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Villarmea ,. Education: Doctor of Philosophy. Villordon ,. Mae Brigitt Bernadel L. Vinarao ,. Vittorio Alejandre Marcus G. Vista ,. Waddington ,. Education: PhD-Peace and Development. Wong ,. Yao ,. Yap ,. Yape ,. Education: BSEd-Filipino. Ygnalaga Jr. Yrad ,. Education: M-Chemistry. Zamar ,. Zamora ,. Education: MS- Agric. In Tropical Animal. Ulmer Jr. Richard L. Valaik Robert F. Valone Thomas H. Dale M. Vukelic David C. Wagner Matthew X. Wagner Richard A.

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Munro James C. Nosky Edward M. Perna Ronald F. Poe Gerald E. Powers John E. Ruska Bernard J. Ryczek Edward R. Szemraj Ralph A. Szweda Richard S. Szymanski Bruce P. Thill, PhD Thomas J. Vaughan James R. Walsh David H. Wrotniak Marie G. Zafron Alfred W. Zielonka, PhD. Baker II Richard P. Becht Peter X. Bernbeck Jr. Bogner David R. Brackenridge, PhD Harold J. Brand Jr. Joseph J. Callanan, MD James F. Coffey Edwin T. Collins, PhD Vincent A. Coppola Lewis W.

Dance Michael P. Davis Robert J. Gutt Daniel P. Kane Henry J. Kaye Rosemary E. Kersten Jack E. Kirsch Robert L. Mahoney Julius P. Maltbie Joseph R. Marotta James J. Maul, PhD Joseph W. McCarthy Raymond G. McGuire Paul J. Padula Richard W. Parker Basil J. Piazza James D. Reed John F. Reilly Jr. Richards Richard D. Rush Peter H. Ryan Joseph B. Schaefer Roger G. Schneggenburger, PhD James J. Verso Peter P. Zaleski Ronald F. Kerr Richard E.

Kilroy William N. Knopka, PhD Joseph E. Kuczkowski, PhD Paul T. LaFalce Raymond J. Lange, PhD Thomas C. Mack Eugene L. Mages John F. Marszalek, PhD James N. McCormick James E. McMorrow Edmund A. Napieralski, PhD Bart J. Nigro Robert M. Ognibene, PhD Mary L. Pascucci Michael A. Pasquarella Joseph T. Rebhan Francis J. Riga Joseph J.

Scalisi Edward L. Schaefer Robert J. Schuder, MD Francis J. Seymour Jr. Angelo J. Sorci Joseph H. Spahn Norman J. Stafford Paul F. Stockschlaeder John L. Strauss David W. Teloh Arthur F. Tomczak William G. Wescott Jr. Raymond A. Whall John G. Wirth Jr.

Frederick R. Andrle Natale A. Baratta Barbara L. Biedny Donald T. Breen John M. Buchheit John M. Cleary Jr. James E. Cusimano Michael L. Donahue Alvan J. Donner Rev. Norman E. Dunkle William C. Gates Arthur H. Graves David J. Greenman, PhD Robert A. Hoffman Robert L. Infantino, EdD Herbert R. Jurek Matthew R. Katrein Joseph C. Kelley William F. Kennedy David R. Kerner Robert J. Frederick G. Attea Walter M. Balon Thomas A. Barrett Bohdan Bejger William L. Boeck, PhD Thomas C.

Burke Daniel L. Casciano James E. Cavanagh Joseph V. Clonan Jr. Henry T. Conforti Robert R. Davis, PhD Joseph A. DeVincentis John P. Dee Terrence L. Dobbins James T. Dunnigan Edwin R. Evans, PhD Robert F. Faisant Gerald H. Greene Jr. Anthony V. Grisanti, MD Roberta A. Imboden Leonard J. Jarmusz James T. Kerr Jr. Henry W. Kugel, PhD John N. Lofft Denis E. Loncto Salvatore R. Martoche William F. Marx Donald E.

Meyer Peter A. Mirando, PhD George J. Nathan, PhD James F. Nowak F. Patrick Roll James D. Ryan, PhD Ann B. Salter Edward H. Skerrett William J. Skieresz John J. Slivka, PhD Philip S. Volastro, MD Peter J. Andruschat Frank A. Belliotti Walter A. Borowiec, PhD Rev. Philip W. Brady Robert J. Brandon Dennis M. Burns James S. Castiglione Frank P.

