Global Warming 2020

Global Warming Articles : The Effects of Global Warming Explained by Della Franklin

At one point or another, we all have probably heard the term “global warming”. Many people have heard the term so much that they tune it out when they hear it. Many people do not realize how serious global warming is. Many people may not realize what global warming is all about. There are some people that do not even understand exactly what global warming is. Global warming is just as it says. It is the condition in which the entire world is seeing higher temperatures. Here, we will explain the effects of global warming so that you can see how it can affect you.

The first effect of global warming is, of course, the rising temperatures that the world has experienced. Even higher temperatures are expected to come as a result of global warming, Higher temperatures means that more crops will go bad, more people will die as a result of the rising temperatures, and the world as a whole will suffer in many ways as a result of higher temperatures. When the world experiences a shift in temperatures, many natural disasters may start to occur. Some of these natural disasters will start to increase as global warming continues to take place. Some of these natural disasters include hurricanes, floods, extreme dry spells around the world, and also tornadoes.

The next effect that occurs as a result of global warming is that the overall sea level is starting to rise slowly. Rising sea levels can result in many negative situations. The first issue that rising sea levels can have is that homes and other buildings close to sea level may suffer extreme damage as a result of the water that will evade the structures. The second issue to rising sea levels is the fact that the deaths of many people and animals may occur more frequently. The third issue to a rising sea level is that the world will have less land mass than that of normal times.

When you combine the effects of a warmer climate with the effects of rising sea levels, you stand the chance of experiencing a higher rate of precipitation. In addition to this, many weather occurrences, such as hurricanes, flash floods, and tornadoes will develop. When this happens, severe devastation, injuries, and even death can occur. Not only that, but the animals and plants that contribute to our normal activities may also be injured or die.

It is impossible for us to take back the damage that has already been done, but it is possible for us to take the necessary steps to avoid any future damage that will occur. We each should ensure that we are doing all that we can to avoid situations where the burning of certain gases is required. We should hold each other accountable for the actions that we commit that are a violation to the atmosphere and contribute to global warming. It is only when we are accountable, that a true change will occur.

About the Authorwww.tellmeaboutglobalwarming.com brings you thought provoking information about global warming. Be sure to check out all the pages and decide for yourself. © 2007 copyright by DSquare Marketing and Della Franklin.

Source: Global Warming articles at GoArticles.com

Effect of Global Warming   by eLRazie

Too many greenhouse gases in the earth’s atmosphere will increase the greenhouse effect. The most dangerous aspects of the continuing dramatic climatic change is the effects of feedback loops (amplified change). Examples of the feedback loops are Ice/snow, as the earth warms, the levels of ice and snow decrease. This decrease leads to higher temperatures on the surface, leading to more warming. As the earth warms, the amount of water vapor in the atmosphere goes up which is the most powerful greenhouse gas in existence.

The year 2005 was the warmest year in over a century, according to NASA scientists studying temperature data from around the world. The Intergovernmental Panel on Climate Change (IPCC) Third Assessment Report projects that the Earth’s average surface temperature will increase between 2.5° and 10.4°F (1.4°-5.8°C) between 1990 and 2100 if no major efforts are undertaken to reduce the emissions of greenhouse gases (the “business-as-usual” scenario). This is significantly higher than what the Panel predicted in 1995 (1.8°-6.3°F, or 1.0°-3.5°C), mostly because scientists expect a reduced cooling effect from tiny particles (aerosols) in the atmosphere.

Scientists predict that even if we stopped emitting heat-trapping gases immediately, the climate would not stabilize for many decades because the gases we have already released into the atmosphere will stay there for years or even centuries. So while the warming may be lower or increase at a slower rate than predicted if we reduce emissions significantly, global temperatures cannot quickly return to today’s averages. And the faster and more the earth warms, the greater the chances are for some irreversible climate changes.

The increased volumes of carbon dioxide and other greenhouse gases (GHGs) released by the burning of fossil fuels, land clearing and agriculture, and other human activities, are the primary sources of the human-induced component of warming. An increase in global temperatures can in turn cause other changes, including a rising sea level and changes in the amount and pattern of precipitation. These changes may increase the frequency and intensity of extreme weather events, such as floods, droughts, heat waves, hurricanes, and tornados. Other consequences include higher or lower agricultural yields, glacier retreat, reduced summer stream flows, species extinctions and increases in the ranges of disease vectors. Although most studies focus on the period up to 2100, warming (and sea level rise due to thermal expansion) is expected to continue, since CO2 has a long average atmospheric lifetime.

