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Hole in the Ozone Layer and the Greenhouse Effect
By: Karel Kosman
When discussing the preservation of our earth, two major issues are always in the forefront: the destruction of the vital ozone layer and the question of the greenhouse effect, which may be causing the increase of temperature of the atmosphere.
Ozone is an unstable gas (rather rare). It is a toxic form of oxygen. It consists of three atoms of oxygen in one molecule, while in the common molecule of oxygen there are only two atoms. Ozone is present in the entire atmosphere up to the altitude of approximately 50 kilometres. The layer containing the highest concentration of ozone (the ozone layer) is situated in the lower geographical latitudes at approximately 25 kilometres above the point zero (sea level). The altitude of the ozone layer decreases in the direction of polar regions.
By means of photochemical reaction, the short-wave part of ultraviolet rays changes oxygen into ozone. In this way, the majority of cell-damaging ultraviolet light is absorbed.
The use of chloro-fluoro-carbohydrates in sprays and manufacture of foams causes long-term damage of the protective ozone layer. The reason is, that when these gases are released, they rises very slowly into the atmosphere. There, they are dissolved by the ultraviolet light into free atoms of chlorine. They interact with ozone and destroy it. When the ozone layer is damaged, ultraviolet light penetrates to the surface of the earth. Chloro-fluoro-carbohydrates have a very long life and may continue destroying the ozone layer during many years.
This destructive process is specially noticeable at lower temperatures. A considerable decrease in the ozone layer was registered several years ago at the south pole during the winter season. This decrease is called the ozone hole. More than half of the ultraviolet rays pass through the hole. The consequence of this energy-releasing process is the release of heat. In the meantime, this effect emerged also over the north pole. In Antarctica, when at the end of the polar night the atmosphere gradually warms up again, air from the lower latitudes, rich in ozone, streams in and “fills up” the ozone hole.
In autumn of the year 2000, the hole in the ozone layer over Antarctica increased to 29 million cubic kilometres, which is four times the size of Australia. According to the information of New Zealand Antarctic stations, this increases the risk of exposure to cancer-producing ultraviolet light for the population of the southern hemisphere as never before. Antarctica as such is also threatened, because its very sensitive ecosystem may be quickly destroyed by this situation.
While the ozone in the stratosphere is being depleted, in the lower layers of the atmosphere, i.e., in the troposphere, the amount of ozone is on the increase as a result of the emissions of the automobiles (nitrogen and sulfur oxides). However, this does not help balance the decreased amounts of ozone in the stratosphere.
Even assuming that there will be a complete halt in use of the chloro-fluoro-carbohydrates, it must be taken into consideration that their damaging effects will increase. In the higher latitudes, people must take precautions and protect themselves against the ultraviolet light of the sun.
In most cases, the term “greenhouse effect” is synonymous with a negative, man-made climate change. However, without a natural greenhouse effect, the life on our planet would be impossible. The earth would remain hostile to life.
Sunlight easily passes into a greenhouse and warms it up. However, the heat cannot easily escape. That way, the heat accumulates, and that is very similar to what is going on in the atmosphere that surrounds us. It is made up of different gases: 78.1 percent of nitrogen, 21 percent of oxygen, 0.9 percent of argon, 0.03 percent of carbon dioxide, and traces of noble gases.
Fifty percent of sunlight easily reach the earth’s surface, which is heated by this sunlight. The heated earth also irradiates heat. This heat, analogous to the heat of a greenhouse, cannot easily escape through the atmosphere into the universe. It is held in the atmosphere, mostly by water vapour and carbon dioxide. These two gases absorb the heat and transfer it back to the earth.
At the present time, the mean temperature on the earth is plus 15 degrees Celsius. Without the greenhouse effect, the mean temperature would also be around 15 degrees, but it would be with the other symbol, that is to say, minus 15 degrees Celsius.
In the last few decades, people have caused the increase of the greenhouse effect. Industry, transportation and agriculture, all share in the additional amounts of the greenhouse gases being produced. These gases prevent the heat to escape into the universe, and reflect it back to the earth.
The more greenhouse gases there are, the more heat stays within the earth-atmosphere cycle. Carbon dioxide is not the only gas that increases the temperature in the atmosphere. There is also methane, which is released when forests are cleared by burning. It is also released by landfills and by many ruminants, such as beef cattle, sheep and goats. Carbon dioxide is exhaled by people and animals. It also escapes from volcanoes and is released by burning of fossil fuels. The ozone of the lower layers of the atmosphere is also one of the greenhouse gases.
Thanks to Janet Schlarbaum
How to Reuse – 10 Easy Ways to Recycle
By Mary Crowther
Published by Janet Schlarbaum
Do you want to help the environment but find that it’s too much trouble to recycle? With these easy tips, you’ll find that recycling takes a minimal amount of time to save our resources.
