Pollution comes in various forms. Whether its toxic waste, CFCs, or sewage, they are all hazardous, to the earth.
These can deplete the earth and its inhabitants of resources, causing a harmful change. A product of pollution is acid rain. We shall see that acidification is harmful to all forms of life. Acid rain is any form of precipitation that is polluted by sulphur dioxide (SO2), and nitrogen oxides (NOX). This acid precipitation can be in the form of rain, snow, sleet, fog, or cloud vapors. The acidity of substances dissolved in water are measured by their pH levels.
Normal precipitation pH levels fall between 5.0-5.6.2 When levels fall below these numbers, then the precipitation is said to be acidic. There are two ways in which acid deposition can form. The first way occurs when nitrogen oxides and sulphur dioxide land on the Earths surface, and interact with frost or dew. The second way takes place due to the oxidation of nitrogen oxides or sulphur dioxide gases that are released into the air.3 Since it may take up to several days for the gases to be altered into their acid counter-parts, the pollutants can travel miles away from their original source. Emissions of (SO2) are responsible for the majority of the acid deposition, which falls to Earth. When we burn coal, we are releasing (SO2), into the air, since coal is slight made up of sulphur.
Volcanic eruptions can add a great deal of sulphur into the atmosphere. Everyday organic decay adds sulphur into the air as well. (SO2) can hit the Earths surface in dry forms or wet forms, by undergoing the following reactions: (SO2 + H20 *** H2SO3) (SO2 + O2 *** SO3 + H2SO4)2 Human activity is the major cause for nitrogen oxides presence in our atmosphere, such as forest fires and the combustion of oil, coal, and gas. The other causes are due to nature.
Lightning, volcanic action, and bacteria in soil are just to name a few. The following chemical reactions show how acids of nitrogen form: (NO2 + O2 *** NO2) (2NO2 + H2O *** HNO2 + HNO3) (NO2 + OH *** HNO3)2 Acid rain can affect plant life directly when the surface of leaves and needles come into contact with acid vapor or fog. This causes a reduction in the trees ability to withstand the cold. A direct result would be the tree’s incapability of reproduction.
It can also harm plant life indirectly, by the acidification of soils. Acid rain can cause soil to loose nutrients such as calcium, potassium, and magnesium. In very acid conditions, aluminum becomes soluble, and is released from the soil. At high enough concentrations, aluminum can cause damage to roots. Acid rain causes a nutrient imbalance, in soil.
Although it is true that nitrogen promotes forest growth, plant life also needs other nutrients. Precipitation polluted by nitrogen can contain heavy metals, such as mercury, cadmium, and lead. This process is known as nitrogen saturation.1 These too, can cause damage to tree roots. Besides trees, plants are also affected by acid rain. Reductions in pH levels can cause seed germination to be inhibited. Plant structures become weak, due to the loss of nutrients to the plants tissues.4 Flowering of certain plants may not occur due to lack of essential minerals.
Marine life is also greatly affect by acid rain. Acid water can leach high levels of aluminum from the bedrock. Rocks that contain great amounts of calcium or magnesium can act as a neutralizer. Those rocks and soils that lack some sort of buffers can cause grave damage to marine fish and plants. There are two ways in which aluminum can harm aquatic environments.
It can cause a fish to suffocate, because aluminum precipitates in gills, thus interfering in the transport of oxygen. Secondly, fish produce mucus to combat the aluminum, in their gills. The mucus then builds up a clogs the fishs gills.5 In middle latitudes many bodies of water experience what is called “acid shock.”4 Over the winter acid deposits can build up on snow. As the snow melts, the acids are released.
Most fish can survive shock, but their eggs cannot adapt to acidification. When there is a change in the chemistry of water, the ecology of the water begins to change. The number and variety of species are altered. At a pH level of 6.0 certain types of zooplankton and green algae begin to disappear. The loss of green plants allows more UV light to penetrate to further depths, so certain types of snails and phyto-plankton disappear. Frogs, toads, and salamanders are also affected by acid rain.5 The low pH stunts their growth.
Not only does acid rain kill species, but also it alters the food supply for higher fauna. If there is a decrease in the number of bottom dwelling organisms (benthos), there can be a decline in the number of insects, such as mosquitoes and flies. This puts a stress on carnivorous fish. Birds that eat these fish, which may contain high levels of aluminum, will then produce eggs with soft-shells. Their young will most likely not survive.
Humans are not immune to the effects of acid rain. People that are exposed to high concentrations of acidic pollution are known to have respiratory problems. SO2 can react with water vapor to form fine particles of sulphate. If inhaled, these particles can cause severe damage to lung tissue. The affect can be a simple cough or chest cold, or as dangerous as asthma or chronic bronchitis. Humans can consume aluminum by drinking water or eating crops that have contaminated by acid precipitation.
If ingested in large quantities, it can have toxic effects on human health. Many doctors believe that aluminum consumption can lead to Alzheimers disease.1 We see the effects of acidification everyday. All forms of acid precipitation may damage automotive coatings. The damaged is mostly observed on newly painted vehicles. It is the evaporation of acidic moisture that causes the damage.
Many headstones and buildings and statues, such as the Statue of Liberty, are affected in the same way. Acid deposition can cause fading of these structures. Churches and cathedrals also suffer.3 The United States is trying to take care of this problem through environmental legislation. Title IV of the Clean Air Act Amendments of 1990, calls for a 10 million ton reduction in the number of emissions of sulfur dioxide.3 One way of reducing emissions is lowering the production of sulphate aerosol cans. Since this act was passed, hospitals have witnessed a significantly lower number of cases of respiratory problems. There are other ways that we can alleviate the problems of acid deposition.
A process known as liming can increase the pH levels of bodies of water.2 Large quantities of hydrated lime are added to the water. The best way to solve the problems caused by acid deposition is for industries to try to limit the emissions of pollutants. There has been two ways in which industries have done this. Several companies have switched to using fuels that have a low sulphur content. Other industries have used buffers on the tops of their smokestacks, to reduce the amount of (SO2) in the air.4 There is no way that we can totally eliminate acid deposition.
We as humans, are not the only creators of this problem. Over the years, there has been an increase in the amount of annual precipitation. We can change our ways of production to help decrease the amount of acid precipitation, but then that would be greatly affecting our way of life. More then the acid rain itself does. Just like the cycle of affects the acid rain has on aquatic and terrestrial systems, there is the same type of cycle viewed when it comes to human life.
