Earth Systems and Interactions

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Arlene Short
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1 CHAPTER The Earth System Earth Systems and Interactions What do you think? Read the three statements below and decide whether you agree or disagree with them. Place an A in the Before column if you agree with the statement or a D if you disagree. After you ve read this lesson, reread the statements to see if you have changed your mind. Before Statement After 1. The amount of water on Earth remains constant over time. Key Concepts How do Earth systems interact in the carbon cycle? How do Earth systems interact in the phosphorus cycle? 2. Hydrogen makes up the hydrosphere. 3. Most carbon on Earth is in the atmosphere. Earth Systems Your body contains many systems. These systems work together and make one big system your body. Earth is a system, too. Like you, Earth has smaller systems that work together, or interact, and make the larger Earth system. Four of these smaller systems are the atmosphere, the hydrosphere, the geosphere, and the biosphere. The Atmosphere The outermost Earth system is a mixture of gases and particles of matter called the atmosphere. It forms a layer around the other Earth systems. The atmosphere is mainly nitrogen and oxygen. Gases in the atmosphere move freely, helping transport matter and energy among Earth systems. The Hydrosphere Below the atmosphere is the hydrosphere, the system that contains all of Earth s water. Most of the water is on Earth s surface in oceans, glaciers, lakes, ice sheets, and rivers. Smaller amounts of water are deep beneath Earth s surface, in the atmosphere, and in living things. Like gases in the atmosphere, water in the hydrosphere continuously moves from place to place. Many substances dissolve easily in water. These dissolved substances move with the water. Make a Table Contrast the carbon cycle and the phosphorus cycle in a twocolumn table. Label one column Carbon Cycle and the other column Phosphorus Cycle. Complete the table as you read this lesson. 1. Identify What systems make up the larger Earth system?

2 2. Explain Why do materials in the geosphere move slowly? The Geosphere The largest Earth system is the geosphere, or the solid Earth. The geosphere includes the thin layer of soil and rocks on Earth s surface and all the underlying layers of Earth. Because the geosphere is mainly solid, materials in this system move more slowly than the gases in the atmosphere or the water in the hydrosphere. As the materials move, they slowly transport energy and matter. The Biosphere All living organisms on Earth make up the biosphere. Because organisms live in air, water, soil, and rocks, the biosphere is within all other Earth systems. Living organisms survive using gases from the atmosphere, water from the hydrosphere, and nutrients in soil and rocks. Interactions Among Earth Systems Biosphere Geosphere Hydrosphere Atmosphere The ozone layer helps protect organisms from harmful solar radiation. Plants use oxygen and carbon dioxide during photosynthesis. Wind causes weathering and erosion. Volcanic eruptions eject gas and debris into the air. The water cycle influences weather and climate. Increasing global temperatures lead to melting polar ice caps. Hydrosphere Geosphere Interpreting Tables 3. Name What other interactions can you name? All organisms need water for life functions. Rising sea levels change habitats. Materials in the geosphere provide nutrients for life functions. Organisms contribute to weathering, erosion, and fossil fuel formation. Water and ice cause weathering, erosion, and deposition. Hurricanes and tsunamis change coastal landforms. Interactions Among Earth Systems Earth systems interact by exchanging matter and energy. The table above describes some of these interactions. Matter and energy often change in form as they flow between systems. The Water Cycle The water cycle is an example of interaction among Earth systems. It is the continuous movement of water on, above, and below Earth s surface, as shown in the figure at the top of the next page. Water moves within the hydrosphere and into other Earth systems.

