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Name: KEY Communities and Populations If you saw the movie Finding Nemo, then you probably recognize this fish. It s known as a clownfish, and it s swimming near the tentacles of an animal called a sea anemone. The sea anemone kills prey by injecting poison with its tentacles. For some reason, the anemone doesn t harm the clownfish, perhaps because the fish has a coating of mucus that helps disguise it. But why does the clownfish hang out with the sea anemone? One reason is for the food. The clownfish eats the remains of the anemone s prey after it finishes feeding. Another reason is safety. The clownfish is safe from predators when it s near the anemone. Predators are scared away by the anemone s poison tentacles. In return, the clownfish helps the anemone catch food by attracting prey with its bright colors. Its feces also provide nutrients to the anemone. The clownfish and anemone are just one example of the diverse ways that living things may help each other in nature. You will learn more about species interactions such as this when you read this chapter.

What Is a Community? A community is the biotic part of an ecosystem. It consists of all the populations of all the species in the same area. It also includes their interactions. Species interactions in communities are important factors in natural selection. They help shape the evolution of the interacting species. There are three major types of community interactions: predation, competition, and symbiosis. Predation Predation is a relationship in which members of one species (the predator) consume members of another species (the prey). The lions and buffalo in Figure 2.1 are classic examples of predators and prey. In addition to the lions, there is another predator in this figure. Can you spot it? The other predator is the buffalo. Like the lion, it consumes prey species, in this case species of grass. However, unlike the lions, the buffalo does not kill its prey. Predator-prey relationships such as these account for most energy transfers in food chains and food webs. Figure 2.1: Two lions feed on the carcass of a South African cape buffalo. Predators and Their Prey Predation and Populations A predator-prey relationship tends to keep the populations of both species in balance. This is shown by the graph in Figure 2.2. As the prey population increases, there is more food for predators. The predators can use the energy from the food to have more offspring. So, after a slight lag, the predator population increases as well. As the number of predators increases, more prey are captured. As a result, the prey population starts to decrease. What happens to the predator population then? 5

Figure 2.2: As the prey population increases, why does the predator population also increase? Predator-Prey Population Dynamics Keystone Species Some predator species are known as keystone species. A keystone species is one that plays an especially important role in its community. Major changes in the numbers of a keystone species affect the populations of many other species in the community. For example, some sea star species are keystone species in coral reef communities. The sea stars prey on mussels and sea urchins, which have no other natural predators. If sea stars were removed from a coral reef community, mussel and sea urchin populations would have explosive growth. This, in turn, would drive out most other species. In the end, the coral reef community would be destroyed. Adaptations to Predation Both predators and prey have adaptations to predation that evolve through natural selection. Predator adaptations help them capture prey. Prey adaptations help them avoid predators. A common adaptation in both predator and prey is camouflage. Several examples are shown in Figure 2.3. Camouflage in prey helps them hide from predators. Camouflage in predators helps them sneak up on prey. Figure 2.3: Can you see the crab in the photo on the left? It is camouflaged with algae. The praying mantis in the middle photo looks just like the dead leaves in the background. Can you tell where one zebra ends and another one begins? This may confuse a predator and give the zebras a chance to run away. Camouflage in Predator and Prey Species 6

Reading Check: 1. What is a community? All populations living in one area at one time. 2. Explain how a cow is both a predator and a prey. Predator: eats grass. Prey: a human consumes a cow for food. 3. In the graph below, which line represent the prey and which line represents the predator? How can you tell? Line A represents prey. They will increase slightly before the predator. Line B represents predators. The population will decrease slightly after the prey. 4. Why does a keystone species affect a community more than other species?they control a population that will take over if not kept in check. If this happens, the species that takes over will push out all others and the ecosystem will collapse. 5. Most organisms are either a predator or a prey, however, not all of them have the adaptation of camouflage. What types of organisms do you think would not need camouflage as an adaptation? Explain your answer. Organisms that are at the top of the food chain are not going to need camouflage because there is no natural predator that they need to protect themselves from.

