Understanding the Plastic Pollution
This article is part of the KF Plasma Times July 2019
We are seeing these islands of plastics floating in certain parts of the world, because of the internal field forces of the Earth, which match in strength to the C-H (Carbon—Hydrogen) bond of plastic. All the plastics have some sort of a CH3 bond, or a C-H bond. If we look at the map, on the Atlantic Ocean - these are what we call the protein lines. These are where most of the protein lines are produced, where we see the majority of the fishes. We see them in the West Africa area, in the North China Sea, and the same in the South side. If we look at all these pictures in Fig. 1, these are what we call a protein line, which is where we see most of the fishes, and this is where the carbon-hydrogen bond stays. If we look at the African side, for example, just where you see in the West Africa - the West of north of South Africa, and then we go across to what we call Amazon, this is where all the Sahara dust comes. If there was not a Sahara dust coming annually, right across Atlantic into Amazon, Amazon would have been dead. What we see is known as a protein line. We see the same thing in North Atlantic and on the Pacific side. Where we see on the Pacific with the red lines in what is called California side, to the other side - you see a lot of plastics. These is where South China Sea comes in and brings a lot of life into the Ocean. There is a C-H bond, which is a protein bond and they get attracted to it. This is what we do literally in our CO2 box. They are connected. If you see it, is in line and it goes across South America, Brazil into jungles of Brazil and it goes across because it is very thin. All these and the North, are the same.
It comes from the North China Sea. This we know and it is a characteristic of the protein absorption. We can see it, because it is very easy. If we look at the West Africa - the one in the middle. There are two-three reasons for what the plastics gather there. It comes down through South Atlantic and it covers the Amazons, and then it goes across. This is a protein line; this is where we see most of the fishes. The same when you look at Pacific, North Atlantic. It is the same. These are the feeding lines. If we look at the North Atlantic and we see the other end of it, is where you get a lot.
It is connected with the central magnetic gravitational fields. These plastics are like a crust and we do not see them to disintegrate. They stay in the salt water the way they are. And there are some reports that they are very fatty, that they are not normal. Why do you think the animals, a lot of fishes are eating plastic? Because these plastics are in the salt water, so they taste, they behave like protein.
We know that animals, if they eat something wrong, they spit it out - all the fishes do. But they swallow it, because it is tented with a protein. First of all, it has a connection, C-H bonds with a protein, and it is on a feeding line - where we see these protein ocean lines. These are places where most of the fish, heavy fishes are found too. Not the fish as, what we call the amoebas - the origin of life. We have seen it in Australia and in the South Africa. These are heavy ocean lines. Now we understand this is partially the reason. If you look for example, the red sand from central Africa comes over and it covers usually Gambia. Comes to Sierra Leon and it comes down. And then it goes over the Atlantic, and it goes all the way to all the jungles, which we see. They say most of the oxygen of the world is produced in these jungles, which is not accurate. And then the rest of it carries on across, because that part of South America is very thin. And then it goes into the Atlantic until the Indian Ocean on the other side. The jungles of Southern America receive estimated 140 million tons of sand from Central Africa every year. In that process the rest of it lies exactly as we see across the continents and it goes across the continents through to the other side. We have the same kind of process coming through Australia to southern African continent. There are 250 million tons of sand coming from the Central Africa, all the way across to Atlantic; over to the jungles of Amazon and everything going through to the other side across. It happens every year. Where does all this sand comes from? We have descending North China Sea, in the North Pacific, which goes to America. Some of these sandstorms are visible, some of them get watched through the operation of the icebergs. In the snow time it comes from Canada, or it comes from North China. If we look and consider how many millions of tons of sand, for centuries is going across, or in the north part. Where does the sand come from? The Earth attracts these sand particles from the atmosphere. As much as it releases every year, we do not see a dip in the desert, we do not see them running out of sand. The way the atmosphere produces the protein; from the atmosphere into the sea, and then ends of it rains down on the fish - the same thing happens with the desert. In that process, it creates gravitational- magnetic fields of the sand. The gold and other materials, all can come through this. The plastics now have become those sands coming from the sky. Because of the gravitational-magnetic field of the below, they get attracted to the same positions. They get pulled to it - it is the magnetic field created by it, by the proteins. We do not see them anywhere else, we see the majority on the protein line. If you look in West Africa, you have the richest regions of the fish, because they go there to eat. All the big fishes go to have their amino acids from there. The sand from Sahara has a lot of iron. The mixture with the protein creates life - the first phase of life with the sugar and salt in the water; the beginning of the planktons. Then the planktons are purely amino acid mixture with iron from Sahara. These plastics are originally made from the protein- based petroleum or gases, which are the same base, so they get attracted to it. We have made material, to which the magnetic fields of the planet match. It is very easy to get rid of these plastics in the oceans through the Keshe Foundation technology. We have done tests. In 90% of the oceans, we see them getting destroyed now. All the lives - we see it by Australia, by most of the South Pacific and South Atlantic — are losing all the prostrations, which have taken centuries and thousands of years to build up. The seashells are dying , they say because of CO2. We have found the reversal for it. When we look at coral reefs, they do not need to go gray. There is a solution we can just add in their environment and corals come back to life. They just change the condition. We can change the same with the plastics. We are finding a lot of use for plastic bottles and plastic bags. It is amazing what we are finding. When we use plastic bottles in farming, we get a beautiful result. This year we have nearly 100.000 square meter, actually 250,000 square meters, under cultivation, and we are testing with plastic bottles. We expect anything between three to six times harvest. Because, once we create the condition - a specific way of GaNSes in the bottles, the C-H bond of the bottle itself becomes a source of fields.
