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Terrestrial and Aquatic Biomes Finz 2012 What is a Biome? • Biomes are large regions characterized by a specific type of climate and certain types of plant and animal communities. • Each biome is made up of many individual ecosystems. Biomes and Vegetation • Biomes are described by their vegetation because plants that grow in an area determine the other organisms that can live there. • Plants in a particular biome have characteristics, specialized structures, or adaptations that allow the plants to survive in that biome. • These adaptations include size, shape, and color. For example, plants in the tundra tend to be short because they cannot obtain enough water to grow larger. The World’s Major Terrestrial Biomes Biomes and Climate • Climate is the average weather conditions in an area over a long period of time. • Climate is the main factor is determining which plants can grow in a certain area, which in turn defines the biome. • Temperature and precipitation are the two most important factors that determine a region’s climate. Temperature and Precipitation • Most organisms are adapted to live within a particular range of temperatures and will not survive at temperatures too far above or below their range. • Precipitation also limits the organisms that can be found in a biome because all organisms need water, and the bigger the animal, the more water it needs. Temperature and Precipitation • Biomes that do not receive enough rainfall to support large trees support communities dominated by small trees, shrubs, and grasses. • In biomes where rainfall is not frequent, the vegetation is mostly cactuses and desert shrubs. In extreme cases, lack of rainfall results in no plants, no matter what the temperature is. • The higher the temperature and precipitation are, the taller and denser the vegetation is. Latitude and Altitude • Latitude is the distance north or south from the equator, and is expressed in degrees. • Altitude is the height of an object above a reference point, such as sea level or the Earth’s surface. • Climate varies with latitude and altitude. • For example, climate gets colder as latitude and altitude increase. This is why it gets colder as you move further up a mountain. Temperature and Precipitation Latitude and Altitude • As latitude and altitude increase, biomes and vegetation change. • Trees of tropical rainforests usually grow closer to the equator, while mosses and lichen of the tundra grow closer to the poles. • The temperate region includes biomes such as temperate forests and grasslands, which usually have moderate temperatures and fertile soil that is ideal for agriculture. Latitude and Altitude Forest Biomes • Of all the biomes in the world, forest biomes are the most widespread and the most diverse. • The large trees of forests need a lot of water, so forests can be found where temperatures are mild to hot and where rainfall is plenty. • There are three main forest biomes of the world: tropical, temperate, and coniferous. Tropical Rain Forests • Tropical rain forests are forests or jungles near the equator. They are characterized by large amounts of rain and little variation in temperature and contain the greatest known diversity of organisms on Earth. • They help regulate world climate an play vital roles in the nitrogen, oxygen, and carbon cycles. • They are humid, warm, and get strong sunlight which allows them to maintain a fairly constant temperature that is ideal for a wide variety of plants and animals. Tropical Rain Forests Nutrients in Tropical Rain Forests • Most nutrients are within the plants, not the soil. • Decomposers on the rain-forest floor break down dead organisms and return the nutrients to the soil, but plants quickly absorb the nutrients. • Some trees in the tropical rain forest support fungi that feed on dead organic matter on the rain-forest floor. In this relationship, the fungi transfer the nutrients form the dead matter directly to the tree. Nutrients in Tropical Rain Forests • Nutrients from dead organic matter are removed so efficiently that runoff from rain forests is often as pure as distilled water. • Most tropical soils that are cleared of plants for agriculture lack nutrients and cannot support crops for more than a few years. • Many of the trees form above ground roots called buttresses or braces that grow sideways from the tree to provide it with extra support in the thin soil. Layers of the Rain Forest • In tropical rain forests, different types of plants grow in different layers. • There are four main layers of the rain forest: • • • • The Emergent Layer The Upper Canopy The Lower Layer The Understory Layers of the Rain Forest Layers of the Rain Forest • The emergent layer is the top foliage layer in a forest where the trees extend above surrounding trees. • Trees in this layer grow and emerge into direct sunlight reaching heights of 60 to 70 m and can measure up to 5 m around. • Animals such as eagles, bats, monkeys, and snakes live in the emergent layer. Layers of the Rain Forest • The canopy is the layers of treetops that shade the forest floor, and is considered to be the primary layer of