Radioactive Pollution Quotes

...we're a people who pollute the very air we breathe. And our rivers. We're destroying the great lakes; Erie is already gone, and now we've begun on the oceans. We filled our atmosphere with radioactive fallout that put poison into our children's bones, and we knew it. We've made bombs that can wipe out humanity in minutes, and they are aimed and ready to fire. We ended polio, and then the United States Army bred new strains of germs that can cause fatal, incurable disease. We had a chance to do justice to our Negroes, and when they asked it, we refused. In Asia we burned people alive, we really did. We allow children to grow up malnourished in the United States. We allow people to make money by using our television channels to pursued our own children to smoke, knowing what it is going to do to them. This is a time when it becomes harder and harder to continue telling yourself that we are still good people. We hate each other. And we're used to it.

Pages could be written on the immense losses of productive soil that occur annually in almost every continent of the earth; on lethal air pollution episodes in major urban areas; on the worldwide distribution of toxic agents, such as radioactive isotopes and lead; on the chemicalization of man's immediate environment—one might say his very dinner table—with pesticide residues and food additives. Pieced together like bits of a jigsaw puzzle, these affronts to the environment form a pattern of destruction that has no precedent in man's long history on earth.

It’s perilous and foolhardy for the average citizen to remain ignorant about global warming, say, or ozone depletion, air pollution, toxic and radioactive wastes, acid rain, topsoil erosion, tropical deforestation, exponential population growth.

the consequences of scientific illiteracy are far more dangerous in our time than in any that has come before. It’s perilous and foolhardy for the average citizen to remain ignorant about global warming, say, or ozone depletion, air pollution, toxic and radioactive wastes, acid rain, topsoil erosion, tropical deforestation, exponential population growth. Jobs and wages depend on science and technology. If our nation can’t manufacture, at high quality and low price, products people want to buy, then industries will continue to drift away and transfer a little more prosperity to other parts of the world. Consider the social ramifications of fission and fusion power, supercomputers, data “highways,” abortion, radon, massive reductions in strategic weapons, addiction, government eavesdropping on the lives of its citizens, high-resolution TV, airline and airport safety, fetal tissue transplants, health costs, food additives, drugs to ameliorate mania or depression or schizophrenia, animal rights, superconductivity, morning-after pills, alleged hereditary antisocial predispositions, space stations, going to Mars, finding cures for AIDS and cancer. How can we affect national policy—or even make intelligent decisions in our own lives—if we don’t grasp the underlying issues?

The rise of Autism has coincided with: 1. Color televisions. 2. Double glazing & window coatings. 3. Insulated homes that are abnormally quiet. 4. Cell phones. 5. Satellites. 6. Affordable Jet Travel. 7. Home computers & video games. 8. Energy efficient light bulbs. 9. Immunizations. 10. Global Pollution. 11. Processed foods. 12. Adoption of cars by the masses. 13. Radioactive smoke detectors in the home. 14. Increasing television screen sizes. 15. WiFi. 16. Energy Star homes that are sealed up and lacking external fresh air ventilation. 17. FM stereo radio.

I won’t let you stay here. Julia, we’re a people who pollute the very air we breathe. And our rivers. We’re destroying the Great Lakes; Erie is already gone, and now we’ve begun on the oceans. We filled our atmosphere with radio-active fallout that put poison into our children’s bones, and we knew it. We’ve made bombs that can wipe out humanity in minutes, and they are aimed and ready to fire. We ended polio, and then the United States Army bred new strains of germs that can cause fatal, incurable disease. We had a chance to do justice to our Negroes, and when they asked it, we refused. In Asia we burned people alive, we really did. We allow children to grow up malnourished in the United States. We allow people to make money by using our television channels to persuade our own children to smoke, knowing what it is going to do to them. This is a time when it becomes harder and harder to continue telling yourself that we are still good people. We hate each other. And we’re used to it.

In the summer of 2011, a Japanese farmer planted sunflower seeds in the tainted soil of Fukushima, a few miles away from the earthquake-damaged Daiei nuclear facilities. The radioactive leakage had continued since the devastating tsunami on March 11, 2011. Why would he do that? It’s because he learned that sunflowers have a unique ability to take up radioactive isotopes and store them in their seeds. The farmer would harvest the flowers, which contained pods of radioactivity, making the earth less polluted.

I don’t know to what extent ignorance of science and mathematics contributed to the decline of ancient Athens, but I know that the consequences of scientific illiteracy are far more dangerous in our time than in any that has come before. It’s perilous and foolhardy for the average citizen to remain ignorant about global warming, say, or ozone depletion, air pollution, toxic and radioactive wastes, acid rain, topsoil erosion, tropical deforestation, exponential population growth. Jobs and wages depend on science and technology. If our nation can’t manufacture, at high quality and low price, products people want to buy, then industries will continue to drift away and transfer a little more prosperity to other parts of the world. Consider the social ramifications of fission and fusion power, supercomputers, data “highways,” abortion, radon, massive reductions in strategic weapons, addiction, government eavesdropping on the lives of its citizens, high-resolution TV, airline and airport safety, fetal tissue transplants, health costs, food additives, drugs to ameliorate mania or depression or schizophrenia, animal rights, superconductivity, morning-after pills, alleged hereditary antisocial predispositions, space stations, going to Mars, finding cures for AIDS and cancer.