1. Keep a recycling bin handy and make it easy to recycle. It takes only seconds to toss an empty bottle, plastic container or can into a bin. Keep it in a nearby closet or in the garage.
2. Recycle paper. Use paper grocery bags or cardboard boxes to hold the paper. When going through the mail toss unwanted junk mail into the recycling box. Reuse blank sides of paper for notes, or grocery lists.
3. Reuse plastic grocery bags. Many grocery stores now offer an incentive to customers who bring in their own bags, offering cents off per bag. Keep the bags in the car for easy access.
4. Old bed sheets or blankets make great drop cloths for painting, arts and crafts or household repairs.
5. Spread coffee grounds and fireplace ashes in the garden to add extra nutrients to the soil.
6. Grind lemon rinds in the garbage disposal to keep it smelling fresh.
7. Plastic fruit cups can be used for small jobs around the house such as painting, cleaning or polishing.
8. Don’t throw away clothing or household items that are in good condition. Donate them to charity. Many charities will pick up your items.
9. Use plastic containers from margarine and whipped topping for leftovers.
10. Worn cotton items such as towels, washcloths or socks make perfect cleaning, dusting or polishing rags.
Janet Schlarbaum – How to Reuse
Placed by Nicholas Daniels
By Wendy Pan
With the energy crunch impacting virtually everyone worldwide today, the timing for a green building environment is just right. People have begun their own efforts to become environmentally and earth friendly, with reuse, recycle, and renew projects in the communities and on their own. It is only natural that these efforts are being extended to basics, such as building and construction activities.
Most people are familiar with green products, safe, non-toxic, recycled items such as cleaners, plastic park benches, and other conservation efforts. In buildings, you can find the green building environment at work when you see solar rooftop panels, or water barrels catching rainwater runoff for reuse in yards and gardens. Some buildings use hard packed gravel for parking lots, which will allow water absorption, instead of solid blacktop or concrete.
Some large buildings are now taking advantage of rooftop gardens and green roofs, that are planted with highly water retaining materials like moss. Or, the roofs are designed to minimize rainwater runoff. Materials for construction can be green if they include rapidly renewable plants like straw, bamboo, certified sustainable forests, recycled stone and metal. Other products used are non-toxic, or renewable or recyclable. These would include materials made from sheep wool, recycled plastic or papers, adobe brick, clay, cork, coconut or other woody fibers, sandstone, and so on. There is an effort to save on shipping and gasoline use by purchasing materials locally when possible, or nearby to the building locations.
The green building environment is seen in the manner in which buildings are constructed, as they are designed to make full use of renewable energy sources including solar and wind power. Buildings are planned for directional use of natural light and heat sources so that passive solar energy can be utilized. They are built with roofs designed to hold solar panels, with enough space facing the sunward side so that adequate amounts of panels can be installed effectively and with maximum sunlight absorption capability. Added attention is given to insulation use and special sun control on windows, as well as placement and size of windows to take advantage of passive solar heat energy.
Combinations of solar, wind and hydrogen power systems are used to get maximum benefit from naturally occurring, free, energy generating resources. Interior lighting and appliances are super efficient, using Energy Star appliances, and CFL and LED lighting, combined with automation systems. Solar heat panels for hot water can reduce water heating costs. Some buildings use solar roof tiles, to provide maximum collection of sunlight energy for generators. Indoors, the use of special filtering and air cleaners, non-smoking rules, and plants helps keep air fresher, cleaner, and less toxic.
The final component of the green building environment is to consider disposal of waste products in an environmentally friendly manner. Reduction of waste, recycling of waste, and separation facilities for reusable waste completes this earth friendly effort. With demand increasing, and prices coming down with that increased demand, this technology is a natural to spread worldwide.
Posted by Janet Schlarbaum
By Bryan Wong
Posted by Janet Schlarbaum
According to NASA, the hottest year on record was 2005, which matched 1998. Twice in the last ten years, we’ve had the hottest temperatures on average ever recorded in our planet’s history. That is very likely more than just a coincidence.
In fact, the past nine years have all been among the 25 warmest years on record, a streak which is unprecedented in the historical record. For that to happen, it’s likely there has to be an underlying factor, and that factor seems to be global warming.
U.S. and global annual temperatures are now around 1.0 F degrees warmer than they were in 1900. The rate of warming has accelerated over the past 30 years, increasing at a rate of three times faster than the century-scale trend. It’s likely the increase in CO2 emissions has something to do with that rate increase.
According to an MIT study, there’s been a 100% increase in the intensity and duration of hurricanes and tropical storms since the 1970s, most likely due to the increased amount of CO2 emissions to our atmosphere, which has increased the Earth’s surface temperature, and warmer weather is believed to increase the intensity of tropical storms and hurricanes.