the rain forest. • The tall trees, more than 30 m tall, form a dense layer that absorbs up to 95 percent of the sunlight. • The canopy can be split into and upper and lower canopy with the lower canopy receiving less of the sunlight. Layers of the Rainforest • Epiphytes are plants that use another plant for support but not for nourishment, and are located on high trees in the canopy. • Growing on tall trees in allows them to reach the sunlight needed for photosynthesis, and to absorb the water and nutrients that run down the tree after it rains. • Most animals that live in the rain forest live in the canopy because they depend on the abundant flowers and fruits that grow there. Layers of the Rainforest • The understory is the foliage layer that is beneath and shaded by the main canopy of a forest. • Little light reaches this layer allowing only trees and shrubs adapted to shade to grow there. • Most plants in the understory do not grow more that 3.5 m tall. • Herbs with large flat leaves that grow on the forest floor capture the small amount of light that penetrates the understory. Species Diversity • The diversity of rain-forest vegetation has led to the evolution of a diverse community of animals. • Most rainforest animals are specialists that use specific resources in particular ways to avoid competition and have adapted amazing ways to capture prey and avoid predators. • Insects use camouflage to avoid predators and may be shaped like leaves or twigs. Threats to Rain Forests • Every minute of every day, 100 acres of tropical rainforest are cleared for logging operations, agriculture, and oil exploration. Exotic-pet trading robs the rain forests of rare and valuable plant and animal species only found there. • Habitat destruction occurs when land inhabited by an organism is destroyed or altered. • If the habitat that an organism depends on is destroyed, the organism is at risk of disappearing. Threats to Rain Forests • An estimated 50 million native peoples live in tropical rain forests and are also threatened by habitat destruction. • Because they obtain nearly everything they need form the forest, the loss of their habitat could force them to leave their homes and move into cities. • This drastic change of lifestyle may then cause the native peoples too lose their culture and traditions. Temperate Forests • Temperate rain forests are forests communities that are characterized by cool, humid weather and abundant rainfall, where tree branches are draped with mosses, tree trunks are covered with lichens, and the forest floor is covered with ferns. • They occur in North America, Australia, and New Zealand, and are dominated by evergreen trees such as the Douglas fir and Sitka spruce. Temperate Forests • Although located north of most other rain forests, the temperate rain forest of the Pacific Northwest still maintains a moderate temperature year round. • It rarely freezes because the nearby Pacific Ocean waters keep temperatures mild by blowing cool ocean water over the forest. • As the ocean winds meet the costal Olympic Mountains, a large amount of rainfall is produced which keeps the temperature cool and moist. Temperate Deciduous Forests • Temperate deciduous forests are forests characterized by trees that shed their leaves in the fall, and located between 30º and 50º north latitude. • The range of temperatures can be extreme, with summer temperatures soaring to 35ºC and winter temperatures often falling below freezing. • They receive 75 to 125 cm of precipitation annually which helps to decompose dead organic matter contributing to the rich soils of the forest. Temperate Deciduous Forests Plants of Deciduous Forests • Plants in the deciduous forests grow in layers with tall trees, such as birch, dominating the canopy while shrubs cover the understory. Also, more light reaches deciduous forest floors than rain forests floors allowing more plants to grow. • Temperate-forest plants are adapted to survive seasonal changes. In the fall and winter, trees shed their leaves and seeds go dormant under the insulation of the soil. With the returning warmth in the spring, the trees grow new leaves and seeds germinate. Animals of Deciduous Forests • The animals of temperate deciduous forests are adapted to use the forest plants for both food and shelter. • Birds cannot survive the harsh winter of the deciduous forests so each fall they fly south for warmer weather and better availability of food. • Other animals, such as mammals and insects, reduce their activity so that they do not need as much food for energy, enabling them to survive the winter. Taiga • The taiga is the region of evergreen, coniferous forest below the arctic and subarctic tundra regions. • The taiga has long winters and little vegetation. • The growing season can be as short as 50 days with most plant growth occurring during the summer months because of nearly constant daylight and larger amounts of precipitation. Taiga Plants of the Taiga • A conifer is a tree that has seeds that develop in cones. Their leaves’ arrow shape and waxy coating helps them to retain water in the winter. The conifer’s shape also helps the tree shed snow to the ground