Interest Grabber. Levels Within Levels

Transcription

1 Interest Grabber Section 3-1 Levels Within Levels An ecosystem is a collection of all the organisms that live in a particular place, together with their nonliving, or physical, environment. Within an ecosystem, there are several levels of organization. Your school and its grounds are similar to an ecosystem.

2 Interest Grabber continued Section What living things are found in and around your school? 2. What nonliving things are found in your school? 3. Into what large groups are the students in your school divided? 4. Into what smaller groups are these large groups divided? 5. Are these groups ever divided into even smaller groups? If so, what are these groups?

3 Section Outline Section What Is Ecology? A. Interactions and Interdependence B. Levels of Organization C. Ecological Methods 1. Observing 2. Experimenting 3. Modeling

4 Interactions and Interdependence Ecology is the scientific study of interactions among organisms and between organisms and their environment. The largest environment in which living organisms can be found is called the biosphere. It extends 8 km above Earth s surface to about 11 km below the surface of the ocean. Interactions within the biosphere produce a web of interdependence between organisms and the environment in which they live. Earth has an ever-changing, or dynamic, biosphere.

5 Levels of Organization To understand relationships within the biosphere, ecologists ask questions about events and organisms that range in complexity from a single individual to the entire biosphere.

6 Section 3-1 Figure 3-2 Ecological Levels of Organization

7 Ecological Methods Regardless of the tools they use, scientists conduct modern ecological research using three basic approaches: observing, experimenting, and modeling. All of these approaches rely on the application of scientific methods to guide ecological inquiry.

8 Compare/Contrast Table Section 3-1 Sites Measuring Tools Magnifying Tools Written Record Chemical Testing Computer/ Calculators Ecological Methods Observation Experiment Model Building Field site Experimental plots, field sites, laboratory Many sites for data collecting Tapes, compass, Tapes, compass, Aerial views, Global Global Positioning Global Positioning Positioning System, System, thermometer, System, thermometer, weather balloons sensors sensors Binoculars, microscope, telescope Notes, automated data storage Binoculars, microscope, telescope Notes, automated data storage Satellite images Automated data storage Test kits Test kits Large database, multiple sensors Mathematical analysis and graphics, statistics Mathematical analysis and graphics, statistics Mathematical analysis and graphics, statistics, simulations

9 Interest Grabber Section 3-2 Pass It Along Energy flows in one direction through an ecosystem, from the sun or inorganic compounds to producers (organisms that can make their own food) through various levels to consumers (organisms that rely on other organisms for food). Your body gets the energy and materials it needs for growth and repair from the foods you eat.

10 Interest Grabber continued Section Make a list of five foods that you like to eat. Indicate whether the food comes from a plant (producer) or an animal (consumer). 2. Like many birds, chickens eat grains, which are seeds. Where do seeds come from? 3. Meat comes from beef cattle. What do cattle eat? 4. Construct a diagram showing how one of your favorite foods obtains its energy. Include as many levels as you can.

11 Section Outline Section Energy Flow A. Producers 1. Energy From the Sun 2. Life Without Light B. Consumers C. Feeding Relationships 1. Food Chains 2. Food Webs 3. Trophic Levels D. Ecological Pyramids 1. Energy Pyramid 2. Biomass Pyramid 3. Pyramid of Numbers

12 Flow of Energy Light rays Photosynthesis (CO 2 + H 2 O + Energy O 2 + Glucose) (sun) sun Producer (Autotrophs) Plants Bacteria Algae

13 Chemosynthesis Deep Sea Vents Hot Springs Tidal Marshes

14 Flow of Energy Respiration (O 2 + Glucose --> CO 2 +H 2 O + Energy) (ATP) Consumers (Heterotrophs) Herbivore Carnivore Omnivore Detritivore Decomposer Plants Animals Both Remains Breaks Down Material

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16 Feeding Relationships Energy flows through an ecosystem in one direction, from the sun, or inorganic compounds, to autotrophs and then, to various heterotrophs. This energy is passed along in a series of steps in which organisms eat or are eaten. This is called a food chain.

