Bio 316 Energy Metaboloism
Which molecule(s) is(are) generated during aerobic metabolism?
CO2 and H2O
large animals
Consume 1/3 body mass weekly
thermodynamics first law
Energy cannot be created or destroyed But it can be change •Chemical energy -> mechanical energy •mechanical energy -> kinetic energy (heat)
Specific Dynamic Action (SDA)
Increase in metabolic rate following food consumption
small animals
On a mass-specific basis, small animals require more food than larger animals. (Consume 6 x body mass weekly)
Thermodynamic principles
Physiological systems require energy inputs to maintain structural/functional organization Energy is necessary to create and maintain animals' essential internal organization
Metabolic rate
Rate of converting chemical or potential energy to cellular/organismal work and heat Rate of energy consumption (use)•units = calories or joules per unit time, or watts (1 cal =4.186J W=J/s
SDA
SDA reflects the added energy needed for digestion, absorption, and assimilation
Whole animal methabolic rate
Whole-animal metabolic rates do not increase linearly, because mass-specific metabolic rates decrease with increasing body mass
"high-grade" energy
chemical, electrical, mechanical enegy
Which of these animals has the lowest mass-specific metabolic rate
lizard
Suppose you discover the fossilized gill arches from a previously unknown species of fish. The gill arches have long, closely packed gill rakers. This fish most likely obtained its energy from
suspension feeding.
Factors that affect metabolic rate
•Activity level •Environmental temperature• Endotherms vs. ectotherms •Nutritive status: digestion and absorption require energy -Specific dynamic action (SDA)•Body size: whole-body and mass-specific relationships •Other: age, gender, time of day/season, etc.
Levels of metabolism
•Basal metabolic rate (BMR): Endotherms•Fasting and resting•Within thermoneutral zone •Standard metabolic rate (SMR): Ectotherms•Fasting and resting•At specified body temperature •Field metabolic rate (FMR)•Any conditions and activities of free-living animals in nature
Metabolic rate and body mass
•Larger animals have higher whole-body rates of metabolism than smaller animals. •Smaller animals have higher mass-specific rates of metabolism than larger animals. •Mitochondria per gram of tissue •Heart rate relative to body mass• The metabolic rate of endotherms exceeds that of ectotherms.
