SETUP
Some Background:
Animals, like people require the same common things to survive:
Like people, animals need the above things also. If you take away any one of them they, like us they will die.
It might take them a long time to die, as it would us, but eventually it would happen.
We will briefly discuss each one here. They will be covered more in depth further down. From this point on we will be covering fish, fresh water fish only.
Shelter:
Shelter for fish is a place from the smaller ones to hide from the larger ones; or, the food to hide from the predators.
Light:
Light helps all animals build strong bones and aids in their development. Without light the fish, like people would loose their vitamin D.
Heat:
Heat is needed by some species of fish to live. Those found in tropical waters could not live in the cold waters of the north.
Water:
Since fish live in the water, for the most part, do they really need it? The answer is yes. They get their oxygen from the water using their gills.
Food:
Fish, like people and other animals like to eat. It helps in growth and helps to maintain their body weight when full grown.
Biological Filtration:
Fish produce ammonia as they convert oxygen to air from their gills as they breathe, and also as part of the waste released from their bodies. The ammonia needs to be removed from the tank frequently, as it is toxic to the fish.
Mechanical:
It is common to have debris in a fish tank. This is due to excess food fed to the fish and other particles from the room. The mechanical process of a fish tank filter is meant to remove this debris and any other visible waste from the tank.
Chemical:
The water that we rely on for drinking and cooking comes from different sources. Some sources might contain hard metals or other materials which might be harmful to the fish. This creates the need for a filter that can remove such materials from the water.
“It was fascinating. Space truly is the last frontier and some of the developments there in astronomy etc. are like science fiction, except they are real. I learned that our shuttle capacity is such that we could orbit 300 people.”
The grounded Space Shuttle held a maximum of eight people and only five were built for space flight. Even if all five took off fully loaded it would be impossible to place and maintain 300 astronauts in orbit. Apparently President Reagan revealed the existence of a highly classified space program that could accommodate hundreds of astronauts in orbit?
Apparently hidden within one of the ten unified combatant commands of the U.S. military, Strategic Command is a highly classified fleet of aircraft carrier sized antigravity vehicles that operate in outer space. As this space fleet grows President Trump has recommended it become a new military component.
The United States has organized its military forces into ten unified combatant commands respectively led by a single four star General or Admiral who reports directly to the Secretary of Defense. Only these commanders know of the existence of UFOs and appoint who has a need to know. Six of the unified commands span the globe in terms of different geographical areas. In addition, there are four functional commands where specialized military activities are run by a single “Combatant Commander.” From 1985 to 2002 Space Command was responsible for outer space operations by the U.S. military. In June 2002, Space Command merged with another of the functional commands –Strategic Command, Offutt Air Force Base, Neb. which is responsible for a range of space, satellite, missile, nuclear and intelligence activities.
Rumors that the U.S. has a highly classified fleet of antigravity vehicles have circulated for years. On March 23, 1993, at an engineering conference in Los Angeles, Dr. Ben Rich, CEO of Lockheed’s Skunkworks, showed a slide with a black disk headed for space and said: “We now have the technology to take ET home“.
Reagan’s views about extraterrestrial life were not dismissed by the Kremlin. Gorbachev did eventually respond in a serious way to Reagan’s scenario of an extraterrestrial invasion. In February 1997, Gorbachev responded to Reagan’s comments at their 1985 Geneva Summit.
"At our meeting in Geneva, the U.S. President said that if the earth faced an invasion by extraterrestrials, the United States and the Soviet Union would join forces to repel such an invasion. I shall not dispute the hypothesis, although I think it’s early yet to worry about such an intrusion."
Also in May 1990, after Reagan had left office, Gorbachev said: “The phenomenon of UFOs does exist and it must be treated seriously.”
The Solar Warden Spacecraft indicates the US and the Soviet Union did join forces against and outside alien threat.