17 Food Webs A food web is a series of food chains that overlap in an ecosystem. Trophic Level - each step in a food chain. Each consumer depends on the trophic level below it for energy.

18 Ecological Pyramids Energy Pyramid Only part of the energy that is found in a trophic level is passed on to the next. Why? The organisms use the energy to carry out the life processes. Only about 10% of the energy is passed on to the next trophic level.

19 Biomass Pyramid The total amount of living tissue within a given trophic level is called biomass. Biomass is express in terms of grams of organic matter per unit area. The biomass pyramid expresses the amount of potential food available for each trophic level in an ecosystem.

20 Pyramid of Numbers This pyramid is based on the number of organisms found in the ecosystem. Most of the time, the shape of the pyramid is the same as the biomass and energy pyramids. However, sometimes the shape changes. An example would be a forest ecosystem.

21 Ecological Pyramids Section 3-2 Energy Pyramid Shows the relative amount of energy available at each trophic level. Organisms use about 10 percent of this energy for life processes. The rest is lost as heat. Pyramid of Numbers Shows the relative number of individual organisms at each trophic level. Biomass Pyramid Represents the amount of living organic matter at each trophic level. Typically, the greatest biomass is at the base of the pyramid.

22 Interest Grabber Section 3-3 It s Raining, It s Pouring How many times have you had to change your plans because of rain? It probably didn t help if someone tried to cheer you up by saying, But we really need the rain. However, rain is important. If it didn t rain, how would living things on land get water?

23 Interest Grabber continued Section When rain falls on the ground, it either soaks into the soil or runs across the surface of the soil. When rainwater runs across the land, what body of water might collect the rain? 2. From here, where might the water flow? 3. After the rain, the sun comes out and the land dries. Where does the water that had been on the land go? 4. Construct a diagram that would illustrate all the places a molecule of water might go. Begin with a raindrop and end with a cloud.

24 Section Outline Section Cycles of Matter A. Recycling in the Biosphere B. The Water Cycle C. Nutrient Cycles 1. The Carbon Cycle 2. The Nitrogen Cycle 3. The Phosphorus Cycle D. Nutrient Limitation

25 Recycling in the Biosphere Unlike the one-way flow of energy, matter is recycled within and between ecosystems. Matter is passed from one organism to another and from one part of the biosphere to another through biogeochemical cycles. Matter can cycle through the biosphere because biological systems do not use up matter, they transform it.

26 The Water Cycle All living things require water to survive as it moves through the ocean, atmosphere and land. Water enters the atmosphere through the processes of evaporation and transpiration and becomes vapor. As the vapor cools, it condenses to form tiny droplets. When the droplets get large enough, they fall back to Earth in the form of precipitation. When it reaches the surface of the Earth, it runs off back to the river and streams or it enters the ground water supply.

27 The Water Cycle Section 3-3

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29 Nutrient Cycles The food you eat provides energy and chemicals that keep you alive. All the chemical substances that an organism needs to sustain life are its nutrients. Every living organism needs nutrients to build tissues and carry out essential life functions. Like water, nutrients are passed between organisms and the environment through biogeochemical cycles. There are three nutrient cycles: 1. The Carbon Cycle 2. The Nitrogen Cycle 3. The Phosphorus Cycle

30 The Carbon Cycle Carbon is a key ingredient of living tissue. It is an important component of animal skeletons and is found in several kinds of rocks. Carbon combined with oxygen forms carbon dioxide which is found in the atmosphere. The four main processes that moves carbon through the biosphere: 1. Biological processes, such as photosynthesis, respiration, and decomposition, take up and release carbon and oxygen. 2. Geochemical processes, such as erosion and volcanic activity, release carbon dioxide to the atmosphere and ocean. 3. The burial and decomposition of dead organisms and their conversion under pressure into fossil fuels, store carbon underground. 4. Human activities, such as mining, burning of forests and fossil fuels, release carbon dioxide into the atmosphere.

