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Chapter 13: Problem 14

Cetaceans are fully aquatic mammals that evolved from terrestrial ancestors. Gather information about the respiratory system of cetaceans and describe how it illustrates the statement made in Module 13.18 that "Evolution is limited by historical constraints."

Short Answer

Expert verified
Cetaceans' need to breathe air despite being aquatic illustrates that evolution is limited by historical constraints because they evolved from terrestrial ancestors with lungs.

Step by step solution

01

- Understand the Statement

The statement 'Evolution is limited by historical constraints' means that evolution does not start from scratch but builds upon existing structures and functions that were present in an organism's ancestors.
02

- Identify Cetaceans' Terrestrial Ancestors

Cetaceans, which include whales, dolphins, and porpoises, evolved from terrestrial ancestors. These ancestors would have had a respiratory system adapted for breathing air through lungs.
03

- Investigate Cetaceans' Respiratory System

Cetaceans have a highly specialized respiratory system. They breathe air through blowholes located on top of their heads. This adaptation allows them to surface and breathe more efficiently while minimizing exposure time.
04

- Explain Historical Constraints

Despite their fully aquatic lifestyle, cetaceans retain lungs rather than developing gills like fish because they evolved from land mammals. The respiratory system of cetaceans reflects the historical constraint of being originally land-dwelling mammals.
05

- Connect to the Statement

Cetaceans' need to breathe air, despite living in water, illustrates the concept that their evolution was constrained by their ancestry. Evolution modified existing structures (lungs) rather than creating entirely new ones (gills).

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Evolutionary Constraints
Evolutionary constraints refer to the limitations that historical development imposes on the evolutionary process. This principle means that evolution does not create completely new structures from nothing. Instead, it modifies existing ones that were inherited from an organism's ancestors. For example, cetaceans (whales, dolphins, and porpoises) have a respiratory system suited for air because their ancestors were terrestrial creatures. This illustrates how evolutionary development is constrained by past adaptations.
Marine Mammals
Marine mammals, such as cetaceans, have undergone significant evolutionary changes to thrive in aquatic environments. Yet, they are still mammals, which means they share certain traits with land mammals. One of the most significant traits is their need to breathe air through lungs. This constraint shapes various aspects of their physiology and behavior. For example, cetaceans must come to the surface to breathe through their blowholes, an adaptation that balances their need to obtain oxygen while minimizing the time spent at the surface.
Respiratory Adaptations
Cetaceans exhibit remarkable respiratory adaptations that allow them to survive and thrive in their aquatic habitats. They have blowholes on top of their heads, which enable them to take in air quickly and efficiently at the surface. Other adaptations include the ability to hold their breath for extended periods and the presence of myoglobin in their muscles to store oxygen. Despite these adaptations, cetaceans still rely on air to survive, illustrating the evolutionary constraint of retaining a respiratory system inherited from their terrestrial ancestors.
Cetacean Evolution
Cetacean evolution is a fascinating journey from land-dwelling mammals to fully aquatic creatures. Initially, their ancestors breathed air through lungs, just like modern land mammals. Over millions of years, cetaceans adapted to life in the water, but they retained their air-breathing capability due to evolutionary constraints. This historical legacy is seen in their need to surface for air, illustrating how evolution works by modifying existing structures rather than starting from scratch. The transition from land to water involved significant changes, but the core elements of their respiratory system remained intact.

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Most popular questions from this chapter

In an area of erratic rainfall, a biologist found that grass plants with alleles for curled leaves reproduced better in dry years, and plants with alleles for flat leaves reproduced better in wet years. This situation would tend to \(\quad\) (Explain your answer.) a. cause genetic drift in the grass population. b. preserve genetic variation in the grass population. c. lead to stabilizing selection in the grass population. d. lead to uniformity in the grass population.

Summarize the key points of Darwin's theory of descent with modification, including his proposed mechanism of evolution.

If an allele is recessive and lethal in homozygotes before they reproduce, a. the allele will be removed from the population by natural selection in approximately 1,000 years. b. the allele will likely remain in the population at a low frequency because it cannot be selected against in heterozygotes. c. the fitness of the homozygous recessive genotype is \(0 .\) d. both \(b\) and \(c\) are correct.

It seems logical that natural selection would work toward genetic uniformity; the genotypes that are most fit produce the most offspring, increasing the frequency of adaptive alleles and eliminating less adaptive alleles. Yet there remains a great deal of genetic variation within populations. Describe factors that contribute to this variation.

Sickle-cell disease is caused by a recessive allele. Roughly one out of every 400 African Americans \((0.25 \%)\) is afflicted with sickle-cell disease. Use the Hardy-Weinberg equation to calculate the percentage of African Americans who are carriers of the sickle-cell allele. (Hint: \(\left.q^{2}=0.0025 .\right)\)
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