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Ecology High School Biology Class What is Ecology? Ecology – study of the interactions of living organisms with one another and with their physical environment. The biosphere is the portion of Earth that support life. • air • water • land Organisms are adapted to survive in the conditions of their living & non-living environments. Ecosystem Terms Biotic Factors – the living factors in an organism’s environment Examples: a) animals b) plants c) fungi d) protists e) bacteria Ecosystem Terms Abiotic Factors – all of the physical (non-living) aspects that belong to an organism’s environment. Examples: a) soil (mineral), water, wind (air) b) energy such as light or sound c) climate, weather, temperature Levels of Organization 1. from simplest to 2. most 3. complex 4. 5. 6. Organism (individual) Population Biological community Ecosystem Biome Biosphere Population- individual organisms of the same species living in the same geographic location. ExampleA school of fish How do available resources affect a population? Individual organisms must compete for food, water, mates and other resources to survive. Biological Community- a group of populations that interact in the same geographic area at the same time. Example: Plants & animals that live in a park Ecosystem- a biological commuinity and all the abiotic factors that affect. Biome- a large group of ecosystems that share the same climate and biological communities. All biomes form the Biosphere. Habitat – a place where an organism lives. Niche – the role an organism has in its environment Community - the groups of many different species that live together in a particular habitat. Ecology Terms Ecological Relationships Competition – a biological interaction that occurs when two species attempt to use the same resource. All organisms compete for resources in different ways. Example: Organisms compete for water in the desert. Plants typically have small, but very deep root systems. Ecological Relationships Predation – the act of one organism consuming another organism for food. Example: cat (predator) mouse (prey) Ecological Relationships Predator – the animal being the aggressor (the animal doing the hunting). Predator: Crocodile Prey: Turtle Prey – the animal being the defender (the animal that is being hunted). Ecological Relationships 1. 2. 3. Symbiosis – a relationship in which two organisms live together in close association. 3 Kinds Mutualism Commensalism Parasitism Ecological Relationships 1) Mutualism - a symbiotic relationship in which both participating species benefit. Example: aphids and ant colonies Ecological Relationships 2) Commensalism - a symbiotic relationship in which one species benefits and the other is neither harmed nor helped. Ex. Moss growing on a tree Ecological Relationships 3) Parasitism – a relationship in which one organism benefits and another organism is harmed Parasite benefits; host is hurt. Ex. Tick on a dog Tapeworm Principles of Ecology Section 2- Flow of Energy in an Ecosystem Energy Flow in Ecosystems Autotrophs ( primary producers)- is an organism that captures energy from sunlight or inorganic substance to produce food in an ecosystem. Heterotrophs (consumer) – is an organism that obtains energy by consuming other organisms. Consumer Types: 1) Herbivore – feed directly on green plants. Examples: deer, cattle, turtles 2) Carnivore – feed on other animals. Examples: lions, hawks, wolves 3) Omnivore – feed on plants and animals. Examples: bears, raccoons, crayfish, humans How do detritivores help an ecosystem? They decompose organic materials in an ecosystem and return the nutrients to the soil, air, and water. Ex. hyenas, vultures, fungi, bacteria What would happen to our biosphere if we didn’t have them? Let’s ReviewA) The primary source of energy is the sun. B) Producers are organisms that capture light energy and convert it into chemical energy. C) Consumers are organisms that consume producers or other consumers for energy. D) Decomposers are organisms that consume producers, consumers, and other decomposers for energy once they have died. Energy Flow in Ecosystems Every living organism requires energy. Trophic Level - shows how energy gets transferred from organism to organism. Sun Producer Consumer Decomposer Energy Flow in Ecosystems Food Chain – a simple model that show how energy flows through an ecosystem. Food Chains: 1st level Producers - make their own food. 2nd level Herbivores - eat primary producers. 3rd level Carnivores - eat herbivores. Omnivores - eat both herbivores and carnivores. 4th level Decomposers - eat all dead organisms. Energy Flow in Ecosystems Food Web – a model that show all the possible feeding relationships in an ecosystem Ecosystem Energy The energy that is stored at each trophic level is about 1/10 that of the level below it. By showing the declining amounts of energy in each of the trophic levels an ecological pyramid can be formed. 