Stamets envisions mycelium as more than a mere producer of mushrooms, attributing to it a complex intelligence that surpasses even advanced supercomputers. He proposes that mycelial networks could serve as platforms for cross-species communication and information sharing in mycoengineered ecosystems.
NASA's article on "Slime Mold Simulations Used to Map Dark Matter Holding Universe Together" highlights the intresting connection between the behavior of slime mold and the cosmic web structure. Inspired by slime mold's ability to create optimal networks, researchers designed a computer algorithm to map dark matter filaments in the universe, mirroring the cosmic web's formation. This innovative approach helps visualize large-scale cosmic structures and offers insights into the elusive strands of the cosmic web.
The mycelium network, while considered by some as an overly complex theory, presents a plausible explanation for naturally forming replicating structures or an advanced computer generating new codes without invoking metaphysics. This theory, currently relegated to fiction, may gain validation over time as scientific understanding progresses. The mycelium complex's auto-organized nature aligns with patterns found in various geometric structures in nature, suggesting its potential realism and validity in the scientific realm.
IAM Olofin
IAM Olofin
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