Cecala Arthur E. Chester John R. Claus Nelson H. Cosgrove James M. Cunningham Dennis J. Dougherty Doris H. Erickson Russell A. Foran Ralph A. Gruppo, MD Amy J. Habib Joseph A. Halizak Leonard J. Hill Jr. Gerald R. Hintz, PhD Ronald J. Huefner, PhD Martin F. Idzik Daniel J.

Jackson Jr. Jaros William F. Koch Charles R. Kristich Joseph A. Kuczkowski, PhD Anthony J. Lafornara Ronald R. Laski Dennis C. Macro Margaret M. Manos David J. Manzo, PhD Alvin J. McKenna Norman C. McMahon John P. Menchini, MD. CanisiusFund Andrew D. Merrick John J. Messina Roger O. The computer climate models upon which "human-caused global warming" is based have substantial uncertainties and are markedly unreliable. This is not surprising, since the climate is a coupled, non-linear dynamical system.

It is very complex. Figure 19 illustrates the difficulties by comparing the radiative CO2 greenhouse effect with correction factors and uncertainties in some of the parameters in the computer climate calculations. Other factors, too, such as the chemical and climatic influence of volcanoes, cannot now be reliably computer modeled.

Since , hydrocarbon use has risen 6-fold. Yet, this rise has had no effect on the temperature trends, which have continued their cycle of recovery from the Little Ice Age in close correlation with increasing solar activity.

Not only has the global warming hypothesis failed experimental tests, it is theoretically flawed as well. It can reasonably be argued that cooling from negative physical and biological feedbacks to greenhouse gases nullifies the slight initial temperature rise 84, The reasons for this failure of the computer climate models are subjects of scientific debate For example, water vapor is the largest contributor to the overall greenhouse effect It has been suggested that the climate models treat feedbacks from clouds, water vapor, and related hydrology incorrectly 85, The global warming hypothesis with respect to CO2 is not based upon the radiative properties of CO2 itself, which is a very weak greenhouse gas.

It is based upon a small initial increase in temperature caused by CO2 and a large theoretical amplification of that temperature increase, primarily through increased evaporation of H2O, a strong greenhouse gas. Any comparable temperature increase from another cause would produce the same calculated outcome.

Thus, the 3,year temperature record illustrated in Figure 1 also provides a test of the computer models. The historical temperature record shows that the Earth has previously warmed far more than could be caused by CO2 itself. Since these past warming cycles have not initiated water-vapor-mediated atmospheric warming catastrophes, it is evident that weaker effects from CO2 cannot do so.

Methane is also a minor greenhouse gas. World CH4 levels are, as shown in Figure 20, leveling off. In the U. The total amount of CH4 produced from these U. Moreover, the record shows that, even while methane was increasing, temperature trends were benign. There are no empirical records that verify either these models or their flawed predictions Claims 97 of an epidemic of insect-borne diseases, extensive species extinction, catastrophic flooding of Pacific islands, ocean acidification, increased numbers and severities of hurricanes and tornados, and increased human heat deaths from the 0.

The "human-caused global warming" hypothesis and the computer calculations that support it are in error. They have no empirical support and are invalidated by numerous observations. What steps could mankind take if solar activity or other effects began to shift the Earth toward temperatures too cold or too warm for optimum human life? First, it would be necessary to determine what temperature humans feel is optimum.

It is unlikely that the chosen temperature would be exactly that which we have today. Second, we would be fortunate if natural forces were to make the Earth too warm rather than too cold because we can cool the Earth with relative ease. We have no means by which to warm it. Attempting to warm the Earth with addition of CO2 or to cool the Earth by restrictions of CO2 and hydrocarbon use would, however, be futile.

Neither would work. Inexpensively blocking the sun by means of particles in the upper atmosphere would be effective. Penner, A. Schneider, and E. Kennedy have proposed 98 that the exhaust systems of commercial airliners could be tuned in such a way as to eject particulate sun-blocking material into the upper atmosphere. Later, Edward Teller similarly suggested 18 that particles could be injected into the atmosphere in order to reduce solar heating and cool the Earth.

Both methods use particles so small that they would be invisible from the Earth. These methods would be effective and economical in blocking solar radiation and reducing atmospheric and surface temperatures. There are other similar proposals World energy rationing, on the other hand, would not work. The climate of the Earth is now benign. If temperatures become too warm, this can easily be corrected. This would help humanity adapt and might lead to new mitigation technology.