90% of the available energy is used by the organism at each level, only 10% is available to the next level The number decreases at each level because less energy is available to support organisms. Biomass-total mass of living matter at each trophic level. The number decreases at each level because less energy is available to support organisms. Biomagnification is the sequence of processes in an ecosystem by which higher concentrations of a particular chemical, such as the pesticide DDT, are reached in organisms higher up the food chain, generally through a series of prey-predator relationships. Principles of Ecology Section 3-Cycling of Matter •Anything that takes up space and has mass •Neither created or destroyed •Cycles within any ecosystem and is reused •Provides the nutrients needed for organism to function – ex. carbon, nitrogen MATTER CYCLES WITHIN ECOSYSTEMS • • In any ecosystem, organisms obtain the matter that they need to build their organic substance from other organisms and from their surroundings. Ex. Nutrients in the green grass pass to the cow that eats the grass. The cycle continues until the last consumer dies. Detritivores return the nutrients to the cycle, and the process begins again. Key Concepts Biogeochemical cycles: the combination of processes that exchange matter through the biosphere. Water Cycle, Carbon Cycle, Nitrogen Cycle Lesson Objectives How do nutrients move through biotic and abiotic parts of an ecosystem? Why are nutrients important to living organisms? What are the biogeochemical cycles of nutrients and how are they alike http://www.css.cornell.edu/faculty/hmv1/watrshed/Etrans.htm 90% of water vapor evaporates from oceans, lakes, & rivers. The evaporation of water from the surface of plant leaves (10%) = TRANSPIRATION ___________________ The return of water to the surface in the form of rain, snow, sleet, hail, etc. = PRECIPITATION ____________________ What are the carbon and oxygen cycles? Do you remember what happens during photosynthesis? CO2 Producers change ___ into glucose and O2 release ___ . 4 main CARBON reservoirs in BIOSPHERE CO2 in atmosphere atmosphere 1. In ____________ as CO2 gas CO2 in Ocean ocean as dissolved CO2 gas 2. In _______ land 3. On _______ in organisms, rocks, soil Underground 4. ______________as coal & petroleum (fossil fuels) and calcium BIOLOGY; Miller and Levine; Prentice Hall; 2006 carbonate in rocks Where does CO2 in atmosphere come from? CO2 in atmosphere Volcanic activity 1. ________________ CO2 in Ocean Human activity (burning fossil fuels) 2. ______________ Cellular respiration 3. _________________ 4. Decomposition ____________ of dead organisms BIOLOGY; Miller and Levine; Prentice Hall; 2006 WHY IS CARBON IMPORTANT? BUILDING BLOCKS Found in all the _____________________ of cells: carbohydrates, proteins, nucleic acids, lipids Image by Riedell http://web.jjay.cuny.edu/~acarpi/NSC/12-dna.htm WHY IS CARBON IMPORTANT? Carbon in CO2 provides the atoms for GLUCOSE PHOTOSYNTHESIS __________ production during __________________... the fuel that all living things depend on. http://www.science.siu.edu/plant-biology/PLB117/JPEGs%20CD/0076.JPG http://www.biologyclass.net/mitochondria.jpg NITROGEN CYCLE Section 3-3 N2 in Atmosphere NO3and NO2- NH3 BIOLOGY; Miller and Levine; Prentice Hall; 2006 WHY IS NITROGEN IMPORTANT? NITROGEN __________________make BASES DNA and RNA. Nitrogen is needed to make proteins. Image by Riedell http://web.jjay.cuny.edu/~acarpi/NSC/12-dna.htm Image by Riedell 78% of the atmosphere is made up of NITROGEN CAN’T use the nitrogen BUT we _____ directly from the air. N2 gas is captured from the air by bacteria that live in water, the soil, or grow on the roots of some plants. Image by Riedell http://web.jjay.cuny.edu/~acarpi/NSC/12-dna.htm _________________ Image by Riedell The process of capturing and changing (“fixing”) nitrogen into a form that plants can use is called __________________. Nitrogen Fixation Consumers get nitrogen by eating producers or other animals that contain nitrogen. When animals die and decay or urinate the nitrogen returns to the soil as ammonia. Other bacteria NITRATES (NO3- ) in the soil convert ammonia into _____________ NITRITES (NO2-) & _________________which plants can also use. The nitrogen we need for proteins, ATP, and nucleic acids comes from the ___________ FOOD WE EAT ___________ NOT THE AIR we breathe! Image from: http://www.utdallas.edu/images/departments/biology/misc/gonzalez-image.jpg and http://www.cibike.org/CartoonEating.gif modified by Riedell NITROGEN CYCLE Section 3-3 N2 in Atmosphere NO3and NO2- NH3 BIOLOGY; Miller and Levine; Prentice Hall; 2006 Some bacteria change nitrogen compounds into nitrogen gas that’s released into the atmosphere. THIS PROCESS IS CALLED DENITRIFICATION _________________ Community Ecology Primary Succession Begins in a place without any soil Sides of volcanoes Landslides Flooding Starts with the arrival of living things such as lichens that do not need soil to survive Called PIONEER SPECIES http://botit.botany.wisc.e du http://www.saguaro- Secondary Succession Begins in a place that already has soil and was once the home of living organisms Occurs faster and has different pioneer species than primary succession Example: after forest fires Climax Community A stable group of plants and animals that is the end result of the succession process Does not always mean big trees Grasses in prairies Cacti in deserts Population Dynamics A population is a group of organisms of the same species that live in a specific area. Population Distribution- can have an affect on how population is sampled, which can affect density measurement. Clumped most common because resources are usually clumped. What limiting factors are density independent? Recall that population density is the number of members of a population per unit. A density-independent factor is any factor in the environment that does not depend on population density like natural disasters. ex. hurricanes, oil spills A density – dependent factor is any factor in the environment that depends on population density. Ex. disease, competition, parasites, and predators. What factors affect a population’s growth rate? Emigration – the number of individuals moving away from a population. Immigration – the number of individuals moving into a population. Logistic Growth Populations cannot grow exponentially forever. At some point, the rapidly increasing population will strain available resources. Logistic growth occurs when the population’s growth slows or stops at the population’s carrying capacity.