The Hydrosphere and Biosphere

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The Hydrosphere and Biosphere Life on Earth is restricted to a very narrow layer around Earth s surface. In this layer, called the biosphere, everything that organisms need to survive can be found. One of the requirements of all living things is liquid water. The Hydrosphere and Water Cycle The hydrosphere includes all of the water on or near Earth s surface, such as the water in the oceans, lakes, rivers, wetlands, polar icecaps, soil, rock layers beneath Earth s surface, and clouds. The continuous movement of water into the air, onto land, and then back to water sources is known as the water cycle, which is shown in Figure 3.1. Evaporation is the process by which liquid water is heated by the sun and then rises into the atmosphere as water vapor. Water continually evaporates from Earth s oceans, lakes, streams, and soil, but the majority of the water evaporates from the oceans. In the process of condensation, water vapor forms water droplets on dust particles. These water droplets form clouds, in which the droplets collide, stick together, and create larger, heavier droplets. These larger droplets fall from clouds as rain in a process called precipitation. Precipitation may also take the form of snow, sleet, or hail. Figure 3.1 Section 3 Key Terms water cycle evaporation condensation precipitation salinity fresh water biosphere Objectives Name the three major processes in the water cycle. Describe the properties of ocean water. Describe the two types of ocean currents. Explain how the ocean regulates Earth s temperature. Discuss the factors that confine life to the biosphere. Explain the difference between open and closed systems. The Water Cycle The major processes of the water cycle include condensation, and precipitation. evaporation, condensation evaporation precipitation Peter Wey/Fotolia Chapter 3: The Dynamic Earth 73

Connect to GEOLOGY Submarine Volcanoes Geolo gists estimate that approximately 80 percent of the volcanic activity on Earth takes place on the ocean floor. Most of this activity occurs as magma slowly flows onto the ocean floor where tectonic plates pull away from each other. But enormous undersea volcanoes are also common. Off the coast of Hawaii, a submarine volcano called the Loihi Seamount rises 5,185 m from the ocean floor. Loihi is just 915 m below the ocean s surface, and in several thousand years, this volcano may become the next Hawaiian Island. Earth s Oceans We talk about the Atlantic Ocean, the Pacific Ocean, the Arctic Ocean, the Southern Ocean, and the Indian Ocean. However, if you look at Figure 3.2, you see that these oceans are all joined. This single, large, interconnected body of water is called the world ocean. Its waters cover a little over 70 percent of the Earth s surface. As we will see, the world ocean plays many important roles in regulating our planet s environment. The largest ocean on Earth is the Pacific Ocean. It covers a surface area of approximately 155,557,000 km2 and has an average depth of 4,280 m. The deepest point on the ocean floor is in the Pacific Ocean. This point is called the Challenger Deep and is located east of the Philippine Islands at the bottom of the Mariana Trench and is deeper than Mount Everest is tall. The second-largest ocean on Earth is the Atlantic Ocean. It covers a surface area of 76,630,000 km2, which is about half the area of the Pacific Ocean. Like the Pacific Ocean, the Atlantic Ocean can be divided into a north half and a south half based on the directions of surface current flow north and south of the equator. CASESTUDY Storm Surge, Tsunamis, and Coastal Wetlands 74 Unit 1: Introduction to Environmental Science Saltmarsh cordgrass, shown in a salt marsh at the New River Inlet, North Carolina, helps to anchor shorelines. hurricanes or a tsunami may not travel as far. It also may not be as powerful. Another way that wetlands provide protection from disasters is by building up sediment and holding it together. By creating more land and stable shorelines, the wetlands will reduce damage from waves even more. Multiple studies have found that the loss of human lives and livestock as well as the economic damage inflicted on an area by hurricanes are less when they are protected by coastal wetlands. We know less about how wetlands protect coastal communities from tsunamis, but one study found that having coastal trees reduced the loss of human life by 5%. Norm Thomas/Photo Researchers, Inc. Coastal wetlands include mangrove forests and salt marshes. These ecosystems filter the water, are a home for many species, prevent erosion, and provide recreational and commercial opportunities for people. Coastal wetlands are worth billions of dollars to the economy every year, but in many areas of the world they have been removed for human development. In the last several years major natural disasters have shown how vulnerable coastal areas can be. Hurricane Katrina along the Gulf of Mexico and tsunamis in Japan and southeast Asia killed thousands of people and resulted in billions of dollars of damage. In these areas, many coastal wetlands had been removed. Could mangrove forests or coastal marshes have reduced the damage? The plants of coastal wetlands can reduce the height of waves, so the surge of water moving inland from