The number of cars in operation around the world will double by the year 2030. The United States is responsible for 25% of the world’s CO2 emissions which equates to 7 billion tons of CO2 emissions in one year. The amount of CO2 released into the atmosphere in the next 30 years is expected to double or triple. Deforestation is another main producer of carbon dioxide. The causes of deforestation are logging for lumber, pulpwood, and fuel wood. Also contributing to deforestation is clearing new land for farming and pastures used for animals such as cows. Forests and wooded areas are natural carbon sinks. This means that as trees absorb carbon dioxide, and release oxygen, carbon is being put into trees. This process occurs naturally by photosynthesis, which occurs less and less as we cut and burn down trees. As the abundance of trees declines, less carbon dioxide can be recycled. As we burn them down, carbon is released into the air and the carbon bonds with oxygen to form carbon dioxide, adding to the greenhouse effect. About 860 acres, the size of Central Park in New York, is destroyed every 15 minutes in the tropics. The rate of global warming and sea level rise will be higher than previous predictions during the next century. Estimated land losses range from 0.05% for Uruguay to about 80% for all in the Marshall Islands.

A 1M (3 feet) sea-level rise would affect 6 million people in Egypt, with 12% to 15% of agricultural land lost, 13 million in Bangladesh, with 16% of national rice production lost, and 72 million in China and “tens of thousands” of hectares (1 hectare=2.47 acres) of agricultural land. This is based on new information released by the Intergovernmental Panel on Climate Change.

The Intergovernmental Panel on Climate Change, made up of about 2,000 scientists who advise the United Nations, revised estimates of the current forecast in sea levels after conducting new studies on the west Antarctic ice sheet.

Small, low-lying island states and countries with big coastal populations such as the Marshall Islands and Bangladesh could see catastrophic damage from the rise. Global warming is at the root of the increase, say the researchers; as the earth’s climbing temperatures melt the Arctic sea ice and Antarctica.

Around the world, ice sheets and glaciers are melting at a rate unprecedented since record-keeping began. Changes in the area and volume of the two polar ice sheets in Antarctica and Greenland are intricately linked to changes in global climate and could result in sea-level changes that would severely affect the densely populated coastal regions.

Glaciers along the southeastern coast of Greenland are thinning by more than 3 feet a year — possibly because of global warming, according to a study by NASA scientists.

Researchers compared aerial surveys of the Greenland ice sheet taken in 1993 and 1994 with a similar survey taken last year. Their data indicated that parts of the ice sheet near the ocean thinned at a rate of more than 3 feet (1 meter) per year.

“Why (glaciers) are behaving like this is a mystery,” said Bill Krabill, a researcher at NASA’s Goddard Space Flight Center. “But it may indicate that the coastal margins of ice sheets are capable of responding quite rapidly to external changes, such as a warming climate.” Krabill said if the higher rate of ice flowing into the ocean from Greenland “accelerates or becomes more widespread, it would begin to have a detectable impact on sea level.”

All of the scientific data and understanding now point to the critical situation we face: to slow future change we must start taking action soon. At the same time, because of our past and ongoing activities we must start to live with the likely consequences – more extreme weather, rising sea levels, changing precipitation patterns, ecological and agricultural dislocations, the spread of human disease and declining economic health around the world. In the end, failure to solve the global warming problem is not an option.

The application of the new alternative energy and agriculture technologies of Quest Innovations Research will provide the solutions of global warming. The first is an alternative type perpetual electric device that will replace gasoline or diesel engines for transportation. With better transmissions and with more aerodynamic designs, and stronger yet lighter material for chassis will allow a totally non-fuel burning automobile and truck.

More than half of America’s electricity is produced from outdated, coal-burning power plants that dump pollutants and heat-trapping gases into our atmosphere. In fact, power plants are the single largest source of CO2–one-third of the U.S. total. Quest Innovation’s solution is to replace the present power grid systems into perpetual electric units that will not pollute the air or waste natural resources. Smaller electric units will also be used for many major appliances such as clothes washers, dishwashers, water heaters, furnaces, air conditioners and boilers. Protecting threatened forests will help halt global warming which can also save us money, increase food productivity and create new business and agriculture opportunities. Quest Innovation’s Research projects of the systematic approach to new hydroponics agriculture and the enriched soil of Terra Preta will increase food production over 800% on less land, thereby saving valuable rainforests. The new water hydration device will provide atmospheric water as an abundant source for crop irrigation. Using the force of water without creating dams will utilize turbine generated energy that will be modified for many agriculture uses in order to complete systems for providing large magnitude crop yields. Best of all, these solutions exist now. The future is now and awaiting every individual, group, business, community, government or country ready to use new natural G-d given knowledge of technology to provide enough non-polluting energy and rich nutrient fed crops for everyone on our home planet.