and not get weighed down. • Conifer needles contains substances that make the soil acidic when they fall to the ground preventing plants from growing on the floor. • Also, soil forms slowly in the taiga because the climate and acidity slow decomposition. Animals of the Taiga • The taiga has many lakes and swamps that in the summer attract birds that feed on insects. • To avoid the harsh winters, birds migrate, while some year round residents, such as shrews, burrow underground for better insulation. • Other animals, such as snowshoe hares, have adapted to avoid predation by shedding their brown summer fur and growing white fur that camouflages them in the winter snow. Grassland, Desert, and Tundra Biomes • In climates that have less rainfall, forest biomes are replaced by savanna, grassland, and chaparral biomes. • As even less rain falls in these biomes, they change into desert and tundra biomes. • As precipitation decreases in an area, the diversity of the species in the area also decreases. But, the number of individuals of each species present may still be very large. Savannas • Savannas are plains full of grasses and scattered trees and shrubs that are found in tropical and subtropical habitats. Found mainly in regions with a dry climate, such as East Africa and western India. • Although savannas receive little precipitation throughout the year, they do have a wet season and a dry season. • Many animals are only active during the wet season. Grass fires help to restore nutrients to the soil during the dry season. Savannas Plants of the Savanna • Because most of the rain falls during the wet season, plants must be able to survive prolonged periods without water. • Some plants have large horizontal root systems to help them survive the dry season. These roost also enable the plant to grow quickly after a fire. • The grasses also have coarse vertical leaves that expose less surface area to help conserve water, while some trees shed their leaves. Almost all have thorns for protection from herbivores. Animals of the Savanna • Grazing herbivores, like the elephant, have adopted migratory ways of life, following the rains to areas of new grass and fresh watering holes. Predators often stalk these animals for food. • Many savanna animals give birth only during the rainy season, when food is abundant and the young are more likely to survive. • Some species of herbivores reduce competition for food by eating vegetation at different heights than other species do. Temperate Grasslands • Temperate grasslands are communities (or biomes) that are dominated by grasses, have few trees, and are characterized by hot summers and cold winters, with rainfall that is intermediate between that of a forest and a desert. • Temperate grasslands have the most fertile soil of any biome. Few natural temperate grasslands remain because many have been replaced by grazing areas and farms growing crops such as corn, soybeans, and wheat. Temperate Grasslands • Temperate grasslands are located on the interiors of continents where too little rain falls for trees to grow and include the prairies of North America. • Mountains often play a crucial role in maintaining grasslands as rain clouds from the west are blocked. However, rainfall does increase as you move eastward, allowing taller grasses to grow. • Heavy precipitation is rare in the grasslands, allowing the hot temperatures in the summer to make the grasslands susceptible to fires. Temperate Grasslands Plants of Temperate Grasslands • The roots system of prairie grasses form dense layers that survive drought and fire allowing the plants to come back from year to year. • Few trees survive on the grasslands because of the lack of rainfall, fire, and the constant winds. • The amount of rainfall in the area determines the types of plants that will grow in that area with varying root depth and grass height. Grassland Plants Animals of Temperate Grasslands • Some grazing animals, such as the bison and pronghorn antelope, have large, flat teeth for chewing the coarse prairie grasses. • Other grasslands animals, such as prairie dogs, owls, and badgers, live protected in underground burrows that protect them from predators on the open grasslands. Threats to Temperate Grasslands • Farming and overgrazing have changed the grasslands. • Grains crops cannot hold the soil in place as well as native grasses can because the roots of crops are shallow, so soil erosion eventually occurs. • Erosion is also caused as the grasses are constantly eaten and trampled. • Constant use can change the fruitful grasslands into desertlike biomes. Deserts • Deserts are regions that have little or no vegetation, long periods without rain, and extreme temperatures. • Although there are hot and cold deserts, one characteristic they both share is the fact that they are the driest places on Earth. • Deserts are often located near large mountain ranges because mountains can block the passage of moisture-filled clouds, limiting precipitation. Deserts Plants of the Desert • All desert plants have adaptations for obtaining and conserving water, which allows the plants to live in dry, desert conditions. • Plants called