The Indian Ocean covers a surface area of 73,762,000 km2 and is the third-largest ocean on Earth. It has an average depth of 3,890 m. In 2000, the waters that completely surround the continent of Antarctica were designated as the Southern Ocean. Although it has no land mass to separate it from the others, it can be distinguished by the rapid movement of its waters around Antarctica, known as the Antarctic Circumpolar Current. It encompasses an area of approximately 20,327,000 km2. Figure 3.2 World Ocean The Pacific, Atlantic, Indian, Southern, and Arctic Oceans are interconnected into a single body of water, the world ocean, which covers 70 percent of Earth s surface. The smallest ocean is the Arctic Ocean, which covers 14,560,000 km2. The Arctic Ocean is unique because much of its surface is covered by floating ice. This ice, which is called pack ice, forms when either waves or wind drive together frozen seawater, known as sea ice, into a large mass. SOUTHERN OCEAN Vincent Laforet, POOL/AP Images Over 80% of New Orleans was submerged by floodwater when Hurricane Katrina struck in August, 2005. Not all types of coastal wetland will provide the same amount of protection. For example, dense mangrove forests are better than those with fewer trees. Also, it is important that wetlands are relatively large. The tsunami in the Indian Ocean in 2004 and the oil from the Deepwater Horizon spill in 2010 killed large areas of wetlands, but only in a strip along the coast. The mangrove forests and marshes further inland mostly survived and allowed the wetlands to remain largely intact. Even though coastal wetlands are a benefit during natural disasters, they are not a substitute for other methods of protection, like early warning systems. Because wetlands provide many benefits other than reducing the impacts of natural disasters, it is important to preserve them. Many communities have decided that protecting remaining coastal wetlands is not enough. They are working Critical Thinking to restore degraded wetlands or create new wetlands where they have been destroyed. Scientists are working to find out the best ways to restore wetlands to provide many benefits including increasing tourism, increasing fish populations, and protecting coastal communities. Critical Thinking Explain A local city commission is trying to decide what should be done with a large vacant area along the coast. Provide an argument why it might be a good idea to create a coastal wetland. Chapter 3: The Dynamic Earth 75

Figure 3.3 Dissolved Solids This pie graph shows the percentages by weight of dissolved solids found in ocean water. Sodium and chlorine, the two elements that form salt, are the most important dissolved solids in ocean water. Other 0.7% Potassium 1.1% Calcium 1.2% Sulfur 3.7% Magnesium 7.7% Sodium 30.6% Chlorine 55.0% Ocean Water The difference between ocean water and fresh water is that ocean water contains more salts. These salts have dissolved out of rocks on land and have been carried down rivers into the ocean over millions of years. Underwater volcanic eruptions also add salts to the ocean. Most of the salt in the ocean is sodium chloride, which is made up of the elements sodium and chlorine. Figure 3.3 shows the concentration of these and other elements in ocean water. The salinity of ocean water is the concentration of all the dissolved salts it contains. The average salt content of ocean water is 3.5 percent by weight. The salinity of ocean water is lower in places that get a lot of rain or in places where fresh water flows into the sea. Salinity is higher where water evaporates rapidly and leaves the salts behind. HMDScience.com Understanding Ocean Currents Temperature Zones Figure 3.4 shows the temperature zones of the ocean. The surface of the ocean is warmed by the sun. In contrast, the depths of the ocean, where sunlight never reaches, have temperatures only slightly above freezing. Surface waters are stirred up by waves and currents, so the warm surface zone may be as much as 350 m deep. Below the surface zone is the thermocline, which is a layer about 300 to 700 m deep where the temperature falls rapidly with depth. From the bottom of the thermocline, down to the bottom of the ocean, lies the cold, dark deep zone. Figure 3.4 Ocean Zones Water in the ocean can be divided into three zones based on temperature. 0 200 Surface Zone The surface zone is the warm, top layer of ocean water. Sunlight heats the top 100 m of the surface zone. Surface currents mix the heated water with cooler water below. Water depth (m) 400 600 Thermocline Water temperature in this zone drops faster with increased depth than it does in the other two zones. 800 1,000 Deep Zone This bottom layer extends from the base of the thermocline to the bottom of the ocean. The temperature in this zone averages 2 C. 1,200 0 5 10 15 20 25 30 Water temperature ( C) 76 Unit 1: Introduction to Environmental Science