The structure of the bottles, this C-H is in the gaseous state partially, not in a matter state. We are doing a lot of work, a lot of Keshe Foundations are doing work like this. A lot of huge farms in farmlands use what is called 'drip systems', which is a plastic pipe - just drips water on the roots, on the base of the root. And we have found out we can use the plastic effectively in farming. Very effectively in farming. A lot of people are pushing for degradable plastic. You buy a bottle degradable six months, one year and you happen to put it in a place where there is an electric connection, and it just starts degrading. A lot of research is not coming to public and public does not push for it. There is a problem. Some nations have banned certain kind of plastics. High-density and low-density bags are part of our life. There are two things public have to learn - there is a public LDPE service and public CAP service. Degradable plastic has been ruled out nearly five years, even though they said they are working on it. The hazards which is creating is beyond imagination. There is a lot of problem with plastics. You put medicine in it. What happened in two years, three years just opens up, degrades and you have a child passing and taking it? We have to find an alternative to dispose of it in a safe way. We see how it can be done - it's very easy to degrade it. We see so much plastic on the oceans, we have the facilities, we have the knowledge to unwind them - we are not destroying them. We can create a condition that they just open up and convert to hydrogen and carbon. There will be a huge depletion of what we call agriculture, because of what we understand. If the C and H become available in the presence of water, they extract nitrogen to create proteins. And there will be certain places where you create so much protein. Then they set an amount the planet produces protein through, in conjunction with nitrogen. This has to be controlled very, very drastically, quickly, it has to be understood. It has become so entangled, that people do not want to understand the game of cleaning up. Getting rid of plastic has become a noose around the neck of man. We will have a lot of oil at the bottom of the ocean, but we do not have enough protein for the plants to feed. There is a hypocrisy, we say Amazon produces 1/3 of or 1/5 of the Earth oxygen. What calculation has been done, part of Amazon extracts oxygen from the atmosphere, because it has so much animals, that it just produces enough to hold on its own animals. They breathe it all in. The scientific data nowadays is so precise with satellites, that we see it. In the past 12 months, 18 months what we see in the pattern of Amazons — these are all huge forests areas — we see they produce enough to sustain lives, which are in it. Amazon sometimes runs short. There are so much animals living in it and breeding, that they are consuming it. In a way, these trees are developing more for the animals inside them to be able to live. Is huge. Now we have extracted so much C-H bond as different form of plastics, that if we get rid of them, most of us most probably come up with diseases we have never known; most of the plants will die around the world.
Because the release of so much carbon and hydrogen in the seas, where there is oxygen and nitrogen available and we have a salt - leads to creation of protein. You have plenty of fishes in the sea, or you have plenty of oil at the bottom of it. But we know there is a ratio that Earth, in interaction with the Sun, creates protein, or the through existence of nitrogen. When we take the nitrogen so concentrated in one place, this is what is going to happen. They say about the first ships which went to America, tens of kilometres before they got to the shore, they could not go in. And Christopher Columbus had problem getting to shores, because there was so much fish. We are going to see that, most probably, but in a different form. This plastic is not just cleaning up. What are we going to do? How much are the damages we are going to accept with it? We cannot give fish to the plants to eat. They need the nitrogen protein level for themselves, or we deplete certain strength nitrogen that the body of the man needs. What diseases will come of it? We are looking at this continuously. Corals we can change very quickly. We need just conditions that finally changes the coral area into converting the CO2, which in conjunction with the water becomes the acid. It will take us two or three hundred years controlling to convert the plastic. They say if you further develop the way they crush the plastic and they add it to the tarmac. But how much streets left or roads we can use them in? At the moment there is a technology developed - we are aware of it, we have seen its operation - that converts most of the plastic to energy, electric energy.
The recovery of the plastic from rubbish and conversion, is nearly 90%, 95%. It is developed by the Chinese government. We looked at this machine and it is a conversion of all the plastics to electric energy. That is the closest, safest way we can do it. With no emission, zero emission. As long as you do not clean up the surface, which feeds the bottom, there is no use trying to get rid of the poison in the bottom, because it keeps on washing in. We got to change the atmosphere, environment on the top, give it 3 -10 years for it to wash into the deep reservoirs. And then yes, it is cleaned up. Primarily we can apply a technology to do, but we do not clean up the source. It is one of the problems.
We cannot take one piece anymore and say we solve this one. We have to look at it from the structure A to Z. Then we can solve the problem. The Earth will pull in, it will create enough oil. Just give it time.
I reckon it takes about 18-20 years to fill up the oil reserves, and they will never finish. If you tap into it, the more you pull, the more it gets pulled, but in its time to convert. We have huge transition time and the next cycle, next maybe 200 years, our children still clean up the mess we have created. This generation of us, those of us who were born in the fifties and sixties, have had such a big party, it will take our great-grandchildren maybe to clean up the party we had. We are going into recycling - recycle everything. But if you know how much glass we have produced - all these huge buildings, all these sheets of glass, all these glasses we have produced - something like about 20% of it is getting recycled. Nobody has looked at this glass situation. All the steals, all the metals we have produced, we used. Our generation in trying to develop our lives to be modernized, have created a mess, that it will take centuries to clean up. Centuries, if we ever be able to clean up. The fish, 300.000 pounds, small fishing boats. That is 150.000 kilos of fish in one trip - 3 to 5 days trip. And how long do you think these seas are going to answer, are going to be there? Then it is sold at ten cents a pound, 20 cents a kilo. This planet soon is going to cry: “I do not have enough to give”. It is like a mother; whose breast goes dry and cannot breast-feed the child anymore. We are getting to it. We are pushing it to see when it is going to dry up.
