Which of the following best describes how the ability to adhere to smooth surfaces affects the fitness of G. humeralis? A The ability to adhere to smooth surfaces is likely to decrease the fitness of G. humeralis because the ability decreases the likelihood of predation. The ability to adhere to smooth surfaces is likely to decrease the fitness of G. humeralis because the ability increases the likelihood of predation. C The ability to adhere to smooth surfaces is likely to increase the fitness of G. humeralis because the ability decreases the likelihood of predation. The ability to adhere to smooth surfaces is likely to increase the fitness of G. humeralis because the ability increases the likelihood of predation.

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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1O Cannot adhere
3
O G. antillensis
Which of the following best describes how the ability to adhere to smooth surfaces affects the fitness of G. humeralis?
A
The ability to adhere to smooth surfaces is likely to decrease the fitness of G. humeralis because the ability decreases the likelihood of predation.
B
The ability to adhere to smooth surfaces is likely to decrease the fitness of G. humeralis because the ability increases the likelihood of predation.
The ability to adhere to smooth surfaces is likely to increase the fitness of G. humeralis because the ability decreases the likelihood of predation.
D
The ability to adhere to smooth surfaces is likely to increase the fitness of G. humeralis because the ability increases the likelihood of predation.
Transcribed Image Text:1O Cannot adhere 3 O G. antillensis Which of the following best describes how the ability to adhere to smooth surfaces affects the fitness of G. humeralis? A The ability to adhere to smooth surfaces is likely to decrease the fitness of G. humeralis because the ability decreases the likelihood of predation. B The ability to adhere to smooth surfaces is likely to decrease the fitness of G. humeralis because the ability increases the likelihood of predation. The ability to adhere to smooth surfaces is likely to increase the fitness of G. humeralis because the ability decreases the likelihood of predation. D The ability to adhere to smooth surfaces is likely to increase the fitness of G. humeralis because the ability increases the likelihood of predation.
The presence of tiny hairs, called setae, on the toe pads of some geckos is associated with the ability to adhere to smooth surfaces. This ability allows geckos to climb in areas where
many predators cannot. Scientists studying the evolution of setae have identified three closely related species of gecko, only one of which can adhere to smooth surfaces. A model of the
evolutionary relatedness between these species is represented in the figure.
G. humeralis
Can adhere
O G. concinnatus
O Cannot adhere
3
O G. antillensis
Which of the following best describes how the ability to adhere to smooth surfaces affects the fitness of G. humeralis?
The ability to adhere to smooth surfaces is likely to decrease the fitness of G. humeralis because the ability decreases the likelihood of predation.
Transcribed Image Text:The presence of tiny hairs, called setae, on the toe pads of some geckos is associated with the ability to adhere to smooth surfaces. This ability allows geckos to climb in areas where many predators cannot. Scientists studying the evolution of setae have identified three closely related species of gecko, only one of which can adhere to smooth surfaces. A model of the evolutionary relatedness between these species is represented in the figure. G. humeralis Can adhere O G. concinnatus O Cannot adhere 3 O G. antillensis Which of the following best describes how the ability to adhere to smooth surfaces affects the fitness of G. humeralis? The ability to adhere to smooth surfaces is likely to decrease the fitness of G. humeralis because the ability decreases the likelihood of predation.
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