In fact, the levels of atmospheric carbon dioxide has increased by 31% between 1800 and 2000, going from 280 parts per million to 367 parts per million. Scientists predict that carbon dioxide levels could be as high as 970 parts per million by the year 2100.
According to the National Climactic Data Centre estimates, $100 billion of damage was caused by hurricanes hitting the U.S. coast in 2005 alone. The increase in severity of the hurricanes and tropical storms is most likely due to the increase of CO2 emissions, which heats up the Earth’s near-surface temperatures. In fact, the average surface temperature has increased by about 0.6 C (1.0 F) over the last 100 years. This is likely why snow cover and ice extent have decreased over the past few decades.
According to the U.S. Geological Survey predictions, Glacier National Park will have no glaciers left by the year 2030, further showing the rapidity of global warming and the impact it can have on our planet in the very near future.
According to the Arctic Climate Impact Assessment, 400,000 square miles of Arctic sea ice have melted, which is threatening polar bear habitats and further accelerating global warming worldwide. That amount of Arctic sea ice is approximately the size of the state of Texas, and we’ve lost that in just the last 30 years, further emphasizing that we need to take action now before the damage becomes too severe for our efforts to really matter.
The sea level has risen by 4?-8? (10-20 cm) over the past 100 years, which is likely due to the melting of the polar glaciers, which is likely due to the increase in the Earth’s near-surface temperature, and that’s being increased by the increase in CO2 emissions into Earth’s atmosphere. This can lead to devastating effects for coastal communities because the sea level is rising, which means that when the sea comes in-tide, more erosion can occur, and if coastal communities are present, more damage done to them. In addition, losing the glaciers reduces the amount of usable fresh water on our planet.
It is also projected that 15-37% of all plant and animal species could be wiped out by global warming by the year 2050, which could further cause considerable damage to our planet’s ecosystem.
The United States is ranked nr.1 among large nations of being a global warming polluter, contributing 25% of emissions, even though the U.S. only makes up 5% of the world’s population. This provides more evidence that the U.S. Government must do more to combat global warming. In fact, six former U.S. Environmental Protection Agency (EPA) leaders say that the U.S. is not doing enough to fight global warming. The fact that there have been NO bills passed by the U.S. Congress to cut global warming pollution further confirms what many EPA leaders are saying.
As you can see, there is statistical evidence that proves that global warming is causing changes to our planet, and changes that will do more harm than good. Governments and individuals need to pay close attention to these statistics in order to figure out ways to reverse the disturbing trends that are now occurring. The sooner we take heed of these statistics and implement changes that address global warming, the quicker we can reverse the disturbing trends and the less damage will occur to our planet and way of life.
Author: Ceorge Christodoulou
The green-house effect is the most important cause behind global warming. In fact global warming is known as the greenhouse effect. This phenomenon leads to an increase in the Earth temperature due to certain gases like CO2, nitrous oxide, and methane. These gases trap the energy from the sun and without them the heat would go back into space and Earth would be one massive iceberg. Since these gases warm the Earth, they are known as greenhouse gases.
In the last couple of decades, people have started using glass houses to grow plants in winter and these are called greenhouses. Typically, these houses will trap the heat from the sun. The glasses in the greenhouse let the light through and at the same time prevent the heat from escaping.
As a result, the greenhouse heats up to keep the plants alive in the winter. Similarly, the greenhouse gases in the Earths atmosphere work like the glass and prevent the heat from escaping. The sunlight enters piercing through the cloud of greenhouse gases and when it reaches the Earths surface, it is absorbed by land, water, and air.
After absorption the same energy is sent back into the atmosphere. Some of it remains trapped in the atmosphere due to the greenhouse gases and this energy makes the Earth warmer. Since there has been an increase in CO2 emissions in the last couple of decades, more and more heat is being absorbed in the atmosphere. This is increasing the temperature of the Earth gradually and causing global warming.
Author: Nathalie Fiset
If the greenhouse effect has again been currently in the news, it is probably because it is once again being blamed for causing global warming. Stronger hurricanes, periods of extreme weather, heat waves, the frequency of the El Nino phenomenon, these are all attributed to global warming. But how does the greenhouse effect figure in all these?
What is the greenhouse effect?
The greenhouse effect is the ability of our planet’s atmosphere to trap and contain heat. This heat is sourced from the sun and is reflected back towards the atmosphere. Certain gases are responsible for this entrapment and they include carbon dioxide, nitrous oxide, methane, fluorinated compounds and water vapor. Other man-made chemicals are also capable of retaining heat within the atmosphere.
In itself, the greenhouse effect is not essentially evil. In fact, it is this very phenomenon that has produced life on earth as we know it. Think of the greenhouse effect as a natural thermal blanketing for our planet, maintaining a surface temperature that is just right to encourage organisms to grow and survive. Without this blanketing, the earth’s climate would be too cold – about 59F lower than the average – for our planet to be able to sustain life successfully.