31 Figure 3-13 The Carbon Cycle Section 3-3 CO 2 in Atmosphere CO 2 in Ocean

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33 The Nitrogen Cycle Many forms of nitrogen occur naturally in the biosphere. Nitrogen Gas makes up 78 % of the atmosphere. Ammonia, nitrates and nitrites are found in waste products Humans add nitrogen by adding fertilizers to soil. Bacteria can convert nitrogen gas into ammonia through a process called nitrogen fixation. Other bacteria change ammonia into nitrates or nitrites which are then absorbed by producers to make proteins. When organisms die, decomposers return nitrogen to the soil as ammonia. Other bacteria convert ammonia into nitrogen gas through denitrification.

34 Figure 3-14 The Nitrogen Cycle Section 3-3 N 2 in Atmosphere NH 3 NO 3 - and NO 2 -

35 The Phosphorus Cycle Phosphorus is essential to living organisms because it forms part of important life-sustaining molecules such as DNA and RNA. Unlike carbon, nitrogen and water, phosphorus does not enter into the atmosphere.

36 Nutrient Limitations Ecologists are interested in the rate in which organic matter is produced in an ecosystem. This is called primary productivity. One factor that controls the amount of growth in that ecosystem is the amount of available nutrients. When an ecosystem is limited by a single nutrient that is scarce or cycles very slowly, this substance is called a limiting nutrient. Nitrogen is the limiting nutrient in sea water. Phosphorus is the limiting nutrient in lake, rivers, and streams. When an aquatic ecosystem receives a large input of a limiting nutrient, an algal bloom results.

37 Video Cycles in Nature Click the image to play the video segment. Video

38 Go Online The latest discoveries in preserving the environment Links from the authors on exploring ecology from space Interactive test For links on energy pyramids, go to and enter the Web Code as follows: cbn For links on cycles of matter, go to and enter the Web Code as follows: cbn Internet

39 Interest Grabber Answers 1. What living things are found in and around your school? Living things in the school are students, teachers, principal, assistant principals, clerical staff, custodians, lunchroom staff. Students may also include animals in science labs. Living things around the school include grass, trees, shrubs, insects, birds, and so on. 2. What nonliving things are found in your school? The building, furniture, desks, books, papers, and so on 3. Into what large groups are the students in your school divided? 9th, 10th, 11th, 12th grades, or years 4. Into what smaller groups are these large groups divided? Classes 5. Are these groups ever divided into even smaller groups? If so, what are these groups? Students may say that science classes are divided into lab groups; other classes may be divided into groups for projects. Section 1 Answers

40 Interest Grabber Answers 1. Make a list of five foods that you like to eat. Indicate whether the food comes from a plant (producer) or an animal (consumer). Student lists will be individualized. One possible example would be a hamburger, which comes from a cow or steer. 2. Like many birds, chickens eat grains, which are seeds. Where do seeds come from? Seeds come from plants. 3. Meat comes from beef cattle. What do cattle eat? Cattle eat grass or grains. 4. Construct a diagram showing how one of your favorite foods obtains its energy. Include as many levels as you can. Student diagrams will be individualized based on their food choice. Using the hamburger example, the beef in the hamburger comes from cattle. The cattle feed on grass or grain. Grass or grains are plants, which use energy from the sun to make their own food. Section 2 Answers

41 Interest Grabber Answers 1. When rain falls on the ground, it either soaks into the soil or runs across the surface of the soil. When rainwater runs across the land, what body of water might collect the rain? Possible answers: a stream, river, pond, or lake 2. From here, where might the water flow? Into a river, and eventually into the ocean 3. After the rain, the sun comes out and the land dries. Where does the water that had been on the land go? It evaporates and becomes a gas in the atmosphere. 4. Construct a diagram that would illustrate all the places a molecule of water might go. Begin with a raindrop and end with a cloud. Student diagrams may include the following: a raindrop > lawn > a stream > river > large lake > atmosphere > cloud. Section 3 Answers

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