A Global Temperature Regulator One of the most important functions of the world ocean is to absorb and store energy from sunlight. This capacity of the ocean to absorb and store energy from sunlight regulates temperatures in Earth s atmosphere. The world ocean absorbs over half the solar radiation that reaches the planet s surface. The ocean both absorbs and releases heat more slowly than land does. As a consequence, the temperature of the atmosphere changes much more slowly than it would if there were no ocean on Earth. If the ocean did not regulate atmospheric and surface temperatures, the temperature would be too extreme for life on Earth to exist. Local temperatures in different areas of the planet are also regulated by the world ocean. Currents that circulate warm water cause the land areas they flow past to have a more moderate climate. For example, the British Isles are warmed by the Gulf Stream, which moves warm waters from lower latitudes toward higher latitudes, as shown in Figure 3.5. Check for Understanding Compare How does the absorption and release of heat by the ocean differ from the absorption and release of heat by land? Figure 3.5 The Gulf Stream In this infrared satellite image, the Gulf Stream is moving warm water (shown in red, orange, and yellow) from lower latitudes into higher latitudes. The British Isles are warmed by the waters of the Gulf Stream. critical thinking Predict If cold water from melting polar ice were to shut down the Gulf Stream, what would happen to the climate of the British Isles? Connect to MATH The Influence of the Gulf Stream The temp er a ture of the British Isles is moderated by the Gulf Stream. Plymouth, England, and Winnipeg, Canada, are located at approximately 50 north latitude. Plymouth, which is located in the southwest of England near the Atlantic Ocean, has average low temperatures of 4 C in December, 3 C in January, and 3 C in February. Winnipeg, which is located in the interior of North America, has average low temperatures of 18 C in December, 23 C in January, and 20 C in February. What is the difference in average low temperatures in degrees Celsius between Plymouth and Winnipeg? Rosenstiel School of Marine & Atmospheric Science Chapter 3: The Dynamic Earth 77

QUICKLAB Deep Ocean Currents Procedure 1. Fill a large glass container or aquarium with hot water. 2. Next, fill a 100 ml beaker with very cold water, adding several drops of dark food coloring. 3. Hypothesize an explanation for what might happen when the cold water is added to the hot water. 4. Holding the beaker above the larger container, carefully pour the icy water into the hot water. Analysis 1. What did you observe when the cold water was poured into the hot water? 2. Explain why this occurred and how it relates to ocean currents. Ocean Currents Streamlike movements of water that occur at or near the surface of the ocean are called surface currents. Surface currents are wind driven and result from global wind patterns. Figure 3.6 shows the major surface currents of the world ocean. Surface currents may be warm-water currents or cold-water currents. Currents of warm water and currents of cold water do not readily mix with one another. Therefore, a warm-water current like the Gulf Stream can flow for hundreds of kilometers through cold water without mixing and losing its heat. Surface currents can influence the climates of land areas they flow past. As we have seen, the Gulf Stream moderates the climate in the British Isles. The Scilly Isles in England are as far north as Newfoundland in northeast Canada. However, palm trees grow on the Scilly Isles, where it never freezes, whereas Newfoundland has long winters of frost and snow. Deep currents are streamlike movements of water that flow very slowly along the ocean floor. Deep currents form when the cold, dense water from the poles sinks below warmer, less dense ocean water and flows toward the equator. The densest and coldest ocean water is located off the coast of Antarctica. This cold water sinks to the bottom of the ocean and flows very slowly northward to produce a deep current called the Antarctic Bottom Water. The Antarctic Bottom Water creeps along the ocean floor for thousands of kilometers and reaches a northernmost point of approximately 40 north latitude. It takes several hundred years for water in this deep current to make this trip northward. Figure 3.6 Surface Currents The oceans surface currents circulate in different directions in each hemisphere. 78 Unit 1: Introduction to Environmental Science