About the Author

student of MAN Rejoso

Source: http://www.goarticles.com/cgi-bin/showa.cgi?C=745338

Causes, Effects and Solutions of the Global Warming Crisis   by Gerald Flores and Rob Roberts

Too many greenhouse gases in the earth’s atmosphere will increase the greenhouse effect. The most dangerous aspects of the continuing dramatic climatic change is the effects of feedback loops (amplified change). Examples of the feedback loops are Ice/snow, as the earth warms, the levels of ice and snow decrease. This decrease leads to higher temperatures on the surface, leading to more warming. As the earth warms, the amount of water vapor in the atmosphere goes up which is the most powerful greenhouse gas in existence.

The year 2005 was the warmest year in over a century, according to NASA scientists studying temperature data from around the world. The Intergovernmental Panel on Climate Change (IPCC) Third Assessment Report projects that the Earth’s average surface temperature will increase between 2.5° and 10.4°F (1.4°-5.8°C) between 1990 and 2100 if no major efforts are undertaken to reduce the emissions of greenhouse gases (the “business-as-usual” scenario). This is significantly higher than what the Panel predicted in 1995 (1.8°-6.3°F, or 1.0°-3.5°C), mostly because scientists expect a reduced cooling effect from tiny particles (aerosols) in the atmosphere.

Scientists predict that even if we stopped emitting heat-trapping gases immediately, the climate would not stabilize for many decades because the gases we have already released into the atmosphere will stay there for years or even centuries. So while the warming may be lower or increase at a slower rate than predicted if we reduce emissions significantly, global temperatures cannot quickly return to today’s averages. And the faster and more the earth warms, the greater the chances are for some irreversible climate changes.

The increased volumes of carbon dioxide and other greenhouse gases (GHGs) released by the burning of fossil fuels, land clearing and agriculture, and other human activities, are the primary sources of the human-induced component of warming. An increase in global temperatures can in turn cause other changes, including a rising sea level and changes in the amount and pattern of precipitation. These changes may increase the frequency and intensity of extreme weather events, such as floods, droughts, heat waves, hurricanes, and tornados. Other consequences include higher or lower agricultural yields, glacier retreat, reduced summer stream flows, species extinctions and increases in the ranges of disease vectors. Although most studies focus on the period up to 2100, warming (and sea level rise due to thermal expansion) is expected to continue, since CO2 has a long average atmospheric lifetime.

The number of cars in operation around the world will double by the year 2030. The United States is responsible for 25% of the world’s CO2 emissions which equates to 7 billion tons of CO2 emissions in one year. The amount of CO2 released into the atmosphere in the next 30 years is expected to double or triple. Deforestation is another main producer of carbon dioxide. The causes of deforestation are logging for lumber, pulpwood, and fuel wood. Also contributing to deforestation is clearing new land for farming and pastures used for animals such as cows. Forests and wooded areas are natural carbon sinks. This means that as trees absorb carbon dioxide, and release oxygen, carbon is being put into trees. This process occurs naturally by photosynthesis, which occurs less and less as we cut and burn down trees. As the abundance of trees declines, less carbon dioxide can be recycled. As we burn them down, carbon is released into the air and the carbon bonds with oxygen to form carbon dioxide, adding to the greenhouse effect. About 860 acres, the size of Central Park in New York, is destroyed every 15 minutes in the tropics. The rate of global warming and sea level rise will be higher than previous predictions during the next century. Estimated land losses range from 0.05% for Uruguay to about 80% for all in the Marshall Islands.

A 1M (3 feet) sea-level rise would affect 6 million people in Egypt, with 12% to 15% of agricultural land lost, 13 million in Bangladesh, with 16% of national rice production lost, and 72 million in China and “tens of thousands” of hectares (1 hectare=2.47 acres) of agricultural land. This is based on new information released by the Intergovernmental Panel on Climate Change.

The Intergovernmental Panel on Climate Change, made up of about 2,000 scientists who advise the United Nations, revised estimates of the current forecast in sea levels after conducting new studies on the west Antarctic ice sheet.

Small, low-lying island states and countries with big coastal populations such as the Marshall Islands and Bangladesh could see catastrophic damage from the rise. Global warming is at the root of the increase, say the researchers; as the earth’s climbing temperatures melt the Arctic sea ice and Antarctica.

Around the world, ice sheets and glaciers are melting at a rate unprecedented since record-keeping began. Changes in the area and volume of the two polar ice sheets in Antarctica and Greenland are intricately linked to changes in global climate and could result in sea-level changes that would severely affect the densely populated coastal regions.

Glaciers along the southeastern coast of Greenland are thinning by more than 3 feet a year — possibly because of global warming, according to a study by NASA scientists.

Researchers compared aerial surveys of the Greenland ice sheet taken in 1993 and 1994 with a similar survey taken last year. Their data indicated that parts of the ice sheet near the ocean thinned at a rate of more than 3 feet (1 meter) per year.