3 The Water Cycle Precipitation Transpiration Runoff Lake Transpiration Condensation Evaporation Ocean 4. Identify What processes in the water cycle move liquid water from Earth s surface into the atmosphere as water vapor? Water is not just a liquid. Sometimes it changes state and becomes solid ice or gaseous water vapor. As water flows or changes state, it moves thermal energy within the water cycle and among Earth systems. The Rock Cycle The rock cycle, shown below, is another type of interaction among Earth systems. It is the series of processes that change rocks from one form to another. Some processes happen deep within Earth. Others, like weathering and erosion, occur on or near Earth s surface. The atmosphere, hydrosphere, and biosphere interact with the geosphere through weathering and erosion. For example, rain and plants can weather rocks into sediments. Wind and flowing water can erode rocks and sediment and deposit them in new places. The amount of material cycling through each system usually stays the same, but it might change state or form either quickly or over millions of years. Weathering and erosion Uplift Igneous rocks The Rock Cycle Sediments Uplift Extreme temperatures and pressure Deposition, compaction, cementation Uplift Sedimentary rocks Extreme temperatures and pressure Metamorphic rocks Make a four-column chart book to organize your notes on Earth systems and interactions. Water Cycle Rock Cycle Carbon Cycle Phosphorus Cycle 5. Name What kind of rock is formed through extreme temperature and pressure? Cooling and crystallization Magma Melting

The Carbon Cycle Some elements are so important to life that scientists study their individual cycles among Earth systems. Carbon is one of these elements.

Carbon released by volcanism The Carbon Cycle Carbon dioxide in the atmosphere Burning fossil fuels Forest fires and deforestation Photosynthesis Absorption of carbon dioxide by water Cellular

Explain How do Earth systems interact in the carbon cycle? Processes of the Carbon Cycle Trace the path of carbon in the figure above as it is released from the geosphere during a volcanic eruption.

4 The Carbon Cycle Some elements are so important to life that scientists study their individual cycles among Earth systems. Carbon is one of these elements. The carbon cycle is the series of processes that continuously move carbon among Earth systems. 6. Examine Which processes add carbon dioxide to the atmosphere? Which processes remove it? Carbon released by volcanism The Carbon Cycle Carbon dioxide in the atmosphere Burning fossil fuels Forest fires and deforestation Photosynthesis Absorption of carbon dioxide by water Cellular respiration Decomposition Carbon stored in fossil fuels 7. Describe What role does photosynthesis play in the carbon cycle? Key Concept Check 8. Explain How do Earth systems interact in the carbon cycle? Processes of the Carbon Cycle Trace the path of carbon in the figure above as it is released from the geosphere during a volcanic eruption. Carbon from the geosphere enters the atmosphere as the trace gas carbon dioxide (CO 2 ). Several processes then remove CO 2 from the atmosphere. During photosynthesis, plants use sunlight, CO 2, and water and make simple sugars. As a result, carbon leaves the atmosphere and enters the biosphere. Weathering of rocks also removes carbon from the atmosphere and transports it to the hydrosphere as a dissolved material. Carbon moves from the atmosphere to the hydrosphere when atmospheric CO 2 dissolves in water. How does carbon leave the biosphere? Cellular respiration in organisms quickly returns CO 2 to the atmosphere. Even more carbon enters the atmosphere and the soil when organisms die and decay. Sometimes organic matter is buried deep in the geosphere, where it can form fossil fuels. Carbon leaves the hydrosphere and enters the geosphere when sedimentary rocks form on the ocean floor. Ocean water can warm and release dissolved CO 2 directly into the atmosphere. As carbon moves through Earth systems, the total amount of carbon in the carbon cycle remains about the same.