I know that the consequences of scientific illiteracy are far more dangerous in our time than in any that has come before. It’s perilous and foolhardy for the average citizen to remain ignorant about global warming, say, or ozone depletion, air pollution, toxic and radioactive wastes, acid rain, topsoil erosion, tropical deforestation, exponential population growth. Jobs and wages depend on science and technology. If our nation can’t manufacture, at high quality and low price, products people want to buy, then industries will continue to drift away and transfer a little more prosperity to other parts of the world. Consider the social ramifications of fission and fusion power, supercomputers, data “highways,” abortion, radon, massive reductions in strategic weapons, addiction, government eavesdropping on the lives of its citizens, high-resolution TV, airline and airport safety, fetal tissue transplants, health costs, food additives, drugs to ameliorate mania or depression or schizophrenia, animal rights, superconductivity, morning-after pills, alleged hereditary antisocial predispositions, space stations, going to Mars, finding cures for AIDS and cancer. How can we affect national policy—or even make intelligent decisions in our own lives—if we don’t grasp the underlying issues? As I write, Congress is dissolving its own Office of Technology Assessment—the only organization specifically tasked to provide advice to the House and Senate on science and technology. Its competence and integrity over the years have been exemplary. Of the 535 members of the U.S. Congress, rarely in the twentieth century have as many as one percent had any significant background in science. The last scientifically literate President may have been Thomas Jefferson.* So how do Americans decide these matters? How do they instruct their representatives? Who in fact makes these decisions, and on what basis? —

It is a hot summer day in Tennessee in the midst of the sixth decade of this century. The girl has climbed the fence to get to the swimming hole she has visited so many summers of her life in the time before this part of the land was enclosed. She stands now at the edge of it. Her body is sticky with heat. The surface of the water moves slightly. Sunlight shimmers and dances in a green reflection that seems as she stares at it to pull her in even before her skin is wet with it. Drops of water on the infant’s head. All the body immersed for baptism. Do these images come to her as she sinks into the coolness? The washing of hands before Sunday’s midday meal. All our sins washed away. Water was once the element for purification. But at the bottom of this pool, There is no telling what is there now. This is what the girl’s father will say to her finally: corroded cans of chemical waste, some radioactive substances. That was why they put the fence there. She is not thinking of that now. The words have not yet been said, and so for her no trouble exists here. The water holds up her body. She is weightless in this fulsome element, the waves her body makes embracing her with their own benediction. Beneath her in the shadowy green, she feels the depth of the pond. In this coolness as the heat mercifully abates, her mind is set free, to dream as the water dreams.

demonstrating that the first of these, the integral fast reactor, was safe even under the circumstances that destroyed Three Mile Island 2 and would prove disastrous at Chernobyl and Fukushima. The liquid fluoride thorium reactor (LFTR), an even more advanced concept developed at Tennessee’s Oak Ridge National Laboratory, is fueled by thorium. More plentiful and far harder to process into bomb-making material than uranium, thorium also burns more efficiently in a reactor and could produce less hazardous radioactive waste with half-lives of hundreds, not tens of thousands, of years. Running at atmospheric pressure, and without ever reaching a criticality, the LFTR doesn’t require a massive containment building to guard against loss-of-coolant accidents or explosions and can be constructed on such a compact scale that every steel mill or small town could have its own microreactor tucked away underground. In 2015 Microsoft founder Bill Gates had begun funding research projects similar to these fourth-generation reactors in a quest to create a carbon-neutral power source for the future. By then, the Chinese government had already set seven hundred scientists on a crash program to build the world’s first industrial thorium reactor as part of a war on pollution. “The problem of coal has become clear,” the engineering director of the project said. “Nuclear power provides the only solution.

For example, in order to increase wind and solar capacity significantly, we would need to increase the production of concrete, steel, copper and numerous other materials considerably. Even with increased material efficiency, this will mean more mines and more environmental damages in the form of open cast mines, tailings ponds, smelters and pollution. Somewhat ironically, the rare earths required in solar PV, electric cars and wind turbines even leave radioactive waste at scales comparable with uranium mining required for equivalent energy production. Even when uranium

Instead of the old punishing puritanical moralisms about dropping litter on the street, we need a new and enjoyable animism that children would be the first to understand. “Don’t throw that candy wrapper on the street”—not because it’s dirty or bad manners; not because it’s wrong; not because “what if everybody did that?”—but instead “because your candy wrapper doesn’t want to lie around in the gutter or be stepped on; it wants to be in the trash basket along with all its friends.” When things are not properly buried, cremated or composted, could their souls remain as haunting and poisoning ghosts endangering the community, especially the most vulnerable, the children? Pollution is not only chemical and radioactive. There is psychological pollution, too.