succulents, such as cactuses, have thick, fleshy stems and leaves that conserve water. Their leaves also have a waxy coating to prevent water loss, while sharp spines on the plant keep animals away. • Many plant roots spread out just under the surface to absorb as much rain as possible. Plants of the Desert • Some plants are adapted to survive for long periods of time without water. • When conditions are too dry, these plants die and drop their seeds that stay dormant until the next rainfall. Then, new plants quickly germinate, grow, and bloom before the soil becomes dry again. • These plants can survive their water content dropping to as low as 30 percent of their mass. Animals of the Desert • Animals of the desert have adapted many different ways to prevent water loss. • Reptiles have thick, scaly skin that prevents water loss. Amphibians survive by estivating, or burying themselves in the ground and sleeping through the dry season. Insects are covered with body armor that helps them retain water. • In addition, most desert animals are nocturnal, meaning they are active mainly at night or dusk when it is cooler. Tundra • The tundra is a treeless plain that is located in the Arctic or Antarctic and that is characterized by very low winter temperatures, short, cool summers, and vegetation that consists of grasses, lichens, and perennial herbs. • Summers are short in the tundra, so only the top few centimeters of soil thaw. • Permafrost is the permanently frozen layer of soil or subsoil and can be found in the tundra regions. Tundra Vegetation of the Tundra • Mosses and lichens, which can grow without soil, cover vast areas of rocks in the tundra. • The soil is thin, so plants have wide shallow roots to help anchor them against the icy winds. • Most flowering plants are short, which keeps them out of the wind and helps them absorb heat from the sunlit soil. Woody plants and perennials have evolved dwarf forms that grow flat along the ground. Animals of the Tundra • Millions of migratory birds fly to the tundra to breed in the summer when food is abundant. • Caribou migrate throughout the tundra in search of food and water. Hunters such as wolves prey on migratory caribou, deer, and moose. • Rodents stay active, but burrow underground to avoid the cold. Other year-round residents, such as arctic foxes, lose their brown summer coat for white fur that camouflages them with the snow. Threats to the Tundra • The tundra is one of the most fragile biomes on the planet. The food chains are relatively simple so they are easily disrupted. • Until recently these areas have been undisturbed by humans. But oil was located in parts of the tundra, and oil exploration, extraction, and transport has disrupted many tundra habitats. • Pollution caused by spills or leaks of oil and other toxic materials may also poison the food and water sources of organisms of the tundra. Mountains • The mountain biome is not usually described in other references because a variety of other biomes exist within it (such as grasslands at the base of a mountain, coniferous forest at the center of the mountain, and the tundra found at the top of the mountain). But because some animals are only found on a specific mountain range it is important to recognize the mountains as a biome. World Distribution • High elevations on mountains produce colder climates than at sea level. These colder climates strongly affect the ecosystem of mountains: different elevations have different plants and animals. Because of the less hospitable terrain and climate, mountains tend to be used less for agriculture and more for resource extraction and recreation, such as mountain climbing. Mountain Facts • The highest mountain on Earth is Mount Everest in the Himalayas of Asia, whose summit is 8,849.868 m (29,035 ft) above mean sea level. The highest known mountain on any planet in the Solar System is Olympus Mons. Mountain Facts • Mountains cover about 20% of the Earth's surface and are found on all continents and in all oceans. The movement of the earth's crust by folding, breaking into large blocks, lifting upwards to form a dome, or cracking due to volcanic activity forms mountain ranges. Although mountain ranges can be formed by the methods described above all share certain characteristics. These include changes in soil, vegetation, climate and elevation all within a matter of a few feet. Plant adaptations At high altitudes there is very little CO2, which plants need to carry on photosynthesis. Because of the cold and wind, most plants are small perennial groundcover plants which grow and reproduce slowly. They protect themselves from the cold and wind by hugging the ground. Taller plants or trees would soon get blown over and freeze. When plants die they don't decompose very quickly because of the cold. This makes for poor soil conditions. Most mountain plants can grow in sandy and rocky soil. Plants have also adapted to the dry conditions of the mountains. Mountain animals • Mountain animals adapt to the cold by hibernating, migrating to lower, warmer areas, or insulating their bodies with layers of fat. Animals will also tend to have shorter legs, tails, and ears, in order