At ultimate equilibrium with the ocean and other reservoirs there will probably be very little increase. The current rise is a non-equilibrium result of the rate of approach to equilibrium. One reservoir that would moderate the increase is especially important. Plant life provides a large sink for CO2. Using current knowledge about the increased growth rates of plants and assuming increased CO2 release as compared to current emissions, it has been estimated that atmospheric CO2 levels may rise to about ppm before leveling off.

At that level, CO2 absorption by increased Earth biomass is able to absorb about 10 Gt C per year At present, this absorption is estimated to be about 3 Gt C per year As atmospheric CO2 increases, plant growth rates increase. Also, leaves transpire less and lose less water as CO2 increases, so that plants are able to grow under drier conditions.

Animal life, which depends upon plant life for food, increases proportionally. Figures 21 to 24 show examples of experimentally measured increases in the growth of plants. These examples are representative of a very large research literature on this subject As Figure 21 shows, long-lived 1, to 2,year-old pine trees have shown a sharp increase in growth during the past half-century. Much of this increase is due to the increase in atmospheric CO2 that has already occurred.

In addition, it has been reported that Amazonian rain forests are increasing their vegetation by about pounds of carbon per acre per year , or approximately 2 tons of biomass per acre per year. Trees respond to CO2 fertilization more strongly than do most other plants, but all plants respond to some extent. Since plant response to CO2 fertilization is nearly linear with respect to CO2 concentration over the range from to ppm, as seen in Figure 23, experimental measurements at different levels of CO2 enrichment can be extrapolated.

This has been done in Figure 24 in order to illustrate CO2 growth enhancements calculated for the atmospheric increase of about 88 ppm that has already taken place and those expected from a projected total increase of ppm. Wheat growth is accelerated by increased atmospheric CO2, especially under dry conditions.

Figure 24 shows the response of wheat grown under wet conditions versus that of wheat stressed by lack of water. The underlying data is from open-field experiments. Wheat was grown in the usual way, but the atmospheric CO2 concentrations of circular sections of the fields were increased by arrays of computer-controlled equipment that released CO2 into the air to hold the levels as specified , The relative growth enhancement of trees by CO2 diminishes with age.

Figure 24 shows young trees. Figure 23 summarizes experiments in which plants of various types were raised under CO2-enhanced conditions. The selections of species in Figure 23 were biased toward plants that respond less to CO2 fertilization than does the mixture actually covering the Earth, so Figure 23 underestimates the effects of global CO2 enhancement. Clearly, the green revolution in agriculture has already benefitted from CO2 fertilization, and benefits in the future will be even greater.

Animal life is increasing proportionally, as shown by studies of 51 terrestrial and 22 aquatic ecosystems Atmospheric CO2 is required for life by both plants and animals. It is the sole source of carbon in all of the protein, carbohydrate, fat, and other organic molecules of which living things are constructed. Plants extract carbon from atmospheric CO2 and are thereby fertilized. Animals obtain their carbon from plants.

Without atmospheric CO2, none of the life we see on Earth would exist. Water, oxygen, and carbon dioxide are the three most important substances that make life possible. They are surely not environmental pollutants. Industrial conversion of energy into forms that are useful for human activities is the most important aspect of technology.

Abundant inexpensive energy is required for the prosperous maintenance of human life and the continued advance of life-enriching technology. People who are prosperous have the wealth required to protect and enhance their natural environment. Currently, the United States is a net importer of energy as shown in Figure Political calls for a reduction of U.

Despite enormous tax subsidies over the past 30 years, green sources still provide only 0. Yet, the U. It should, instead, be a net exporter of energy. There are no climatological impediments to increased use of hydrocarbons, although local environmental effects can and must be accommodated. Nuclear energy is, in fact, less expensive and more environmentally benign than hydrocarbon energy, but it too has been the victim of the politics of fear and claimed disadvantages and dangers that are actually negligible.

For example, the "problem" of high-level "nuclear waste" has been given much attention, but this problem has been politically created by U. Spent nuclear fuel can be recycled into new nuclear fuel. It need not be stored in expensive repositories. Reactor accidents are also much publicized, but there has never been even one human death associated with an American nuclear reactor incident.

By contrast, American dependence on automobiles results in more than 40, human deaths per year. All forms of energy generation, including "green" methods, entail industrial deaths in the mining, manufacture, and transport of resources they require.

Nuclear energy requires the smallest amount of such resources and therefore has the lowest risk of deaths. Estimated relative costs of electrical energy production vary with geographical location and underlying assumptions. Figure 26 shows a recent British study, which is typical.