“Why (glaciers) are behaving like this is a mystery,” said Bill Krabill, a researcher at NASA’s Goddard Space Flight Center. “But it may indicate that the coastal margins of ice sheets are capable of responding quite rapidly to external changes, such as a warming climate.” Krabill said if the higher rate of ice flowing into the ocean from Greenland “accelerates or becomes more widespread, it would begin to have a detectable impact on sea level.”

All of the scientific data and understanding now point to the critical situation we face: to slow future change we must start taking action soon. At the same time, because of our past and ongoing activities we must start to live with the likely consequences – more extreme weather, rising sea levels, changing precipitation patterns, ecological and agricultural dislocations, the spread of human disease and declining economic health around the world. In the end, failure to solve the global warming problem is not an option.

The application of the new alternative energy and agriculture technologies of Quest Innovations Research will provide the solutions of global warming. The first is an alternative type perpetual electric device that will replace gasoline or diesel engines for transportation. With better transmissions and with more aerodynamic designs, and stronger yet lighter material for chassis will allow a totally non-fuel burning automobile and truck.

More than half of America’s electricity is produced from outdated, coal-burning power plants that dump pollutants and heat-trapping gases into our atmosphere. In fact, power plants are the single largest source of CO2–one-third of the U.S. total. Quest Innovation’s solution is to replace the present power grid systems into perpetual electric units that will not pollute the air or waste natural resources. Smaller electric units will also be used for many major appliances such as clothes washers, dishwashers, water heaters, furnaces, air conditioners and boilers. Protecting threatened forests will help halt global warming which can also save us money, increase food productivity and create new business and agriculture opportunities. Quest Innovation’s Research projects of the systematic approach to new hydroponics agriculture and the enriched soil of Terra Preta will increase food production over 800% on less land, thereby saving valuable rainforests. The new water hydration device will provide atmospheric water as an abundant source for crop irrigation. Using the force of water without creating dams will utilize turbine generated energy that will be modified for many agriculture uses in order to complete systems for providing large magnitude crop yields. Best of all, these solutions exist now. The future is now and awaiting every individual, group, business, community, government or country ready to use new natural G-d given knowledge of technology to provide enough non-polluting energy and rich nutrient fed crops for everyone on our home planet. Gerald Flores Quest Innovations & Research Offering Creations thru Science and Invention For the Preservation of Life www.questinnovations.net

About the Author

Gerald Flores is an inventer and researcher developing new methods of preserving life on our planet,he can be contacted at www.questinnovations.net or emailed at questinnovation@yahoo.com

Source: http://www.goarticles.com/cgi-bin/showa.cgi?C=340053

Global Warming Effects : Natural Climate Changes Can Intensify Hurricanes More Efficiently Than Global Warming

Natural climate variations, which tend to involve localized changes in sea surface temperature, may have a larger effect on hurricane activity than the more uniform patterns of global warming, a report in Nature suggests.

In the debate over the effect of global warming on hurricanes, it is generally assumed that warmer oceans provide a more favorable environment for hurricane development and intensification. However, several other factors, such as atmospheric temperature and moisture, also come into play.

Drs. Gabriel A. Vecchi of the NOAA Geophysical Fluid Dynamics Laboratory and Brian J. Soden from the University of Miami Rosenstiel School of Marine & Atmospheric Science analyzed climate model projections and observational reconstructions to explore the relationship between changes in sea surface temperature and tropical cyclone ‘potential intensity’ – a measure that provides an upper limit on cyclone intensity.

They found that warmer oceans do not alone produce a more favorable environment for storms because the effect of remote warming can counter, and sometimes overwhelm, the effect of local surface warming. “Warming near the storm acts to increase the potential intensity of hurricanes, whereas warming away from the storms acts to decrease their potential intensity,” Vecchi said.

Their study found that long-term changes in potential intensity are more closely related to the regional pattern of warming than to local ocean temperature change. Regions that warm more than the tropical average are characterized by increased potential intensity, and vice versa. “A surprising result is that the current potential intensity for Atlantic hurricanes is about average, despite the record high temperatures of the Atlantic Ocean over the past decade.” Soden said. “This is due to the compensating warmth in other ocean basins.”

“As we try to understand the future changes in hurricane intensity, we must look beyond changes in Atlantic Ocean temperature. If the Atlantic warms more slowly than the rest of the tropical oceans, we would expect a decrease in the upper limit on hurricane intensity,” Vecchi added. “This is an interesting piece of the puzzle.”

“While these results challenge some current notions regarding the link between climate change and hurricane activity, they do not contradict the widespread scientific consensus on the reality of global warming,” Soden noted.

The journal article is entitled “Effect of Remote Sea Surface Temperature Change on Tropical Cyclone Potential Intensity.”

Adapted from materials provided by University of Miami Rosenstiel School of Marine & Atmospheric Science, via EurekAlert!, a service of AAAS.

Source: http://www.sciencedaily.com/releases/2007/12/071212201954.htm