to reduce heat loss. These animals also have larger lungs, more blood cells and hemoglobin because of the increase of pressure and lack of oxygen at higher altitudes. Mountain Threats Mountains are suffering from logging issues. People are cutting the trees down and this is hurting the plant and animal life in many national parks. Without plant cover, erosion has become a problem as soil runs down the mountain. Mountains have become a big area for tourism, which creates jobs and improves living standards for many people in that area, but there are many disadvantages. Environmental disadvantages because of tourism, are mountain areas have been polluted from traffic and from people littering. Freshwater Ecosystems Freshwater Ecosystems • The types of organisms in an aquatic ecosystem are mainly determined by the water’s salinity. As a result, aquatic ecosystems are divided into freshwater and marine ecosystems. • Freshwater ecosystems include ponds, lakes, streams, rivers, and wetlands. • Wetlands are areas of land that are periodically under water or whose soil contains a great deal of moisture. Characteristics of Aquatic Ecosystems • Factors such as temperature, sunlight, oxygen, and nutrients determine which organisms live in which area of the water. • Aquatic ecosystems contains several types of organisms that are grouped by their location and by their adaptation. • Three groups of aquatic organisms include plankton, nekton, and benthos. Characteristics of Aquatic Ecosystems • Plankton are the mass of mostly microscopic organisms that float or drift freely in the water, and can be microscopic animals called zooplankton or microscopic plants called phytoplankton. • Nekton are all organisms that swim actively in open water, independent of currents. • Benthos are bottom-dwelling organisms of the sea or ocean and are often attached to hard surfaces. • Decomposers are also aquatic organisms. Lakes and Ponds • Lakes, ponds, and wetlands can form naturally where groundwater reaches the Earth’s surface. • Humans intentionally create artificial lakes by damming flowing rivers and streams to use them for power, irrigation, water storage, and recreation. • Lakes and ponds can be structured into horizontal and vertical zones. The types of organisms present depend on the amount of sunlight available. Life in a Lake • The littoral zone is a shallow zone in a freshwater habitat where light reaches the bottom and nurtures plants and aquatic life is diverse and abundant. • Some plants hare rooted in the mud underwater with their upper leaves and stems above water. Other plants have floating leaves. • In open water, plants, algae, and some bacteria capture solar energy to make their own food during photosynthesis. Life in a Lake • Some bodies of fresh water have areas so deep that there is too little light for photosynthesis. • Bacteria live in the deep areas of freshwater. Fish adapted to cooler, darker water also live there. • Eventually, dead and decaying organisms reach the benthic zone. • The benthic zone is the region near the bottom of a pond, lake or ocean which is inhabited by decomposers, insect larvae, and clams. Life in a Lake • Animals that live in lakes and ponds have adaptations that help them obtain what they need to survive. • For example, water beetles use the hairs under their bodies to trap surface air so that they can breathe during their dives for food. • And, in regions where lakes partially freeze in the winter, amphibians burrow into the littoral mud to avoid freezing temperatures. A Lake Ecosystem How Nutrients Affect Lakes • Eutrophication is an increase in the amount of nutrients, such as nitrates, in an aquatic ecosystem. • As the amount of plants and algae grow, the number of bacteria feeding on the decaying organisms also grows. • These bacteria use the oxygen dissolved in the lake’s waters. Eventually the reduced amount of oxygen kills oxygen loving organisms. How Nutrients Affect Lakes • A lake that has large amounts of plant growth due to nutrients is known as a eutrophic lake. • Lakes naturally become eutrophic over a long period of time. • However, eutrophication can be accelerated by runoff, such as rain, that can carry sewage, fertilizers, or animal wastes from land into bodies of water. Freshwater Wetlands • Freshwater wetlands are areas of land that are covered with fresh water for part of the year. • The two main types of freshwater wetlands are marshes and swamps. Marshes contain nonwoody plants, while swamps are dominated by woody plants. • Most freshwater wetlands are located in the southeastern United States, with the largest in the Florida Everglades. Freshwater Wetlands Freshwater Wetlands • Wetlands perform several important environmental functions. • Wetlands act like filters or sponges that absorb and remove pollutants from the water. They also control flooding by absorbing extra water when rivers overflow. • These areas provide a home for native and migratory wildlife in addition to feeding and spawning for many freshwater game fish. Environmental Functions of Wetlands Marshes • Freshwater marshes tend to occur on low, flat lands and have little water movement. • In shallow