Word Work The prefix inter- means between or among. For example, the word international means between two or more nations. This prefix is easily confused with intra-, which means inside or within. An example of this is the word intravenous, meaning within a vein. Next you will learn about interspecific competition and intraspecific competition. How do you think the two types of competition are different? Competition Competition is a relationship between organisms that strive for the same resources in the same place. The resources might be food, water, or space. There are two different types of competition: Intraspecific competition occurs between members of the same species. For example, two male birds of the same species might compete for mates in the same area. This type of competition is a basic factor in natural selection. It leads to the evolution of better adaptations within a species. Interspecific competition occurs between members of different species. For example, predators of different species might compete for the same prey. Predict: 1. Do you remember the competitive exclusion principle? It stated that no two species can occupy the same niche. Do you remember why? There is not enough resources for two organisms to occupy the same niche so they will compete until one species either migrates or dies out. 2. Keeping this in mind, what do you think some effects of interspecific competition might be? The organisms will compete for resources until one species is forced to move to find resources needed for life or dies out completely.

Interspecific Competition and Extinction Interspecific competition often leads to extinction. The species that is less well adapted may get fewer of the resources that both need. As a result, members of that species are less likely to survive, and the species may go extinct. Interspecific Competition and Specialization Instead of extinction, interspecific competition may lead to greater specialization. Specialization occurs when competing species evolve different adaptations. For example, they may evolve adaptations that allow them to use different food sources. Figure 2.4 describes an example. Figure 2.4 Specialization lets different species of anole lizards live in the same area without competing. Specialization in Anole Lizards Many species of anole lizards prey on insects in tropical rainforests. Competition among them has led to the evolution of specializations. Some anoles prey on insects on the forest floor. Others prey on insects in trees. This allows the different species of anoles to live in the same area without competing. Tree Anole Ground Anole

Reading Check: 1. Competition within the same species is called competition. a. Interspecific b. Intraspecific 2. What are the effects of intraspecific competition? Allows a species to develop better adaptations to an environment. 3. Interspecific competition can lead to specialization or extinction. 4. Explain how interspecies competition can drive evolution.when two species compete for the same resources, the species will have to specialize in order to survive, therefore will develop better traits to survive an environment, eventually leading to the creation of new species. Symbiotic Relationships Symbiosis is a close relationship between two species in which at least one species benefits. For the other species, the relationship may be positive, negative, or neutral. There are three basic types of symbiosis: mutualism, commensalism, and parasitism. Mutualism Mutualism is a symbiotic relationship in which both species benefit. An example of mutualism involves goby fish and shrimp (see Figure 2.5). The nearly blind shrimp and the fish spend most of their time together. The shrimp maintains a burrow in the sand in which both the fish and shrimp live. When a predator comes near, the fish touches the shrimp with its tail as a warning. Then, both fish and shrimp retreat to the burrow until the predator is gone. From their relationship, the shrimp gets a warning of approaching danger. The fish gets a safe retreat and a place to lay its eggs.

Figure 2.5: The multicolored shrimp in the front and the green goby fish behind it have a mutualistic relationship. Commensalism Commensalism is a symbiotic relationship in which one species benefits while the other species is not affected. One species typically uses the other for a purpose other than food. For example, mites attach themselves to larger flying insects to get a free ride. Hermit crabs use the shells of dead snails for homes. Parasitism Parasitism is a symbiotic relationship in which one species (the parasite) benefits while the other species (the host) is harmed. Many species of animals are parasites, at least during some stage of their life. Most species are also hosts to one or more parasites. Some parasites live on the surface of their host. Others live inside their host. They may enter the host through a break in the skin or in food or water. For example, roundworms are parasites of mammals, including humans, cats, and dogs (see Figure 2.6). The worms produce huge numbers of eggs, which are passed in the host s feces to the environment. Other individuals may be infected by swallowing the eggs in contaminated food or water. Figure 2.6: A dog s intestine may become filled with parasitic roundworms unless it gets medical treatment. Intestinal Roundworm Infection in a Dog Some parasites kill their host, but most do not. It s easy to see why. If a parasite kills its host, the parasite is also likely to die. Instead, parasites usually cause relatively minor damage to their host.