To be sure, future inventions in energy technology may alter the relative economics of nuclear, hydrocarbon, solar, wind, and other methods of energy generation. These inventions cannot, however, be forced by political fiat, nor can they be wished into existence. Alternatively, "conservation," if practiced so extensively as to be an alternative to hydrocarbon and nuclear power, is merely a politically correct word for "poverty.

Energy is produced by private industry. Why then has energy production thrived abroad while domestic production has stagnated? This stagnation has been caused by United States government taxation, regulation, and sponsorship of litigation, which has made the U. In addition, the U. It is not necessary to discern in advance the best course to follow. Legislative repeal of taxation, regulation, incentives to litigation, and repeal of all subsidies of energy generation industries would stimulate industrial development, wherein competition could then automatically determine the best paths.

Nuclear power is safer, less expensive, and more environmentally benign than hydrocarbon power, so it is probably the better choice for increased energy production. Solid, liquid and gaseous hydrocarbon fuels provide, however, many conveniences, and a national infrastructure to use them is already in place.

Oil from shale or coal liquefaction is less expensive than crude oil at current prices, but its ongoing production costs are higher than those for already developed oil fields. There is, therefore, an investment risk that crude oil prices could drop so low that liquefaction plants could not compete. Nuclear energy does not have this disadvantage, since the operating costs of nuclear power plants are very low. Figure 27 illustrates, as an example, one practical and environmentally sound path to U.

If this were increased by GWe, nuclear power could fill all current U. Moreover, if heat from additional nuclear reactors were used for coal liquefaction and gasification, the U. This heat could also liquify biomass, trash, or other sources of hydrocarbons that might eventually prove practical.

The Palo Verde nuclear power station near Phoenix, Arizona, was originally intended to have 10 nuclear reactors with a generating capacity of 1, megawatts each. This installation is sited on 4, acres of land and is cooled by waste water from the city of Phoenix, which is a few miles away. An area of 4, acres is 6. The power station itself occupies only a small part of this total area. Nuclear technology has advanced substantially since Palo Verde was built, so plants constructed today would be even more reliable and efficient.

Construction costs could be repaid in just a few years by the capital now spent by the people of the United States for foreign oil and by the change from U. The 50 nuclear installations might be sited on a population basis. If so, California would have six, while Oregon and Idaho together would have one. In view of the great economic value of these facilities, there would be vigorous competition for them.

In addition to these power plants, the U. This would lower fuel cost and eliminate the storage of high-level nuclear waste. Fuel for the reactors can be assured for 1, years by using both ordinary reactors with high breeding ratios and specific breeder reactors, so that more fuel is produced than consumed. The heat from a 1, MWe reactor can produce 38, barrels of coal-derived oil per day This is twice the oil production of Saudi Arabia.

Current proven coal reserves of the United States are sufficient to sustain this production for years This liquified coal exceeds the proven oil reserves of the entire world. The reactors could produce gaseous hydrocarbons from coal, too. The remaining heat from nuclear power plants could warm air or water for use in indoor climate control and other purposes. Nuclear reactors can also be used to produce hydrogen, instead of oil and gas , The current cost of production and infrastructure is, however, much higher for hydrogen than for oil and gas.

Technological advance reduces cost, but usually not abruptly. A prescient call in for the world to change from wood to methane would have been impracticably ahead of its time, as may be a call today for an abrupt change from oil and gas to hydrogen. In distinguishing the practical from the futuristic, a free market in energy is absolutely essential.

Surely these are better outcomes than are available through international rationing and taxation of energy as has been recently proposed 82,83,97, This nuclear energy example demonstrates that current technology can produce abundant inexpensive energy if it is not politically suppressed. There need be no vast government program to achieve this goal. It could be reached simply by legislatively removing all taxation, most regulation and litigation, and all subsidies from all forms of energy production in the U.

With abundant and inexpensive energy, American industry could be revitalized, and the capital and energy required for further industrial and technological advance could be assured. Also assured would be the continued and increased prosperity of all Americans. The people of the United States need more low-cost energy, not less. If this energy is produced in the United States, it can not only become a very valuable export, but it can also ensure that American industry remains competitive in world markets and that hoped-for American prosperity continues and grows.

