Foundations in Microbiology
10th Edition
ISBN: 9781259705212
Author: Kathleen Park Talaro, Barry Chess Instructor
Publisher: McGraw-Hill Education
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Chapter 26.3, Problem 9CYP
Summary Introduction
Introduction:
Carbon is the fundamental atom in all
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23. Which of the following is an inorganic molecule that producers can use to make organic ones, but
heterotrophic animals cannot use it for food?
A. C.H12O6 (glucose)
B. CH4 (methane gas)
C. CO2 (carbon dioxide)
D. HC,H;O6 (vinegar)
E. C12H2O11 (sucrose)
1. What is Nitrogen cycle and explain how it works?
2. What is oxygen cycle and explain how it works?
1. Which form of carbon is found in aquatic environments, but never as a gas in the atmosphere?
A. calcium carbonate (CaCO:)
B. carbon monoxide (CO)
C. carbon dioxide (CO2)
D. methane (CH4)
E. water (H2O)
Chapter 26 Solutions
Foundations in Microbiology
Ch. 26.1 - 1. Define microbial ecology and describe what it...Ch. 26.1 - Prob. 2ELOCh. 26.1 - 3. Differentiate between habitat and niche, using...Ch. 26.1 - 1. Present in outline form the levels of...Ch. 26.1 - 2. Compare the concepts of habitat and niche using...Ch. 26.2 - Prob. 4ELOCh. 26.2 - 5. Analyze trophic structures and nutritional...Ch. 26.2 - 6. Outline several types of ecological...Ch. 26.2 - Prob. 3CYPCh. 26.2 - Prob. 4CYP
Ch. 26.2 - Prob. 5CYPCh. 26.2 - Prob. 6CYPCh. 26.3 - 7. Summarize the main concepts pertaining to...Ch. 26.3 - 8. Discuss the primary participants in and...Ch. 26.3 - 9. Describe the forms in which nitrogen is found...Ch. 26.3 - 10. Indicate the main components of the sulfur and...Ch. 26.3 - Prob. 7CYPCh. 26.3 - Prob. 8CYPCh. 26.3 - Prob. 9CYPCh. 26.3 - Prob. 10CYPCh. 26.3 - 11. Describe nitrogen fixation, ammonification,...Ch. 26.3 - 12. What form of nitrogen is required by plants?...Ch. 26.3 - 13. Summarize the main stages in the cycling of...Ch. 26.3 - 14. Explain the processes of bioaccumulation and...Ch. 26.4 - 11. Describe the structure of soil and how it...Ch. 26.4 - Prob. 12ELOCh. 26.4 - 13. Explain how bioremediation relates to soil and...Ch. 26.5 - Prob. 14ELOCh. 26.5 - 15. Describe the structure of aquatic ecosystems.Ch. 26.5 - 16. Explain how aquatic environments vary in...Ch. 26.5 - 17. Relate the principles involved in water...Ch. 26.5 - Prob. 18ELOCh. 26.5 - 15. Describe the composition of the soil, the...Ch. 26.5 - Prob. 16CYPCh. 26.5 - 17. What are the roles of precipitation,...Ch. 26.5 - 18. What causes the formation of the epilimnion,...Ch. 26.5 - Prob. 19CYPCh. 26.5 - Prob. 20CYPCh. 26.5 - Prob. 21CYPCh. 26.5 - 22. Give specific examples of indicator organisms...Ch. 26.5 - 23. Describe two methods of water analysis.Ch. 26.L1 - 1. Which of the following is not a major...Ch. 26.L1 - Prob. 2MCQCh. 26.L1 - 3. The quantity of available nutrients _______...Ch. 26.L1 - Prob. 4MCQCh. 26.L1 - Prob. 5MCQCh. 26.L1 - Prob. 6MCQCh. 26.L1 - 7. Which of the following bacteria would be the...Ch. 26.L1 - Prob. 8MCQCh. 26.L1 - 9. An oligotrophic ecosystem would be most likely...Ch. 26.L1 - 10. Which of the following does not vary...Ch. 26.L1 - Prob. 1CSRCh. 26.L1 - 2. Increased average water temperature in Lake...Ch. 26.L1 - Prob. 3CSRCh. 26.L1 - Prob. 1WCCh. 26.L1 - Prob. 2WCCh. 26.L1 - Prob. 3WCCh. 26.L1 - 4. Draw a diagram that follows the effects of CO2...Ch. 26.L1 - Prob. 5WCCh. 26.L1 - Prob. 6WCCh. 26.L2 - 1. Biologists can set up an ecosystem in a small,...Ch. 26.L2 - 2. Observe the carbon and nitrogen cycles and...Ch. 26.L2 - Prob. 3CTCh. 26.L2 - 4. Why are organisms in the abyssal zone of the...Ch. 26.L2 - 5. a. What eventually happens to the nutrients...Ch. 26.L2 - 6. If we are to rely on microorganisms to...Ch. 26.L2 - Prob. 1VCCh. 26.L2 - 2. From chapter 8, Figure 8.27. What process does...