Corporate and military whistle blowers have come forward to claim firsthand knowledge of classified space vehicles using antigravity technology such as the Aurora and TR-3B. In his book, “The Hunt for Zero Point,” Jane’s Defense Weekly analyst Nick Cook writes about the Aurora: “there has been speculation since the late 1980s about the existence of a secret replacement for the Blackbird, a mythical plane called the Aurora that supposedly flew twice as fast and on the edges of space” (p. 14). Other whistle blowers such as Edgar Fouche, a former contractor with the Department of Defense, have come forward to claim that the Blackbird’s [or SR-71] replacement, the Aurora actually comprises two types of hypersonic aircraft used for space flight. He said: “The Aurora comprises the SR-75 capable of speeds above Mach 5, and acts as a mother ship for the SR-74 that can travel at speeds of Mach 18 or more into space to deliver satellites.”
More significant is the large triangular vehicle, the TR-3B that Fouche claims generates an intense magnetic field that reduces its weight by 89 percent. He says that the TR-3B uses the Biefeld-Brown effect (created by large electrostatic charges) to reduce its weight so that more conventional propulsion systems such as scramjets can give it amazing speeds. This would be well above Mach 18 that he claims is the speed of the SR-74. Fouche claims the TR-3B is 600 feet across which would make it similar in size to an aircraft carrier.
Ted Twietmeyer writes that a Space Command photograph had the following citation: … highlights the team for its exceptional support in keeping the space shuttle, International Space Station and its crews safe from the dangers of orbital debris, spacecraft collisions and other inherent hazards of orbit operations.
Neither USAF Space Command nor Strategic Command is publicly known to have any kind of space vehicle that would assist the Space Shuttle or International Space Station from orbital dangers.
Normally, both NASA vehicles would require gradual orbital corrections that would take much time and be insufficient to deal with an immediate threat. According to Ted Twietmeyer, the citation is circumstantial evidence for the existence of antigravity vehicles with advanced particle beam weapons that could remove orbital debris from the path of NASA vehicles. These triangles must be armed with particle beam or quantum weaponry, chemical lasers or electrically excited reactor powered lasers and other weaponry. These weapons could also be used to destroy objects in the path of the space station or space shuttle. There were several eyewitness reports of hovering black triangles firing at targets in Iraq during the early days of the war.
There is a massive anti-gravity energy field surrounding these vehicles which interferes with all electronic devices, making it unlikely anyone could ever get images of them. War has historically been the best proving ground for all new weapons. In the UK, the press and media are forbidden under the UK Secrets Act from covering or reporting on sightings of black triangles. That act speaks volumes about whether or not black triangles exist. The TR-3 has been in service since the mid-1990, and NASA’s space program was nothing more than on-going entertainment to distract the public.
The idea that a secret space fleet exists that can intervene to assist the International Space Station is also supported by the testimony of a former NASA employee Clark McClelland.
On one occasion he claims to have witnessed delta winged antigravity vehicle nearby. The delta shaped vehicle may in fact have been part of a classified Space Fleet to U.S. Strategic Command.
Important clues may emerge from the recently released Reagan records about Strategic Command’s classified space fleet. More significantly, the public may soon learn about the advanced antigravity technologies that have been secretly developed and used for decades to fly military astronauts into deep space.
The most famous alien comment by Reagan was on September 21, 1987, before the Unite Nations General Assembly: “In our obsession with antagonisms of the moment, we often forget how much unites all the members of humanity. Perhaps we need some outside, universal threat to make us recognize this common bond. I occasionally think how quickly our differences worldwide would vanish if we were facing an alien threat from outside of this world. And yet I ask – is not an alien force already among us? “
Yellowstone National Park sits on a subterranean chamber of molten rock and gasses so vast that it is arguably one of the largest active volcanoes in the world. A magma chamber not far below the surface fuels all the volcanic attractions that Yellowstone is famous for. The last major eruption at Yellowstone, some 640,000 years ago, ejected 8,000 times the ash and lava of Mount St. Helens. It is alive and well today, and is the scientific basis for the hilarious volcanic explosion seen in the movie 2012 that blew up Woody Harrelson and, NOT John Cusack. Not sure how that happened.