Carlton Church Warning - Nuclear Fraud Scheme North Korea has been producing different nuclear weapons since last year. They have sent warning on the neighboring countries about their plan for a nuclear test. Not just South Korea, but other countries like China, U.S., and Japan have stated their complaints. Even the United Nations has been alarmed by North Korea’s move. During the last period of World War, a bomb has been used to attack Japan. Happened on 6th of August 1945, Enola Gay dropped an atomic bomb just 10 kilometers away from Tokyo. This is why people and organizations like Carlton Church who’s against the use of nuclear power for production of armory in war. Many protested that it is a threat to mankind and environment. Groups who are in favor of the nuclear use explained its advantage. They say it can be helpful in generating electricity that can be used for residential and commercial purposes. They also expound how it is better to use than coal mining as it is “less harmful to the environment.” Nuclear Use: Good or Bad? Groups who are against the use of nuclear reactor and weapons try to persuade people about its catastrophic result to the environment and humankind. If such facility will be used to create weapons, there is a possibility for another world war. But the pro-nuclear groups discuss the good effects that can be gained from it. They give details on how greenhouse gas effect of coal-burning can emit huge amounts of greenhouse gases and other pollutants such as sulfur dioxide nitrogen oxide, and toxic compounds of mercury to the atmosphere every year. Burning coal can produce a kilowatt-hour of electricity but it also amounts to over two pounds of carbon dioxide emissions. They also added that the amount of carbon dioxide it produces contributes to climate change. Sulfur dioxide may cause the formation of acid rain and nitrogen oxide, if combined with VOCs, will form smog. Nuclear power plants do not emit harmful pollutants or other toxic gases. Generating energy from nuclear involves intricate process, but as a result, it produces heat. These plants have cooling towers that release water vapor. If the facility has been properly managed it may not contribute disturbance in the atmosphere. It may sound better to use compared to coal. But studies have shown that the vapor that came from nuclear plants have an effect to some coastal plants. The heated water that was released goes back to lakes and seas, and then the heat will eventually diffuse into surface warming. As a result of the increased water temperature on the ocean bodies, it changes the way carbon dioxide is transferred within the air. In effect, major shifts in weather patterns such as hurricanes may occur. It does not stop there. The nuclear power plant produces radioactive waste, which amounts to 20 metric tons yearly. Exposure to high-level radiation is extremely harmful and fatal to human and animals. The waste material must be stored carefully in remote locations for many years. Carlton Church and other anti-nuclear groups persuade the public to initiate banning of the manufacturing of nuclear products and give warnings about its health hazards and environmental effects.

With this advance, it is easier to imagine, in the not-too-distant future, a colony of specially designed microbes living within the emission-control system of a coal-fired plant, consuming its pollution and its carbon dioxide, or employing microbes to radically reduce water pollution, or to reduce the toxic effects of radioactive waste.

The technosphere is described here as if neither history nor social or political dynamics mattered. It does not take into account collective agency or political, economic, and social structures, let alone the evolution of knowledge with its powerful impact on shaping technological systems. Has human technology now reached a stage (or will it any time soon) at which it attains the autonomy of an organism with its own agency - an autopoietic structure reproducing its own organization? Such generalizations tend to overlook some essential features of human interaction with the global environment. For instance, while the biosphere has proven its resilience over the course of at least 3.5 billion years of evolution, the technosphere may turn out to be a rather fragile scaffolding for human existence. While it is quite conceivable that the sum total of the unintended consequences of our actions has developed its own dynamics, even in the age of the Anthropocene escape routes may still be left to us - an observation, however, that does not imply, vice versa, that there will be a guarantee for the existence of an escape route. It rather appears that the dynamics underlying the Anthropocene might well enhance both the challenges with which we are confronted and our opportunities to react to them, leaving the question open as to whether the latter will always be sufficient to match the former. Is it possible, for instance, that geoengineering can intervene in the planetary system to the point that a new state of the planetary system would be reached in which high carbon dioxide concentration, radioactive pollution, and other unintended consequences of industrialization are no longer challenging problems but can be safely kept under control by novel technologies? Given the fact that macro-scale interventions in the Earth system are beyond anything that human engineering has achieved so far, and given the fact that there are still important gaps in our knowledge about our planetary system, we are certainly on the safer side to prioritize, at least for the time being and to the extent that it is possible at all, the preservation of our existing Earth system and damage control.

Contamination from plastic pollution is a terrestrial problem as much as it is a marine problem. Humans have altered the earth with roads, mines, buildings, ditches, dams, and dumps to the degree that our era deserves a name--the Anthropocene. Natural history is punctuated by changes in life, due either to rapid evolution or catastrophic extinction, and evidence of change is sometimes marked by well-preserved, widely distributed fossils. What is our fossil equivalent? Some suggest it's black carbon from the Industrial Revolution, which shows up in the seafloor and ice caps, or it's radioactive isotopes from the mid-twentieth-century nuclear tests. Now, with evidence of plastic, transported by wind and waves, blanketing Earth from the seafloor to the tops of mountains, it is arguable that plastic is the best index fossil that represents us. Even if we stop polluting the planet with plastic today, we will have to live with a layer of microplastics that will represent this moment in natural history, when a single species so deeply affected the planet for a short while.