CP Biology Name: Date: Unit 2C: Ecological Biochemistry Study Guide Community Interactions include predation, competition, herbivory, and symbioses. Competition: Competition occurs when organisms try to use the same limited resources. Predation, Herbivory, and Keystone Species Predator-prey and herbivore-plant interactions help shape communities. Predation occurs when one organism (the predator) captures and eats another (the prey). Herbivory is an interaction that occurs when an animal (the herbivore) feeds on producers (such as plants). Sometimes changes in the population of a single species, often called a keystone species, can cause dramatic changes in the structure of a community. Symbioses Symbiosis occurs when two species live closely together in one of three ways: mutualism, commensalism, or parasitism. In mutualism, both species benefit from the relation ship. In parasitism, one species benefits by living in or on the other and the other is harmed. In commensalism, one species benefits and the other is neither helped nor harmed Write the letter of the correct answer on the line at the left. 1. A lion eating a zebra is an example of A. herbivory. C. predation. B. habitat destruction. D. a keystone species. 2. A cow eating grass is an example of A. herbivory. C. habitat destruction. B. predation. D. a keystone species. 3. A keystone species is one that A. eats a mixture of plants and animals. B. is introduced into a community after a major disturbance. C. causes the amount of diversity in a community to decrease. D. helps to stabilize the populations of other species in the community. Match the symbiotic relationship with the best description a. parasitism b. mutualism c. commensalism _______4. Symbiotic relationship between two organisms where both benefit _______5. Symbiotic relationship between organisms where one benefits and one is harmed _______6. Symbiotic relationship between organisms where one benefits and the other is not affected The Water Cycle Label the steps of the water cycle in the diagram above and describe each step. 7. Evaporation 8. Condensation 9. Precipitation 10. Transpiration 11. Run off 12. Ground water 13. Which of the following is NOT part of the water cycle? a. evaporation c. photosynthesis b. precipitation d. condensation Fill in the blanks with terms from the water cycle. 14. The continuous movement of water into the air, onto land, and then back to water sources is known as the _________________. 15. Rain, snow, sleet or hail that falls from clouds is called _______________________. 16. The process in which liquid water is heated by the sun and then rises into the atmosphere as water vapor is known as _________________________________. Answer “yes” or “no” for questions 17 and 18. 17. Are materials recycled through an ecosystem? _____________ 18. Is energy recycled through an ecosystem? ____________ 19. For the following 3 steps in the carbon cycle, determine if the process increases or decreases the amount of CO2 and O2 in the environment. Process CO2 O2 Cellular Respiration: Burning fossil fuels: For questions 20 – 23, choose if each statement describes photosynthesis or cellular respiration. a. photosynthesis b. cellular respiration _____20. Requires energy from the sun _____21. Converts CO2 from the atmosphere into food energy (glucose) _____22. Takes place in all organisms _____23. Converts glucose into ATP and releases CO2 Quick reminder – remember the equations for cellular respiration and photosynthesis! sunlight Photosynthesis: 6CO2 + 6H20 C6H12O6 + 6O2 Cellular respiration: C6H12O6 + 6O2 6CO2 + 6H20 + ATP 24. The nitrogen cycle is driven by what unicellular organisms? 25. Organisms need nitrogen so that they can produce which 2 important macromolecules? 26. The carbon in coal, oil, and natural gas came from A. the combustion of fossil fuels. B. the remains of dead organisms. C. carbon-fixing bacteria in swamp soil. D. carbon dioxide dissolved in ocean water. 27. How does most of the carbon in an organism’s body return to the environment after the organism dies? A. Decomposers break the body down into simpler compounds. B. Heat from the sun causes the carbon in the body to evaporate. C. Geological processes cause the body to turn into a fossil fuel. D. Rainwater dissolves the carbon in the body and carries it to the ocean. 28. Human processes (such as burning fossil fuels) mainly contribute to the A. release of large amounts carbon dioxide into the atmosphere. B. decrease of the total amount of carbon found on Earth. C. depletion of carbon dioxide reserves in the atmosphere. D. increase in the amount of carbon contained in rock materials. 29. _______________ is the process in which certain bacteria convert nitrogen gas into usable forms of nitrogen. a. denitrification b. nitrogen fixation c. decompostion 30. ______________ is the process by which some soil bacteria convert nitrates back into nitrogen gas. a. nitrogen fixation b. denitrification c. decomposition 31. All organisms require nitrogen to make amino acids, which in turn are used to build proteins. a. true b false 32. Plants and animals can absorb nitrogen gas directly from the atmosphere. a. true b. false 33. What role do decomposers play in both the carbon and nitrogen cycles? 34. How do humans affect the nitrogen cycle?