Bar-headed geese can harness alternative sources of energy to help them endure prolonged migration flights. How do these high-flying birds sustain their energy for these long migration flights? a) The birds can generate energy by the hydrolysis of keratin present in their insulation feathers. b) The birds can acquire energy by primarily metabolizing muscle tissues to synthesize more amino acids. c) The birds can generate energy by the process of beta oxidation to utilize fats. d) The birds can generate energy by going into a state called torpor while they are flying, during which they are able to reduce their breathing rates. e) The birds can generate more energy by reducing mitochondria creatine kinase.
Bar-headed geese can harness alternative sources of energy to help them endure prolonged migration flights. How do these high-flying birds sustain their energy for these long migration flights? a) The birds can generate energy by the hydrolysis of keratin present in their insulation feathers. b) The birds can acquire energy by primarily metabolizing muscle tissues to synthesize more amino acids. c) The birds can generate energy by the process of beta oxidation to utilize fats. d) The birds can generate energy by going into a state called torpor while they are flying, during which they are able to reduce their breathing rates. e) The birds can generate more energy by reducing mitochondria creatine kinase.
Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
Section: Chapter Questions
Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...
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Transcribed Image Text:Bar-headed geese can harness alternative sources of energy to help them endure
prolonged migration flights. How do these high-flying birds sustain their energy for
these long migration flights?
a) The birds can generate energy by the hydrolysis of keratin present in their
insulation feathers.
b) The birds can acquire energy by primarily metabolizing muscle tissues to
synthesize more amino acids.
c) The birds can generate energy by the process of beta oxidation to utilize fats.
d) The birds can generate energy by going into a state called torpor while they
are flying, during which they are able to reduce their breathing rates.
e) The birds can generate more energy by reducing mitochondria creatine
kinase.
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