Background:
Heat from the mantle plume has melted rocks in the crust, and created two magma chambers of partially molten partially solid rock near Yellowstone’s surface. Heat from the shallowest magma chamber caused an area of the crust above it to expand and rise. Stress on the overlying crust resulted in increased earthquake activity along newly formed faults. Eventually, these faults reached the magma chamber and magma oozed through the cracks. Escaping magma released pressure within the chamber, which also allowed volcanic gasses to escape and expand explosively in a massive volcanic eruption. The eruption spewed copious volcanic ash and gas into the atmosphere and produced fast, super-hot debris flows (pyroclastic flows) over the existing landscape. As the underground magma chamber emptied, the ground above it collapsed and created the first of Yellowstone’s three calderas.
This eruption 2.1 million years ago—among the largest volcanic eruptions known to man—coated 5,790 square miles with ash, as far away as Missouri. The total volcanic material ejected is estimated to have been 6,000 times the volume of material ejected during the 1980 eruption of Mt. St. Helens, in Washington.
A second significant, though smaller, volcanic eruption occurred within the western edge of the first caldera approximately 1.3 million years ago. The third and most recent massive volcanic eruption 640,000 years ago created the present 30- by 45-mile-wide Yellowstone Caldera. Since then, 80 smaller eruptions have occurred. Approximately 174,000 years ago, one of these created what is now the West Thumb of Yellowstone Lake. During and after these explosive eruptions huge lava flows of viscous rhyolitic lava and less voluminous basalt lava flows partially filled the caldera floor and surrounding terrain. The youngest of these lava flows is the 70,000 year old Pitchstone rhyolite flow in the southwest corner of Yellowstone National Park.
Since the last of three caldera-forming eruptions, pressure from the shallow magma body has formed two resurgent domes inside the Yellowstone Caldera. Magma may be as little as 3–8 miles beneath Sour Creek Dome and 8–12 miles beneath Mallard Lake Dome, and both domes inflate and subside as the volume of magma or hydrothermal fluids changes beneath them. The entire caldera floor lifts up or subsides, too, but not as much as the two domes. In the past century, the net inflation has tilted the caldera floor toward the south. As a result, Yellowstone Lake’s southern shores have subsided and trees now stand in water, and the north end of the lake has risen into a sandy beach at Fishing Bridge.
Recently:
Ground deformation has been documented along the central axis of the caldera between Old Faithful and White Lake in Pelican Valley in historic time. Surveys of suspected ground deformation began in 1975 using vertical-motion surveys of benchmarks in the ground. By 1985 the surveys documented unprecedented uplift of the entire caldera in excess of a meter (3 ft). Later GPS measurements revealed that the caldera went into an episode of subsidence (sinking) until 2005 when the caldera returned to an episode of extreme uplift. The largest vertical movement was recorded at the White Lake GPS station, inside the caldera’s eastern rim, where the total uplift from 2004 to 2010 was about 27 centimeters (10.6 in).
The rate of rise slowed in 2008 and the caldera began to subside again during the first half of 2010. The uplift is believed to be caused by the movement of deep hydrothermal fluids or molten rock into the shallow crustal magma system at a depth of about 10 km beneath the surface. A caldera may undergo episodes of uplift and subsidence for thousands of years without erupting. Notably, changes in uplift and subsidence have been correlated with increases of earthquake activity. Lateral discharge of these fluids away from the caldera, and the accompanying earthquakes, subsidence, and uplift relieves pressure and could act as a natural pressure release valve balancing magma recharge and keeping Yellowstone safe from volcanic eruptions.
The Future:
WILL YELLOWSTONE ERUPT AGAIN? That is the question. There are many debates on this. Some say it will defintly erupt over the next thousand or several thousand years. But what about in the next several hundred or sooner. The park service says no and the USGS points out. "Odds are very high that Yellowstone will be eruption-free for the coming centuries."
It's also worth noting that the volcanic hotspot underneath Yellowstone is slowly migrating to the northeast (or, more accurately, the North American tectonic plate above the hotspot is migrating southwest).
On a long enough time scale, the hotspot will move out from under Yellowstone — and the Yellowstone super volcano would, presumably, die out. Of course, it's possible that another super volcano could emerge further in the northeast, but the hotspot would first have to heat up and melt the cold crust first. And that process could take a million years or longer.