In this hope, Americans are not alone. Across the globe, billions of people in poorer nations are struggling to improve their lives. These people need abundant low-cost energy, which is the currency of technological progress. In newly developing countries, that energy must come largely from the less technologically complicated hydrocarbon sources. It is a moral imperative that this energy be available.

Otherwise, the efforts of these peoples will be in vain, and they will slip backwards into lives of poverty, suffering, and early death. Energy is the foundation of wealth. Inexpensive energy allows people to do wonderful things. For example, there is concern that it may become difficult to grow sufficient food on the available land. Crops grow more abundantly in a warmer, higher CO2 environment, so this can mitigate future problems that may arise Energy provides, however, an even better food insurance plan.

Energy-intensive hydroponic greenhouses are 2, times more productive per unit land area than are modern American farming methods Therefore, if energy is abundant and inexpensive, there is no practical limit to world food production. Fresh water is also believed to be in short supply. With plentiful inexpensive energy, sea water desalination can provide essentially unlimited supplies of fresh water. During the past years, human ingenuity in the use of energy has produced many technological miracles.

These advances have markedly increased the quality, quantity, and length of human life. Technologists of the 21st century need abundant, inexpensive energy with which to continue this advance. Were this bright future to be prevented by world energy rationing, the result would be tragic indeed. In addition to human loss, the Earth's environment would be a major victim of such a mistake.

Inexpensive energy is essential to environmental health. Prosperous people have the wealth to spare for environmental preservation and enhancement. Poor, impoverished people do not. There is no reason to limit human production of CO2, CH4, and other minor greenhouse gases as has been proposed 82,83,97, We also need not worry about environmental calamities even if the current natural warming trend continues. The Earth has been much warmer during the past 3, years without catastrophic effects.

Warmer weather extends growing seasons and generally improves the habitability of colder regions. As coal, oil, and natural gas are used to feed and lift from poverty vast numbers of people across the globe, more CO2 will be released into the atmosphere.

This will help to maintain and improve the health, longevity, prosperity, and productivity of all people. The United States and other countries need to produce more energy, not less. The most practical, economical, and environmentally sound methods available are hydrocarbon and nuclear technologies.

Human use of coal, oil, and natural gas has not harmfully warmed the Earth, and the extrapolation of current trends shows that it will not do so in the foreseeable future. The CO2 produced does, however, accelerate the growth rates of plants and also permits plants to grow in drier regions. Animal life, which depends upon plants, also flourishes, and the diversity of plant and animal life is increased.

Human activities are producing part of the rise in CO2 in the atmosphere. Mankind is moving the carbon in coal, oil, and natural gas from below ground to the atmosphere, where it is available for conversion into living things. We are living in an increasingly lush environment of plants and animals as a result of this CO2 increase.

Our children will therefore enjoy an Earth with far more plant and animal life than that with which we now are blessed. Robinson, A. Soon, W. Keigwin, L. Oerlemanns, J. Marland, G. Idso, S. Akasofu, S. Teller, E. National Climatic Data Center, U. Department of Commerce Climate Review. Landsea, C. Goldenberg, S. Jevrejeva, S. Geophysical Res. Leuliette, E. Polyakov, I. Christy, J. Zhu, P. Neff, U. Jiang, H. Wang, Y.

Hammel, H. Goodridge, J. Hansen, J. Jaworowski, Z. Segalstad, T. Bate, Keeling, C. Faraday, M. Davis, C. Lindzen, R. Le Treut, Berlin: Springer-Verlag, Spencer, R. Khalil, M. Penner, S S. Nuclear War and Planetary Emergencies, ed. Raigaina, World Scientific Publishing, Singapore, Waddell, K.

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Wilson Walter M. Figures, Tables, and Topics from this paper. Stochastic and deterministic dynamics of including the role of synchrony inhibitory interneurons. Research Assistant Carolyn Lacey. Callanan, MD James F. Davis, PhD Joseph A. Holler, MD Thomas W. Collins, PhD Vincent A. Grisanti, MD Roberta A. Lafornara, PhD Stephen R.

Events can be canceled or postponed due to coronavirus. FINISHED. Konzert "​Andrea Bettinger & Klaus Stiefel". Friday, 28 August - Andrea Bettinger & Klaus Stiefel – „Favourite Songs“ Hosted By Kultur Gemeinde Saarwellingen. Event starts on Friday, 31 January and. Afonso, Andrea Luísa Fernandes. Adamides Bedon, Chiara. Baumann, Klaus Bettinger, Pete. Bergquist Stiefel, Barry. Steffensen.