5 Carbon Reservoirs Carbon Reservoirs Carbon (billions of tons) Form Atmosphere 750 CO 2 gas Biosphere 3,000 organic molecules Hydrosphere 40,000 dissolved CO 2 gas Geosphere (crust and upper mantle) 750,000 minerals and rocks Geosphere (lower mantle) 750,000+ minerals and rocks Interpreting Tables 9. Compare How does the amount of carbon in the atmosphere compare to the amount in the biosphere? Carbon Reservoirs After water, carbon is the most abundant substance in living organisms. But as you just read, carbon is not limited to the biosphere. Carbon is in reservoirs, or storage places, within all Earth systems, as shown in the table above. On Earth, most carbon is combined with other elements in compounds. Carbon in the biosphere is stored in organisms. It does not exist as carbon atoms. It is combined with other elements in complex organic molecules, such as sugars and starches. Cells and tissues of all organisms are made of organic compounds. In the atmosphere and the hydrosphere, carbon exists as carbon dioxide gas (CO 2 ). Though the atmosphere is the smallest carbon reservoir, atmospheric CO 2 is important. The amount of CO 2 in the atmosphere affects climate, as you will read later. CO 2 in the hydrosphere is dissolved in water. Most of Earth s carbon is stored in the geosphere. Carbon is combined with other elements in minerals that form rocks. Limestone contains the mineral calcite, which contains carbon. Carbon also is stored as fossil fuels, such as coal, natural gas, and oil, which form underground. Humans and the Carbon Cycle Some changes in the amount of CO 2 in the atmosphere occur naturally. For example, a volcanic eruption can release large amounts of CO 2 into the air. But not all changes in the amount of CO 2 in the atmosphere occur naturally. Human activities cause some changes in levels of atmospheric CO 2. When people burn fossil fuels to generate electricity or to power vehicles, CO 2 is released directly into the atmosphere. Other activities can indirectly increase levels of atmospheric CO 2. For example, large tracts of forests might be cut down for agriculture or development. More CO 2 remains in the atmosphere because there are fewer trees to take in CO 2 during photosynthesis. 10. Identify What are the two most abundant substances in living organisms? REVIEW VOCABULARY fossil fuels fuels such as coal, oil, and natural gas that form in the Earth from plant or animal remains

6 Math Skills You can use percentages to figure out many types of problems. For example, a lawn fertilizer labeled contains 24 percent nitrogen, 2 percent phosphorus, and 8 percent potassium, in that order. How much phosphorus is in a 22-kg bag of fertilizer? a. Change the percentage of phosphorus to a decimal by moving the decimal point two places to the left. 2% = 0.02 b. Multiply the total mass of fertilizer by the decimal. 22 kg fertilizer 0.02 = 0.44 kg phosphorus 11. Use Percentages How much phosphorus is in a 10-kg bag of fertilizer? Greenhouse Gases CO 2 is a greenhouse gas. Greenhouse gases are gases in the atmosphere that absorb and reradiate thermal energy from the Sun. These gases keep Earth from becoming too cold to support life. When levels of CO 2 in the atmosphere increase, more thermal energy is absorbed and reradiated. Earth s average surface temperature increases. This phenomenon is called global warming. Global warming can cause coastal flooding as ice caps melt and sea level rises. These changes might cause climates around the world to change, altering habitats and harming living organisms. The Phosphorus Cycle Some important elements do not cycle through all Earth systems. One example is phosphorus (FAHS fuh rus). Phosphorus does not exist in the atmosphere. The phosphorus cycle is the series of processes that move phosphorus among Earth systems. Processes of the Phosphorus Cycle The processes in the phosphorus cycle help move phosphorus through the geosphere, the hydrosphere, and the biosphere. Phosphorus does not exist in nature as an element. It exists as phosphates (PO 4 ), compounds formed from phosphorus and oxygen. Key Concept Check 12. Explain How do Earth systems interact in the phosphorus cycle? The figure on the top of the next page illustrates the processes of the phosphorus cycle. Earth s phosphorus starts out in the geosphere. Rocks exposed at Earth s surface release phosphates when they weather. The phosphates either remain in the soil or dissolve and enter the hydrosphere. Dissolved phosphate molecules move in liquid water through the water cycle. Eventually, the phosphates reach lake bottoms or the seafloor and are deposited along with sediment. The phosphorus becomes part of new sedimentary rocks that form from the deposited sediment. Plants absorb phosphorus from soil or water. Animals take in phosphorus when they eat plants or when they eat other animals that have eaten plants. These phosphates return to the soil as part of animal waste or as part of decomposing organisms.

