Please go the below website and take the test. Thank you.
http://www.proprofs.com/quiz-school/story.php?title=test-1_253
Monday, April 11, 2011
Energy
Animals use the chemical energy in food to sustain form and function • All organisms require chemical energy for growth, repair, physiological processes, regulation, and reproduction
Bioenergetics • Bioenergetics, the flow of energy through an animal, limits behavior, growth, and reproduction • It determines how much food an animal needs • Studying bioenergetics tells us much about an animal’s adaptations
Energy Sources and Allocation • Animals harvest chemical energy from food • Energy-containing molecules from food are usually used to make ATP, which powers cellular work • After the needs of staying alive are met, remaining food molecules can be used in biosynthesis
Quantifying Energy Use • Metabolic rate is the amount of energy an animal uses in a unit of time • One way to measure it is to determine the amount of oxygen consumed or carbon dioxide produced
Bioenergetic Strategies • An animal’s metabolic rate is closely related to its bioenergetic strategy • Birds and mammals are mainly endothermic: Their bodies are warmed mostly by heat generated by metabolism • Endotherms typically have higher metabolic rates • Amphibians and reptiles other than birds are ectothermic: They gain their heat mostly from external sources • Ectotherms generally have lower metabolic rates
Influences on Metabolic Rate • Metabolic rates are affected by many factors besides whether an animal is an endotherm or ectotherm • Two of these factors are size and activity
Size and Metabolic Rate • Metabolic rate per gram is inversely related to body size among similar animals • Researchers continue to search for the causes of this relationship
Activity and Metabolic Rate • The basal metabolic rate (BMR) is the metabolic rate of an endotherm at rest • The standard metabolic rate (SMR) is the metabolic rate of an ectotherm at rest • Activity greatly affects metabolic rate • In general, maximum metabolic rate is inversely related to the duration of the activity
Energy Budgets • Different species use energy and materials in food in different ways, depending on their environment • Use of energy is partitioned to BMR (or SMR), activity, homeostasis, growth, and reproduction
Bioenergetics • Bioenergetics, the flow of energy through an animal, limits behavior, growth, and reproduction • It determines how much food an animal needs • Studying bioenergetics tells us much about an animal’s adaptations
Energy Sources and Allocation • Animals harvest chemical energy from food • Energy-containing molecules from food are usually used to make ATP, which powers cellular work • After the needs of staying alive are met, remaining food molecules can be used in biosynthesis
Quantifying Energy Use • Metabolic rate is the amount of energy an animal uses in a unit of time • One way to measure it is to determine the amount of oxygen consumed or carbon dioxide produced
Bioenergetic Strategies • An animal’s metabolic rate is closely related to its bioenergetic strategy • Birds and mammals are mainly endothermic: Their bodies are warmed mostly by heat generated by metabolism • Endotherms typically have higher metabolic rates • Amphibians and reptiles other than birds are ectothermic: They gain their heat mostly from external sources • Ectotherms generally have lower metabolic rates
Influences on Metabolic Rate • Metabolic rates are affected by many factors besides whether an animal is an endotherm or ectotherm • Two of these factors are size and activity
Size and Metabolic Rate • Metabolic rate per gram is inversely related to body size among similar animals • Researchers continue to search for the causes of this relationship
Activity and Metabolic Rate • The basal metabolic rate (BMR) is the metabolic rate of an endotherm at rest • The standard metabolic rate (SMR) is the metabolic rate of an ectotherm at rest • Activity greatly affects metabolic rate • In general, maximum metabolic rate is inversely related to the duration of the activity
Energy Budgets • Different species use energy and materials in food in different ways, depending on their environment • Use of energy is partitioned to BMR (or SMR), activity, homeostasis, growth, and reproduction
Tuesday, March 22, 2011
Thermoregulation
Animals regulate their internal environment within relatively narrow limits • The internal environment of vertebrates is called the interstitial fluid and is very different from the external environment • Homeostasis is a balance between external changes and the animal’s internal control mechanisms that oppose the changes
Regulating and Conforming • Regulating and conforming are two extremes in how animals cope with environmental fluctuations • A regulator uses internal control mechanisms to moderate internal change in the face of external, environmental fluctuation • A conformer allows its internal condition to vary with certain external changes
Mechanisms of Homeostasis • Mechanisms of homeostasis moderate changes in the internal environment • A homeostatic control system has three functional components: a receptor, a control center, and an effector • Most homeostatic control systems function by negative feedback, where buildup of the end product shuts the system off • In positive feedback, a change in a variable triggers mechanisms that amplify rather than reverse the change
Feedback Mechanisms in Thermoregulation • Mammals regulate body temperature by negative feedback involving several organ systems • In humans, the hypothalamus (a part of the brain) contains nerve cells that function as a thermostat
Subscribe to:
Posts (Atom)