Second only to Yellowstone in North America is the Long Valley caldera, in east-central California. The 200-square-mile caldera is just south of Mono Lake, near the Nevada state line. The biggest eruption from Long Valley was 760,000 years ago, which unleashed 2,000 to 3,000 times as much lava and ash as Mount St. Helens, after which the caldera floor dropped about a MILE, according to the U.S. Geological Survey. Some of the ash reached as far east as Nebraska.
What worries geologists today was a swarm of strong earthquakes in 1980 and the 10-inch rise of about 100 square miles of the caldera floor. Then, in the early 1990's, large amounts of carbon dioxide gas from magma below began seeping up through the ground and killing trees in the Mammoth Mountain part of the caldera. When these sorts of signs are present, it could mean trouble is centuries, decades, or even YEARS away, say volcanologists.
The 175-square-mile Valles caldera forms a large pock in the middle of northern New Mexico, west of Santa Fe. It last exploded 1.2 million and 1.6 million years ago, piling up 150 cubic miles of rock and blasting ash as far away as Iowa. As with other calderas, there are still signs of heat below: hot springs are still active around Valles.
Geologists suspect the cause of Valles caldera has something to do with how the western United States' portion of the North American tectonic plate is being pulled apart.
The 1,080-square-mile Toba caldera in North Sumatra, Indonesia is the only supervolcano in existence that can be described as Yellowstone's "big" sister. About 74,000 years ago, Toba erupted and ejected several thousand times more materials than what had erupted from Mount St. Helens in 1980. Some researchers think that Toba's ancient super-eruption and the global cold spell it triggered might explain a mystery in the human genome.
New Zealand's Taupo caldera has been filled by water, creating what many describe as one of the world's most beautiful landscapes, but the lake itself was created by a massive eruption 26,500 years ago. The caldera — the collapsed and subsided basin left after the huge eruption — became today's lake. But Taupo is not dead. The 485-square-mile caldera let loose again in the year A.D. 181, with estimates of ash and magma reaching as high as 22 cubic miles.
Today, there are plenty of signs of current volcanic activity in the form of hot springs and venting.
One of the most troubling calderas in the world is the 150-square-mile Aira caldera in southern Japan, on the edge of which sits the city of Kagoshima. 22,000 years ago 14 cubic miles of material spit out of the ground formed the Aira caldera, which is now largely Kagoshima Bay. That is equal to about 50 Mount St. Helens eruptions.
The Sakura-jima volcano, which forms part of the Aira caldera, has been active on and off for the past century and still causes earthquakes today, indicating that the caldera itself is far from sleeping.
Garita Caldera is a large super volcanic caldera in the San Juan volcanic field in the San Juan Mountains near the town of Creede in southwestern Colorado, United States. The eruption that created the La Garita Caldera is among the largest known volcanic eruptions in Earth’s history.
The La Garita Caldera is one of a number of calderas that formed during a massive flare-up in Colorado, Utah and Nevada from 40–18 million years ago, and was the site of massive eruptions about 28.01±0.04 million years ago, during the Oligocene Epoch.
The scale of La Garita volcanism was the second greatest of the Cenozoic Era. The resulting ash flows the volcano created, most notably the “Fish Canyon Tuff” has a volume of approximately 1,200 cubic miles (5,000 km3), giving it a Volcanic Explosivity Index rating of 8. By comparison, the eruption of Mount St. Helens on 18 May 1980 was 0.25 cubic miles (1.0 km3) in volume.
Cerro Guacha is a Miocene caldera in southwestern Bolivia’s Sur Lípez Province. Part of the volcanic system of the Andes, it is considered to be part of the Central Volcanic Zone (CVZ), one of the three volcanic arcs of the Andes, and its associated Altiplano-Puna volcanic complex (APVC).
Cerro Guacha and the other volcanoes of that region are formed from the subduction of the Nazca plate beneath the South America plate. Above the subduction zone, the crust is chemically modified and generates large volumes of melts that form the local caldera systems of the APVC.