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- The movement of matter is _______________ in ecosystems, and the movement of energy is _________________. (a) linear; linear (b) linear; cyclic (c) cyclic; cyclic (d) cyclic; linear (e) cyclic; linear or cyclicarrow_forwardAn organism characterized as a photoautotroph obtains energy from _____ and carbon from _______. (a) light; organic molecules (b) light; CO2 (c) organic molecules; organic molecules (d) organic molecules; CO2 (e) O2; CO2arrow_forward16. Photosynthetic organisms use energy from the sun to reduce A) formaldehyde; ethanol B) CO2; ethanol C) CO2;; carbohydrates D) CO2; oxygen E) none of the above toarrow_forward
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- 16. The electron carriers NAD+ and FAD— accept electrons from reduced metabolites. accept electrons from acidic metabolites. accept electrons from oxidized metabolites. donate electrons to reduced metabolites. donate electrons to basic metabolites.arrow_forwardPlant Physiology: 1. Plant Hormone signal transduction is an exciting field and the mode of signaling for various hormones in the cellular context have been elucidated. Compare and contrast the plant hormone Auxin and ethylene signal transductions mechanisms. (Hint. Begin at the Receptor level) 2. To cope with drought conditions, plants employ a very common mechanism of synthesizing solutes for osmotic adjustment. Describe how solutes help plant cells to cope with drought conditions. 3. Carotenoids comprise a family of orange and yellow pigments present in most photosynthetic organisms. Describe the different types of carotenoids found in photosynthetic organisms pointing to their chemical characteristics and functions. 4. ATP synthesis in chloroplast is based on the stepwise conservation of energy. Trace the conservation of energy from the initial absorption of light by the chlorophyll molecule to the final formation of a molecule of ATP. 5. Trace the path of carbon in a typical C4…arrow_forward2. Complete the table below to summarize how C, N, & P are fixed. Add appropriate details to help you understand each process (this will be a helpful study tool!). Element Source of Nutrient Fixed by Converted into Carbon Carbon Dioxide Respiration | Nitrogen Ammonia/ammonium (NH,i NH,") Phosphorus P compounds in rocksarrow_forward
- 6) Which of the following is not a source of carbon in the biosphere? A) Ocean rocks and sediments.B) Fossil fuels and calcium carbon rock underground.C) The oceans as dissolved carbon dioxide.D) Carbon dioxide in the atmosphere.arrow_forward5. The following Figure for Question 5 shows a simplified Nitrogen Cycle driven entirely by microorganisms. (i) : (ii) : (iii) : (iv) : N₂ (V) : N₂O iv NO NH3 NO₂ (a) Name the five major nitrogen transformation processes numbered (i) to (v) in the simplified Nitrogen Cycle. ii iii NO₂ The figure for Question 5 Organic Nitrogenarrow_forwardon k. 7.2 Natural carbon recycling ADVANCED STANDARD Science understanding FOUNDATION bushfire (n) a forest fire that is out of contral Carbon is the basis of all life on Earth. There is a fixed amount of carbon on Earth and this carbon is continuously recycled and reuscu. It takes carbon about 100 million vears to complete one cycle through the lithosphere (rock, soil, land), bydrosphere (oceans, lakes, rivers), the atmosphere and the biosphere. controlled burn In) a supervised fire Carbon stores HINT The Earth's four major carbon stores (or sinks) are-the atmosphere, occans, terrestrial ecosystems (on land) and Earth's crust. 1 Gigatonne = 10 tonne = 10" kg Table 7.2.1 Earth's principal carbon stores in gigatonnes (Gt) Stores of carbon Gigatonnes (Gt) Gigatonnes (Gt) Stores of carbon marine sediments and 3000 sedimentary rocks 66000 000-100 000 000 coal deep oceans soils and organic matter 1600 40 000 surface oceans 1000 oil and gas 300 vegetation 540-610 the atmosphere 750 Plants…arrow_forward
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