Fresh Water Most of the water on Earth is salt water in the ocean. A little more than 3 percent of all the water on Earth is fresh water. Most of the fresh water is locked up in icecaps and glaciers that are so large they are hard to imagine. For instance, the ice sheet that covers Antarctica is as large as the United States and is up to 3 km thick. The rest of Earth s fresh water is found in lakes, rivers, wetlands, the soil, rock layers below the surface, and in the atmosphere. River Systems A river system is a network of streams that drains an area of land. A river system contains all of the land drained by a river, including the main river and all its tributaries. As shown in Figure 3.7, tributaries are smaller streams or rivers that flow into larger ones. Some river systems are enormous. For example, most of the precipitation that falls between the Rocky Mountains in the west and the Appalachian Mountains in the east eventually drains into the Mississippi River. The Mississippi River system covers about 40 percent of the contiguous United States. Figure 3.7 River System This photo shows a network of tributaries flowing into a river in the wetlands of southern Louisiana. critical thinking Infer Looking at the photograph, why would pesticides sprayed on crops near the head of the main river be of concern to people near the coast? Groundwater Rain and melting snow sink into the ground and run off the land. Some of this water ends up in streams and rivers, but most of it trickles down through the ground and collects as groundwater. Groundwater fulfills the human need for fresh drinking water and supplies water for many agricultural and industrial uses. But groundwater accounts for less than 1 percent of all the water on Earth. Aquifers A rock layer that stores and allows the flow of groundwater is called an aquifer. The surface of the land where water enters an aquifer is called a recharge zone. Figure 3.8 shows the location of aquifers in the contiguous United States. Figure 3.8 Aquifers Aquifers underlie much of the United States. The brown areas are rocks that contain relatively little stored water. SPL/Photo Researchers, Inc. Chapter 3: The Dynamic Earth 79

Check for Understanding Explain What makes life possible in the biosphere? The Biosphere If the Earth were an apple, the biosphere would be its skin. This comparison illustrates how small the layer of Earth that can support life is in relation to the size of the planet. The biosphere is the narrow layer around Earth s surface in which life can exist. The biosphere is made up of the uppermost part of the geosphere, most of the hydrosphere, and the lower part of the atmosphere. The biosphere extends about 12 km into the ocean and about 9 km into the atmosphere. Life exists on Earth because of several important factors. Most life requires liquid water, moderate temperatures, and a source of energy. The materials that organisms require must continually be cycled. Gravity allows a planet to maintain an atmosphere and to cycle materials. Suitable combinations of the things that organisms need to survive are found only in the biosphere. The biosphere is located near Earth s surface because most of the sunlight is available near the surface. Plants on land and in the ocean are shown in Figure 3.9. Plants need sunlight to produce their food, and almost every other organism gets its food from plants and algae. Most of the algae float at the surface of the ocean. These tiny, free-floating, marine algae are known as phytoplankton. Except for bacteria that live at hydrothermal vents, most of the organisms that live deep in the ocean feed on dead plants, animals, and protists that drift down from the surface. Figure 3.9 The Biosphere This illustration of the biosphere shows the concentration of plant life on land and in the ocean. The colors represent different concentrations of plant life in different regions. SeaWiFS Project/Goddard Space Flight Center/NASA 80 Unit 1: Introduction to Environmental Science

Energy Flow in the Biosphere When an organism in the biosphere dies, its body is broken down and the matter in its body becomes available to other organisms. This matter is continually recycled. Energy, however, must be supplied constantly. The Eden Project, shown in Figure 3.10, is a closed system that models this flow of matter and energy. In a closed system, energy enters and leaves the system, but matter does not. Earth is a closed system because the only thing that enters in significant amounts is energy from the sun, and the only thing that leaves in significant amounts is heat. Energy from the sun is used by plants in the biosphere to make their food. When an animal eats a plant, the energy stored in the plant is transferred to the animal. The animal, in turn, may be eaten by another animal. At each stage in the food chain, some of the energy is lost to the environment as heat, which is eventually lost into space. In an open system, both matter and energy are exchanged between a system and the surrounding environment. Earth was once an open system. Matter was added to the early Earth as it was hit by comets and meteorites. Now, however, little matter reaches Earth this way. Figure 3.10 Closed System The Eden Project is an attempt to model the biosphere. In this project, plants from all over the world live in a closed system. The Eden Project is housed within a series of domes that were constructed in an old clay pit in England. Geoff Kidd/SPL/Photo Researchers, Inc. Section 3 Formative Assessment Reviewing Main Ideas 1. Name and describe each of the three major processes in the water cycle. 2. Describe the properties of ocean water. 3. Describe the two types of ocean currents. 4. Name two factors that confine living things to the biosphere. Critical Thinking 5. Analyzing Processes Read about the ocean s role in regulating temperature under the heading A Global Temperature Regulator. How might Earth s climate change if the land area on Earth were greater than the area of the world ocean? 6. Analyzing Relationships Why is the human body considered an open system? Chapter 3: The Dynamic Earth 81