How does the greenhouse effect contribute to global warming?
For more than 4 billion years, the greenhouse effect has kept our planet’s temperature at a friendly level. Gases found in the atmosphere act to trap heat and keep our planet insulated, able to sustain itself. Problems only began to arise when scientists noticed that certain practices and human activities contribute to the modification of this process.
When the Industrial Revolution began, we also devised many ways of using fossil fuel for oil, coal and gas. The only way to utilize these fuels was by burning. As industrialization continued to expand, so did the practice of fossil fuel burning, thereby releasing gases into the atmosphere. The only problem was that these gases had nowhere else to go and have continued to build up over the years.
By building up, they cause the atmosphere to become more efficient in trapping heat, causing climates to turn warmer. This unnatural or man-made result is referred to as global warming.
How global warming affects us
We have been experiencing the effects of global warming for the past years and most of these are felt through changes in the climate. However, it’s important to note that climate change is brought about by other factors and not just as an indirect result of the greenhouse effect. Some of these factors include changes in the circulation of the oceans, changes in our planet’s orbit and even changes in the intensity of the sun itself.
Global warming involves increase in the average temperature of the earth’s atmosphere near its surface. While global warming is nothing new to our planet (it has occurred over long periods in the earth’s 4.5-billion-year history alternating with ice ages), it is only now when its drastic changes on a global scale has dire consequences not just for human kind but also to the millions of species that depend upon the earth for sustenance.
A famous example of the effect of global warming is the increase in sea level, brought about by the melting of glaciers. This is a problem not readily seen nor felt in countries or regions that lie on higher ground, but for many areas, this could mean land (and subsistence opportunities) lost to sea. A 0.3-meter increase in sea level for example, can eat up about 15 meters of beach.
As temperatures rise, countries that have agricultural practices firmly dependent on the regularity of glacier-melting will suffer greatly. For many regions in the world, the melting of snowpacks from the mountains means water for plant irrigation and electricity. If the melting occurs at a bad time, the planting and harvesting of crops will be significantly disrupted, causing problems in the economy on a local and national level.
With global warming, abrupt weather changes may also be experienced, such as heat waves that last longer and occur with more frequency, stronger storms and hurricanes and even changes in the behavior of the winds. Warmer climate will also contribute to the displacement of plants and animals, as those who depend upon lower temperature regions to survive will need to move to higher elevations and latitudes. For plants and animals who cannot adapt, it could mean extinction.
Healthwise, diseases that right now are currently limited by the location and living habits of their carriers have the possibility of invading areas that didn’t have a problem with them before. An example of this is malaria, along with other diseases caused by mosquitoes.
Mosquitoes thrive in tropical settings and as more and more regions become warmer, mosquitoes will expand their range. They will now be able to go to areas that they usually do not inhabit because of the temperature. This exposes the formerly unexposed population to the health risks caused by mosquito-borne diseases that also include dengue and elephantiasis.
Author: Kenneth Sondin
There has been much discussion, both among experts and lay people, about the ‘greenhouse effect.’ The greenhouse effect is a term that refers to changes in the Earth’s atmospheric composition, which have been related to the warming of our planet. There is a growing amount of evidence that human activities, particularly those relating to the burning of fossil fuels like oil and coal, are major contributors to the greenhouse effect. The predicted consequences for the planet as a result of the greenhouse effect are extremely serious. They include major changes in the climate that will have an impact on food production and rising sea levels, which will put many coastal and other low-lying communities under water.
Additional information that we have learned about the planet Venus provide a frightening example of the greenhouse effect. Venus has a very dense atmosphere made up of gases. The planet has what has been described as a ‘runaway greenhouse effect.’ It has surface temperature of about 800 degrees Fahrenheit.
Experts generally point to gases like carbon dioxide as the main contributors to the greenhouse effect. Carbon dioxide, which is a gas that is exhaled by everyone, can absorb infrared radiation. This type of radiation is heat that is radiating away from a warm object. During the day, the Earth is warmed by sunlight, and at night, the Earth cools off by radiating the heat back into space in the form of infrared radiation. Carbon dioxide, and other gases to some extent, absorb this radiation and limit its exit into space. Therefore, the natural cooling mechanism is thwarted.
While it may seem that eliminating the greenhouse effect would be the best strategy, this is not what we want to do. Water vapor represents another element in the heat-absorbing process. There is a great amount of water vapor in the atmosphere at all times. This is why we experience rain. We need the water vapor in the atmosphere to keep the Earth at its normal, comfortable temperature. Without the warmth created by water vapor, the planet would freeze, and that would be the end of life as we know it. Therefore, we need to have some degree of the ‘greenhouse effect’ in order to maintain life on Earth.