waters, plants root themselves in the rich bottom sediments while their leaves stick out about the surface of the water year-round. • There are several kinds of marshes, each of which is characterized by its salinity. Brackish marshes have slightly salty water, while salt marshes contain saltier water. Marshes • The benthic zones of marshes are nutrient rich and contain plants, numerous types of decomposers, and scavengers. • Water fowl, such as ducks, have flat beaks adapted for sifting through the water for fish and insects. While water birds, such as herons, have spearlike beaks they use to grasp small fish and probe for frogs in the mud. • Marshes also attract migratory birds from temperate and tropical habitats. Swamps • Swamps occur on flat, poorly drained land, often near streams and are dominated by woody shrubs or water loving trees. • Freshwater swamps are the ideal habitat for amphibians because of the continuous moisture. Birds are also attracted to hollow trees near or over the water. • Reptiles are the predators of the swamp, eating almost any organism that crosses their path. Human Impact on Wetlands • Wetlands were previously considered to be wastelands that provide breeding grounds for insects. • As a result, many have been drained, filled, and cleared for farms or residential and commercial development. • The importance of wetlands is now recognized, as the law and the federal government protect many wetlands while most states now prohibit the destruction of certain wetlands. Rivers • At its headwaters, a river is usually cold and full of oxygen and runs swiftly through a shallow riverbed. • As a river flows down a mountain, it may broaden, become warmer, wider, slower, and decrease in oxygen. • A river changes with the land and the climate through which it flows. Life in a River • In and near the headwater, mosses anchor themselves to rocks by using rootlike structures called rhizoids. Trout and minnows are adapted to the cold, oxygen rich water. • Farther downstream, plankton can float in the warmer, calmer waters. Plants here can set roots in the river’s rich sediment, and the plant’s leaves vary in shape according to the strength of the river’s current. Fish such as catfish and carp also live in these calmer waters. Rivers in Danger • Industries use river water in manufacturing processes and as receptacles for wastes. In addition, people have used rivers to dispose of their sewage and garbage. • These practices have polluted rivers with toxins, which have killed river organisms and made river fish inedible. • Today, runoff from the land puts pesticides and other poisons into rivers and coats riverbeds with toxic sediments. Marine Ecosystems • Marine ecosystems are located mainly in coastal areas and in the open ocean. • Organisms that live in coastal areas adapt to changes in water level and salinity. • Organisms that live in the open ocean adapt to changes in temperature and the amount of sunlight and nutrients available. Coastal Wetlands • Coastal land areas that are covered by salt water for all or part of the time are known as coastal wetlands. • Coastal wetlands provide habitat and nesting areas for many fish and wildlife. • They also absorb excess rain, which protects them from flooding, they filter out pollutants and sediments, and they proved recreational areas for boating, fishing, and hunting. Estuaries • An estuary is an area where fresh water from rivers mixes with salt water from the ocean. • As the two bodies meet, currents form and cause mineral rich mud with many nutrients to fall to the bottom making in available to producers. • Estuaries are very productive because they constantly receive nutrients from the river and ocean while the surrounding land protects the estuaries from the harsh force of ocean waves. Estuaries Plants and Animals of Estuaries • Estuaries support many marine organisms because they receive plenty of light for photosynthesis and plenty of nutrients for plants and animals. • The light and nutrients support large populations of rooted plants as well as plankton. Plankton in turn provide food for fish, which can then be eaten by larger animals such as dolphins. • Oysters and clams live anchored to rocks and feed by filtering plankton from the water. Plants and Animals of Estuaries • Organisms that live in estuaries are able to tolerate variations in salinity because the salt content of the water varies as fresh water and sat water mix when tides go in and out. • Estuaries also proved protected harbors, access to the ocean, and connection to rivers. As a result, many of the largest ports have been built on estuaries. • Six of the ten largest urban areas, including New York have been built on estuaries. Threats to Estuaries • Estuaries that exist in populated areas were often used as places to dump waste. Estuaries filled with waste could then be used as building sites. • The pollutants that damage estuaries include sewage, pesticides, fertilizers, and toxic chemicals. • Most of these pollutants break down over time, but estuaries cannot cope with the amounts produced by dense human populations. Salt Marshes • Salt marshes are maritime habitats characterized