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Biology I Mr. Salvitti Name: Per/Date: Skill Builder #5b: Cycles in Nature I: Background: Cycles in Nature The cycles discussed here are often referred to as “biogeochemical cycles”, “bio” meaning life, “geo” referring to rocks, soils, water and air, and “chemical” referring to the changes that occur as the elements go through these cycles. There are two main types of these cycles: gaseous and sedimentary. In a gaseous cycle, the element is mainly stored in the Earth’s atmosphere where it exists as a gas. Sedimentary cycles have the Earth’s crust as the main storage area for their elements. Carbon Cycle It's vital to understand what role the carbon cycle plays in the support of life in order to see the danger of it not being cycled through nature. Let's look at a sample carbon cycle and explore how carbon atoms move through our natural world. Plants, animals, and soil interact together in a process to make up the basic cycles of nature. In the carbon cycle, plants absorb carbon dioxide from the atmosphere and, combined it with water from the soil, to make the substances they need for growth. The process of photosynthesis incorporates the carbon atoms from carbon dioxide in order to make sugars in the form of glucose (C6H12O6). Animals, such as the rabbit pictured below, eat the plants and use the carbon to build their own tissues. Other animals, such as the lynx, eat the rabbit and then use the carbon for their own needs. These animals return carbon dioxide into the air when they breathe, and when they die, since the carbon is returned to the soil during decomposition. The carbon atoms in soil may then be used in a new plant or small microorganisms. Ultimately, the same carbon atom can move through many organisms and even end in the same place where it began. Herein lies the fascination of the carbon cycle; the same atoms can be recycled for millennia! The carbon cycle is an important gaseous cycle. Most of the carbon in our world is stored as carbon dioxide (CO2), in either the atmosphere or dissolved in the ocean. Plants need carbon dioxide to carry on photosynthesis, a process where the carbon atoms become part of molecules of simple carbohydrates (sugars) and may later be changed to fats, proteins and DNA or more complex carbohydrates. The carbon becomes part of the energy system for ecosystems, since fats and carbohydrates are forms of stored energy. The carbon atoms travel through food chains, with decomposers at every step of the way. To fuel their bodies living things take in oxygen from their environment and use it to oxidize carbohydrates to release energy through cellular respiration, the reverse process of photosynthesis. Respiration produces carbon dioxide (CO2) which must be excreted from the body, usually through lungs, gills or leaves. The process of respiration makes carbon dioxide available for photosynthesis. Many living things build shells of calcium carbonate (CaCO3) (a combination of carbon, calcium and oxygen) and when they shed them in growth or in death these shells may accumulate and build up into rocks (limestone). The White Cliffs of Dover is a famous example of this. Carbon in animals might stay in its bones until the bone decays after the animal’s death, or might leave an animal’s body relatively quickly with waste matter. Some carbon in the dead bodies of plants or animals becomes trapped and fossilized before it discomposes completely, and can form materials such as peat, coal or oil. 1 Biology I Mr. Salvitti Name: Per/Date: C6H12O6 CO2 Death CO2 peat coal oil The Carbon Cycle Nitrogen Cycle The nitrogen cycle involves the Earth’s atmosphere, which is about 78 per cent nitrogen. Nitrogen is of no use by itself to most living things, and we breathe it in and back out again. However, nitrogen is vital to life when combined with other elements. The nitrogen cycle is largely dependent on bacteria, fungi and blue-green algae which convert the nitrogen from the air into nitrogen compounds. These nitrogenfixing organisms may live in the soil or on the roots of plants. The nitrogen compounds they generate may be given off into the soil or become available when the nitrogen-fixing organisms die, at which point the nitrogen compounds move through food chains.4 Nitrogen (NH4) is returned to circulation when the bodies of dead plants and animals disintegrate, and when animals excrete uric acid after breaking down proteins in their food. The excreted matter is eventually converted to nitrates (NO2) after complex bacterial action.5 Nitrogen (NO2, and NO3) compounds can thus cycle from the soil to plants to bacteria and back to the soil again and again without returning to the atmosphere. However, denitrifying bacteria and fungi break down nitrogen compounds and release nitrogen gas into the atmosphere as N2 and N2O. The nitrogen cycle also has a component affected by humans. Industrialists have learned how to take nitrogen gas from the air and “fix” it in compounds that are an important part of fertilizers. It is significant to note that the amount of nitrogen treated this way (dumped into the environment) has been doubling every six years. Since large amounts of these nitrogen compounds tend to wash from the lands where they are used into the waters of our streams, lakes and rivers, they are having an effect the size of which is still being studied. When these waters become highly nitrogen enriched, there is too much plant growth and a loss of oxygen (eutrophication) which can result in the death of fish and other animals. 2 Biology I Mr. Salvitti Name: Per/Date: Micelle Fixation The Nitrogen Cycle Water Cycle The water cycle is different from the other two cycles talk about above, because of the fact that water can exist in all three forms of matter: solid, liquid and gas. It can exist naturally at all of the temperatures which occur on Earth, and can easily change from one form into another. Interestingly enough, if water did not change form it would all exist today in the oceans or deep in the lithosphere since it responds to the pull of gravity pulling it downward. When water is in contact with the atmosphere it evaporates, with the rate of evaporation depending on such things as air temperature, water temperature, wind speed and humidity of the air. The amount of water vapor in the air is called the relative humidity and for any given temperature there is a set amount of water that the air can hold. In general, the warmer the air is, the more water it can hold. Relative humidity is an expression of the percentage of water in the air at a given temperature as compared to what it could hold. As water evaporates it moves upward on currents of warm air until it reaches a temperature where the temperature is low enough high in the atmosphere that the air can no longer hold any more water. At this level the water vapor condenses and form clouds. Droplets of the water in the clouds condense on dust particles until they are too large to withstand the force of gravity’s pull and they drop to earth. This precipitation may fall on a place far from the land or sea area where the water initially evaporated, due to wind movement, and so the water which forms all over the Earth is constantly being recycled and replenished. 