Reading Check 1. A symbiotic relationship is formed a. Only when both organisms benefit from living closely together b. When at least one organism benefits from living closely with another c. When both organisms are related to each other 2. Moray eels will open their mouths and allow special shrimp to come in and eat the parasites living in their mouth. The shrimp enter for their meal confident that the eel will not eat them! a. Why won t the eel eat the shrimp? The eel needs the shrimp to clean its teeth. It would not get that service if it ate the shrimp. b. What type of symbiotic relationship is this? Mutualism 3. The strangler fig is a tree usually found in thick forests where little sunlight reaches the ground. It grows by wrapping itself around another tree in order to climb higher through the treetops, where it then spreads out its branches and leaves to absorb the sunlight. Meanwhile the strangler fig s roots are absorbing water and nutrients from the ground around the host tree. This stealing of resources can lead to the death of the host tree, leaving the strangler fig with a hollow center once the host decays. a. What type of symbiotic relationship is this? Parasitism b. Why is it unusual that a relationship like this leads to the death of the host? Because most species need the host to get resources and it doesn t make sense to kill the supplier of needed resources. Graphic Organizer: Symbiotic Relationships DIRECTIONS: In all symbiotic relationships, at least one organism benefits. However, the other organism may not feel the same way. Next to each happy face representing the benefitting organism, draw another face to show how the other organism in the relationship feels. Next, provide an example for each of the symbiotic relationships. Relationship Representative Diagram Example Mutualism Commensalism Parasitism

Use the brief overview of the relationship to identify the type of symbiotic relationship. Organisms: Symbiotic Relationship Brief Overview of Relationship: Barnacle/Whale Commensalistic Barnacles create home sites by attaching themselves to whales. As the barnacle is a filter feeder, it also gets access to more water (and more food) due to the relationship. Whale is unaffected. Cuckoo/Warbler Parasitic A cuckoo lays its eggs in the nest of the warbler. The cuckoo s eggs hatch first and the young kick the warbler eggs out of the nest. The warbler raises the cuckoo babies and the warbler babies aren t hatched. Remora/Shark Commensalistic Remoras attach themselves to a shark s body. They travel with the shark and feed on the leftover food scraps after the shark has finished its meal. The shark is unaffected as it s done eating anyway. Ostrich/Gazelle Mutualistic Ostriches and gazelles feed next to each other. They both watch for predators. Because the visual abilities of the two species are different, they can each identify threats that the other animal may not see as readily. Both species benefit. Mistletoe/Spruce Parasitic Mistletoe extracts water and nutrients from the spruce tree to the detriment (ill effect) to the spruce. Silverfish/Army Ant Commensalistic Silverfish live and hunt with army ants and share the prey. They neither help nor harm the ants. Oxpecker/Rhinoceros Mutualistic Oxpeckers (bird) feed on the ticks found on a rhinoceros. Both species benefit the oxpecker gets food and the rhino gets rid of a parasite. Mouse/Flea Honey Guide Bird/Badger Parasitic Mutualistic A flea feeds on a mouse s blood to the mouse s detriment Honey guide birds alert and direct badgers to bee hives. The badgers then expose the hives and feed on the honey first. Next the honey guide birds eat. Both benefit Cowbird/Bison Commensalistic As bison walk through grass, insects become active and are seen and eaten by cowbirds. This relationship neither harms nor benefits the bison. Human/Tapeworm Yucca Plant/Yucca Moth Parasitic Mutualistic Tapeworms reside in human intestine and take nutrients from the human. Yucca flowers are pollinated by yucca moths. The moths lay their eggs in the flowers where the larvae hatch and eat some of the developing seeds. Both benefit. Wrasse fish feed on the parasites found on the black sea bass s body (usually in the mouth). Dental floss for fish both species benefit Wrasse Fish/Black Mutualistic Sea Bass Clown Fish/Sea Mutualistic Clown fish live among anemones acting as a lure for the sea anemone s prey. The clown fish gets protection and shelter from the anemone. Anemone Human/E. coli Mutualistic E. Coli is a bacteria that lives in the gut of humans. The human provides the ideal habitat for e coli reproduction and the e coli provides the extra vitamin K that we use. Ant/Aphid Mutualistic Ants offer protection for the aphids who (have no protective features of their own) would otherwise would be food for all sorts of organisms. The aphids repay the ants by providing honeydew (a liquid they secrete) for the ants to use as food. Trees/Epiphytes Commensalistic Epiphytes are a class of plants that grow in the crooks of tree branches. They simply use the tree branches as a way to be higher closer to the sunlight needed for photosynthesis. The trees aren t affected by this relationship. Deer/Tick Parasitic The tick feeds off the blood of the deer. The deer is negatively affected. Maribou Stork/Bee Commensalistic The stork uses its saw-like bill to cut up the dead animals it eats. As a result, the dead animal carcass is accessible to some bees for food and egg layers. The stork is neither harmed nor helped by this relationship. Hermit Crab/Shell Commensalistic Hermit crabs will move into an old abandoned shell when their shell is no longer big enough to contain them. As the shell is inanimate (not living) it is not affected by this relationship.