Two major ignimbrites, the 5.6-5.8 mya Guacha ignimbrite with a volume of 1,300 cubic kilometres (310 cu mi) and the 3.5-3.6 mya Tara ignimbrite with a volume of 800 cubic kilometres (190 cu mi) have erupted from Cerro Guacha. More recent activity occurred 1.7 mya and formed a smaller ignimbrite with a volume of 10 cubic kilometres (2.4 cu mi).
The larger caldera has dimensions of 60 by 40 kilometres (37 mi × 25 mi) with a rim altitude of 5,250 metres (17,220 ft). Extended volcanic activity has generated two nested calderas, a number of lava domes and lava flows and a central resurgent dome.
Cerro Galán is a caldera in the Catamarca Province of Argentina. It is one of the largest exposed calderas in the world and forms part of the Central Volcanic Zone of the Andes.
Volcanic activity at Galán is the indirect consequence of the subduction of the Nazca Plate beneath the South America Plate.
The caldera was active between 5.6 and 4.51 million years ago with the largest eruption occurring 2.08 ± 0.02 million years ago producing 1,050 km3 of deposits.
The Island Park Caldera crosses the borders of Idaho and Wyoming in the United States and is one of the world’s largest calderas, with approximate dimensions of 80 by 65 km.
The eruptions ash fall is the source of the Huckleberry Ridge Tuff that is found from southern California to the Mississippi River near St. Louis. This super-eruption of approximately 2,500 km3 (600 cu mi) occurred 2.1 Ma (million years ago) and produced 2,500 times as much ash as the 1980 eruption of Mount St. Helens.
The Island Park Caldera is sometimes referred to as the First Phase Yellowstone Caldera or the Huckleberry Ridge Caldera.
Vilama is a Miocene caldera in Bolivia and Argentina. Straddling the border between the two countries, it is part of the Central Volcanic Zone, one of the four volcanic belts in the Andes. Vilama is remote and forms part of the Altiplano-Puna volcanic complex, a province of large calderas and associated ignimbrites that were active since about 8 million years ago, sometimes in the form of super volcanoes.
Vilama is the source of the enormous Vilama ignimbrite, which was emplaced during an eruption with a volcanic explosivity index of 8 about 8.4–8.5 million years ago. A large amount of the Vilama ignimbrite is inside the caldera depression, while the part outside of the caldera covers a surface area exceeding 4,000 square kilometres (1,500 sq mi). The total volume of the ignimbrite is about 1,200–1,800 cubic kilometres (290–430 cu mi), possibly as much as 2,100 cubic kilometres (500 cu mi). Another large ignimbrite, the Sifon ignimbrite, may also have been erupted by Vilama, while the Granada ignimbrite was later attributed to a separate volcano.
La Pacana is a Miocene age caldera in northern Chile’s Antofagasta Region. Part of the Central Volcanic Zone of the Andes, it is part of the Altiplano-Puna volcanic complex, a major caldera and silicic ignimbrite volcanic field.
La Pacana along with other regional volcanoes was formed by the subduction of the Nazca Plate beneath the South American Plate in the Peru-Chile Trench. La Pacana is responsible for the eruption of the giant Atana ignimbrite, which reaches a volume of 2,451–3,500 cubic kilometres (588–840 cu mi) and constitutes the fifth-largest explosive eruption known. The Atana ignimbrite was erupted 3.8 ± 0.1 and 4.2 ± 0.1 million years ago, almost simultaneously with the much smaller (volume of 180 cubic kilometres (43 cu mi)) Toconao ignimbrite.
Pastos Grandes is the name of a nested caldera and crater lake in Bolivia which is around 35 by 40 kilometres (22 mi × 25 mi) wide and has a maximum depth of 400 metres (1,300 ft).
The caldera is part of the Altiplano-Puna volcanic complex, a large ignimbrite province that is part of the Central Volcanic Zone of the Andes.
Pastos Grandes has erupted a number of ignimbrites through its history, some of which exceeded a volume of 1,000 cubic kilometres (240 cu mi). After the ignimbrite phase, the lava domes of the Cerro Chascon-Runtu Jarita complex were erupted close to the caldera and along faults.