3 Biology I Mr. Salvitti Name: Per/Date: Lakes or oceans are not the only sources from which water enters the air. Water evaporates from everything that is wet. Clothes drying on the line, a swimming pool, puddles after a rain shower, a steamy bathroom after your shower, the breath and perspiration from your body, all of these are sources of water for evaporation. Perhaps the easiest way to observe water evaporation is to boil water in a pan or tea kettle and watch the process. It should be stressed with students of science that most normal processes of evaporation are not readily observable; there may be evaporation going on in the room around them at the very moment they are talking about it, but normally we will not see anything. It is possible however see the results: a saucer of water which has dried up after being left out for some time, or the drying of the skin after physical activity, or our breath in a cooler temperature. The Water Cycle Rock Cycle The rock cycle describes the natural processes of rocks being formed, modified and transformed. The rock cycle is an important cycle to biologists because it is involved in the process of making continents which support life, and it is also involved in the process of making soils which also support life. A rock’s journey can begin anywhere along the cycle but it is practical to begin with magma. Magma from underneath the earth’s crust makes its way to the earth’s surface, forming igneous rocks. Depending on the environmental conditions, this rock can weather and be broken up into sediments or combined with sediments to become sedimentary rock. If the rock is buried and subjected to high heat and high pressure, it can become a metamorphic rock. The rock cycle is important to scientists because the movement of magma, rocks and sediments affect the stability of the Earth’s surface and are therefore important in the fortification of infrastructures (roads, bridges, dams etc.). Geotechnical Engineers are responsible for determining whether a given surface can be used for construction, and engineering ways to make it safe. The types of rocks beneath a building’s foundation are important in determining their capacity to support load and their resistance to differential settlement. Igneous rock, is generally preferred as subgrades and fill material for a building foundations because of its high strength and resistance to frost and abrasion. Knowing the rock cycle is particularly 4 Biology I Mr. Salvitti Name: Per/Date: important in foundations engineering and structural engineering. The rock cycle gives engineers an idea of the environmental conditions the rocks were subjected to in the past, which helps them to determine the strength of the rocks. The ideal bedrock for construction is metamorphic rock. Manhattan has many skyscrapers in downtown and midtown because the bedrock in those neighborhoods (a metamorphic rock called Manhattan Schist) is very close to the surface — close enough for construction workers to dig down and secure the foundation for the building in the rock. The rock cycle also produces many of our natural resources. Coal is a sedimentary rock formed from dead plant matter; limestone is a sedimentary rock essential for the creation of cement; marble, a metamorphic rock, is an important building material, a oil is essential to power the nations of the world. The Rock Cycle II. Identification. Refer to the diagrams below each narritive. 5 Biology I Mr. Salvitti Name: Per/Date: III. Assessment. 1. What process occurs in plants that helps cycle carbon atoms through the environment? _________ _________________________________________________________________________________ 2. How is carbon cycled through animals? _______________________________________________ _________________________________________________________________________________ 3. What role does fossilized carbon play in the environment? _________________________________ __________________________________________________________________________________ 4. The nitrogen cycle is largely dependent on what three (3) organisms? ________________________ __________________________________________________________________________________ 5. What is eutrophication? ____________________________________________________________ __________________________________________________________________________________ 6. The amount of water vapor in the air is known as: ________________________________________ ___________________________________________________________________________________ 7. Briefly explain how evaporation of water helps the rain fall on Earth. _________________________ ___________________________________________________________________________________ ___________________________________________________________________________________ 8. How is ground water in the water table replonished? ______________________________________ __________________________________________________________________________________ 9. Why is it important for biologists to understand the rock cycle? _____________________________ __________________________________________________________________________________ 10. CRITICAL THINKING: Briefly explain how the carbon cycle, the water cycle, and photosynthesis in plants are linked togeher with the rock cycle. ____________________________________________ ___________________________________________________________________________________ ___________________________________________________________________________________ ___________________________________________________________________________________ ___________________________________________________________________________________ 6