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Friday, April 8, 2016

Bioluminescent Glowing Organisms of Inner Earth - ROBERT SEPEHR

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The idea that our planet consists of a hollow, or honeycombed, interior is not new. Some of the oldest cultures speak of civilizations inside of vast cavern-cities, within the bowels of the earth. According to certain Buddhist and Hindu traditions, secret tunnels connect Tibet with a subterranean paradise, and they call this legendary underworld Agartha. In India, this underground oasis is best known by its Sanskrit name, Shambhala, thought to mean 'place of tranquility.' Mythologies throughout the world, from South America to the Arctic, describe numerous entrances to these fabled inner kingdoms. Many occult organizations, esoteric authors, and secret societies concur with these myths and legends of subterranean inhabitants, who are the remnants of antediluvian civilizations, which sought refuge in hollow caverns inside the earth.

Assuming that the myths are true, and the Earth is partially hollow, how could life survive underground? How would organisms receive the ventilation required to breathe miles below the surface? Surface trees and rainforests are responsible for less than one-third of the Earth’s oxygen, while marine plants, such as phytoplankton, are responsible for between 70 to 80 percent of the oxygen in the Earth’s atmosphere. The vast majority of our oxygen comes from aquatic organisms.

Inner earth
Phytoplankton, kelp, and algae produce oxygen as a byproduct of photosynthesis, a process which converts carbon dioxide and light into sugars which are then used for energy. While the process of photosynthesis usually implies the presence of sunlight, the Sun is not the only available light or energy source able to power photosynthesis.

Before the discovery of hydrothermal vents, and their ecosystems, scientists believed that only small animals lived at the ocean bottom, in seafloor sediments. They theorized that these animals received their food from above, because the established model of the marine food chain depended on sunlight and photosynthesis, just as the food chain on land does. Mainstream academia taught that this was the only way life could survive in the darkness of the deep seafloor. The discovery of hydrothermal vents changed all that. It became clear that vast communities of animals grew quickly and to larger than expected sizes in the depths without the aid of the Sun.

Instead of using light to create organic material (photosynthesis), microorganisms at the bottom of the food chain at hydrothermal vents used chemicals such as hydrogen sulfide (chemosynthesis). At the seafloor, there are thriving ecosystems that receive energy not from the sun, but from the heat and chemicals provided by the planet itself. For many thousands of species dwelling in the deep, the energy to sustain life does not flow down from above, but comes up from the interior of the earth.

Even in the unlikely scenario where every single tree were chopped down, we would still be able to breathe thanks to aquatic plant-life (ex. algae). The Earth has a tremendous amount of water, and these oceans, rivers, and lakes are teeming with numerous species of biologically active, oxygen-producing organisms. What would provide the light needed to see, or to cause the photosynthesis necessary for the plant life that allegedly exists in these inner worlds?

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It is fascinating how some organisms, such as bacteria or algae, can produce light, or glow in the dark. The word for this seemingly magical ability is called “bioluminescence,” which comes from “bio,” meaning life, and “lumin,” meaning light. Most of these plankton glow blue, but a few glow red, green, or orange. Some tiny animal plankton (zooplankton) are big enough to see with the unaided eye. Most bioluminescent zooplankton don’t glow in the dark themselves, but instead squirt globs of glowing chemicals into the water.



Some zooplankton use bioluminescence to attract a mate, or to form reproductive swarms. Not only is nature’s biochemistry fascinating, it can also be extremely beautiful, especially given the backdrop of a dark, misty cave. Glow worm is the common name for various groups of insect larvae and adult larviform females that glow through bioluminescence. They may sometimes resemble worms, but are actually insects. The glow they produce, through by a chemical reaction, is incredibly efficient; nearly 100% of the energy input is turned into light (Compare this to the best light-emitting diodes at just 24%). Australia and New Zealand have some of the most spectacular caves, where one can go on guided tours to witness this natural phenomenon up close.

Why do some mushrooms emit light? Making light isn’t common in fungi; scientists have described about 100,000 fungal species, and only 75 glow. Lab work has shown that the glow did not happen randomly or by accident. Scientists found that these mushrooms made light mostly at night, so experiments were conducted to determine why. The findings indicated that the mushrooms lured bugs, which then spread the mushroom’s spores where there was very little or no wind. Conditions that affect the growth of fungi, such as pH, light and temperature, have been found to influence bioluminescence, suggesting a link between metabolic activity and fungal bioluminescence.

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According to studies (referenced in the book), in dark environments, bioluminescent fruit bodies may be at an advantage by attracting insects and other arthropods that could help disperse their spores. If this conclusion holds, one could reasonably hypothesize that environments with little or no wind, such as deep subterranean caverns, could potentially harbor an especially high proportion of luminescent fungi.

Are there any known sources of sustenance available that could provide for a large human population? What evidence is there that a sustainable biosphere could exist miles below the surface, totally isolated from the nourishment and the established life cycle provided by the sun? Where are the entrances to inner earth, and which races live on the inside?

Author and anthropologist, Robert Sepehr, explores these questions and attempts to unlock their riddles, which have eluded any serious consideration in mainstream academia. Numerous endeavors have been undertaken to access the interior of the earth.

Polar expeditions and battles, such as Operation Highjump, still remain largely classified, and have been shrouded in secrecy for decades, but scientific revelations validating the rumors surrounding these covert events, and their implications, are finally being exposed to daylight. What are the mysteries of inner Earth?

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