by grasses, sedges, and other plants that have adapted to continual, periodic flooding and are found primarily throughout the temperate and subarctic regions. • The salt marsh supports a community of clams, fish, aquatic birds, crabs, and shrimp. • Salt marshes, like other wetlands, also absorb pollutants to help protect inland areas. Mangrove Swamps • Mangrove swamps are tropical or subtropical marine swamps that are characterized by the abundance of low to tall mangrove trees. • The swamps help protect the coastline from erosion and reduce the damage from storms. They also provide a home for about 2,000 animal species. • Mangrove swamps have been filled with waste and destroyed in many parts of the world. Rocky and Sandy Shores • Rocky shores have many more plants and animals than sandy shores do because the rocks provide anchorage for seaweed that animals can live on. • Sandy shores dry out when the tide goes out, and many organisms that live between sand grains eat the plankton left stranded on the sand. • A Barrier island is a long ridge of sand or narrow island that lies parallel to the shore and helps protect the mainland. Coral Reefs • Coral reefs are limestone ridges found in tropical climates and composed of coral fragments that are deposited around organic remains. • Thousands of species of plants and animals live in the cracks and crevices of coral reefs, which makes coral reefs among the most diverse ecosystems on Earth. • Corals are predators that use stinging tentacles to capture small animals, such as zooplankton, that float or swim close to the reef. Coral Reefs • Corals live only in clear, warm salt water where there is enough light for photosynthesis. Disappearing Coral Reefs • Coral reefs are productive ecosystems, but they are also very fragile. • If the water surrounding a reef is too hot or too cold, or if fresh water drains into the water surrounding the coral, the coral may die. • If the water is too muddy, polluted, or too high in nutrients, the algae that live within the corals will either die or grow out control. If the algae grows out of control, it may kill the corals. Disappearing Coral Reefs • Oil spills, sewage, pesticides, and silt runoff have also been linked to coral-reef destruction. • Overfishing can devastate fish populations, upsetting the balance of the reef’s ecosystem. • A coral reef grows very slowly, and it may not be able to repair itself after chunks of coral are destroyed by careless divers, ships dropping anchor, fisheries, shipwrecks, and people breaking off pieces for decorative items or building materials. Oceans • Because water absorbs light, sunlight that is usable by plants for photosynthesis penetrates only about 100 m into the ocean. • As a result, much of the ocean’s life is concentrated in the shallow coastal waters where sunlight penetrates to the bottom and rivers wash nutrients from the land. • Seaweed and algae grow anchored to rocks, and phytoplankton drift on the surface. Invertebrates and fish then feed on these plants. Plants and Animals of Oceans • In the open ocean, phytoplankton grow only in areas where there is enough light and nutrients, resulting in one of the least productive of all ecosystems. • The sea’s smallest herbivores are zooplankton, including jellyfish and tiny shrimp,which live near the surface with the phytoplankton they eat. • Fish feed on the plankton as do marine mammals such as whales. Plants and Animals of Oceans • The depths of the ocean are very dark, so most food at the ocean floor consists of dead organisms that fall from the surface. • Decomposers, filter feeders, and the organisms that eat them live in the deep areas of the ocean. • Overall, the types of organisms that may be found in the layers of the ocean at various depths is dependent on available sunlight. Plants and Animals of Oceans Threats to the Oceans • The oceans are steadily becoming more polluted. Runoff from fertilized fields and industrial waste and sewage being discharged into rivers are major sources of ocean pollution. • Overfishing and certain fishing methods are also destroying some fish populations. Marine mammals can get caught and drown in the nets. • Although it is illegal, some ships discard fishing lines into the ocean where they can strangle and kill fish and seals. Arctic and Antarctic Ecosystems • The Arctic Ocean is rich in nutrients from the surrounding landmasses and supports large populations of plankton, which feed a diversity of fish in the open water and under the ice. • These fish are food for ocean birds, whales The arctic ecosystems at the North and South Poles depend on marine ecosystems because nearly all the food comes from the ocean. • and seals. Fish and seals then provide food for polar bears and people on land. Arctic and Antarctic Ecosystems • The Antarctic is the only continent never colonized by humans. It is governed by an international commission and is used mainly for research. • Even during the summer, only a few plants grow at the edges of the continent. • So, as in the Arctic, plankton form the basis of the Antarctic food web, nourishing large numbers of fish, whales, and birds such as penguins. Quick LAB