The Phosphorus Cycle Animals Weathering of phosphate from rocks Plants Animal waste Runoff Decomposers Decomposers Phosphate in solution Phosphate in soil Phosphorus Reservoirs Rocks in the geosphere

7 The Phosphorus Cycle Animals Weathering of phosphate from rocks Plants Animal waste Runoff Decomposers Decomposers Phosphate in solution Phosphate in soil Phosphorus Reservoirs Rocks in the geosphere include minerals containing phosphates. The most common of these minerals is apatite (A puh tite). Turquoise is a mineral often used in jewelry. Turquoise is also a phosphate mineral. Phosphate incorporated into sedimentary rocks 13. Evaluate How do living things affect the phosphorus cycle? The hydrosphere is another reservoir for phosphorus. As you just read, phosphates dissolve in water. Phosphorus moves through the water cycle as a dissolved substance in liquid water. However, it does not evaporate and enter the atmosphere. Phosphorus cycles through the geosphere and the hydrosphere over long periods of time. Phosphates incorporated into sedimentary rocks on the ocean floor might not reenter the phosphorus cycle for millions of years. In contrast, the phosphorus stored in organisms in the biosphere recycles fairly quickly. Like carbon, phosphorus is a necessary element for organisms. It is needed to make cell membranes and transfer energy. It also is an important component of teeth, bones, and shells. Animals store most of their phosphorus in these structures. Animal waste also is a major source of phosphorus. Humans and the Phosphorus Cycle Recall that humans can disturb the carbon cycle. Humans can also disturb the phosphorus cycle. For example, plants store most of the phosphorus in rain forests. As the plants drop their leaves or die, new plant growth quickly takes up the phosphorus. Clearing the trees in rain forests disturbs the phosphorus cycle. C121_001_009_RE_L1_ indd Summarize How do living organisms use the element phosphorus? 4/6/10 5:07:25 PM

Residential sewage and industrial runoff Humans and the Phosphorus Cycle Increased levels of nitrates and phosphates in rivers and ponds Chemical runoff from fertilizers Algal bloom results in thick

8 Residential sewage and industrial runoff Humans and the Phosphorus Cycle Increased levels of nitrates and phosphates in rivers and ponds Chemical runoff from fertilizers Algal bloom results in thick scum on water surface death of some algae Less light causes death of some photosynthesizing plants. Large amounts of organic matter Death of fish and other aquatic organisms Aerobic decomposition (bacteria) uses up oxygen in water. 15. Trace the path of residential sewage. 16. Describe How can farming affect the phosphorus cycle? Clearing forests also exposes soil. Heavy rains wash away the phosphorus released by decaying plants. The lack of this important element makes the soil unproductive for future crops. Other practices also can impact the phosphorus cycle. As shown in the figure above, runoff from farms, homes, and factories can contain phosphorus. Rain can wash the phosphorus into rivers, streams, and lakes. Algae consume the phosphorus, and the algae population increases. As excess algae decompose, they use up oxygen in the water. This harms fish and other aquatic organisms.

Mini Glossary carbon cycle: the series of processes that continuously move carbon among Earth systems phosphorus cycle: the

reradiates thermal energy from the Sun 1. Review the terms and their definitions in the Mini Glossary.

The diagram on the left identifies one human activity that disturbs the carbon cycle and describes its impact.

Carbon Cycle Human activity: cutting down large tracts of forests Phosphorus Cycle Human activity: Impact: More CO 2 remains in

Review the information in the table you created as you read the lesson and write a question about the carbon or phosphorus

9 Mini Glossary carbon cycle: the series of processes that continuously move carbon among Earth systems phosphorus cycle: the series of processes that move phosphorus among Earth systems greenhouse gas: a gas in the atmosphere that absorbs and reradiates thermal energy from the Sun 1. Review the terms and their definitions in the Mini Glossary. Write a sentence explaining the relationship between greenhouse gases and life on Earth. 2. The diagram on the left identifies one human activity that disturbs the carbon cycle and describes its impact. Fill in the graphic organizer on the right for the phosphorus cycle. Carbon Cycle Human activity: cutting down large tracts of forests Phosphorus Cycle Human activity: Impact: More CO 2 remains in atmosphere because fewer trees take in CO 2 during photosynthesis. 3. Review the information in the table you created as you read the lesson and write a question about the carbon or phosphorus cycle in the space below. What do you think Reread the statements at the beginning of the lesson. Fill in the After column with an A if you agree with the statement or a D if you disagree. Did you change your mind? Impact: ConnectED Log on to ConnectED.mcgraw-hill.com and access your textbook to find this lesson s resources. END OF LESSON