The Namibian cheetah (Acinonyx jubatus jubatus), the world's fastest land-dwelling animal, hunts across the African grasslands using high-speed sprints. Cheetahs possess unique anatomical features specialized for speed, including an aerodynamic skull, elongated legs, and an enlarged heart. These physiological adaptations have occurred over time and allow cheetahs to achieve speeds greater than 100 km/h. However, due to their small body and slender limbs, cheetahs (50–64 kg) are limited with regard to the size of the animals they can successfully hunt and therefore typically prey on slightly smaller species that inhabit open grasslands.It is believed that around 12,000 years ago, Namibian cheetahs experienced an environmental catastrophe that drastically reduced their population. The small number of surviving cheetahs began mating with one another, which led to severe inbreeding depression. Over time, the offspring of subsequent generations exhibited decreased fitness, reduced fecundity (number of offspring), and sustained a loss of major histocompatibility complex (MHC) allele diversity. To study if low MHC diversity correlates with low fitness in cheetahs, scientists analyzed the genetic diversity and disease prevalence in a group of free-ranging and captive male cheetahs.Experiment 1MHC allele genotyping and analysis was performed in wild (free-ranging) and captive male cheetahs (Figure 1). Because MHC diversity is strongly correlated with genetic diversity, MHC diversity is used as a marker for an organism's overall genetic variability.Figure 1 Evaluation of heterozygosity in (A) wild and (B) captive male cheetahs born between 1976 and 2007 (Note: Each data point represents a single male cheetah.)Experiment 2Disease prevalence was evaluated in wild and captive male cheetahs by quantitative analysis of symptoms relating gastrointestinal, liver, and kidney disease. The percentages of cheetahs affected by each disease are shown in Figure 2.Figure 2 Evaluation of disease prevalence in wild and captive male cheetahsExperiment 3Fecal cortisol levels were noninvasively evaluated in wild and captive cheetahs over a period of 6 months (Figure 3).Figure 3 Average fecal cortisol concentrations of wild and captive male cheetahsAdapted from Castro-prieto A, Wachter B, Sommer S. Cheetah paradigm revisited: MHC diversity in the world's largest free-ranging population. Mol Biol Evol. 2011;28(4):1455-68. Question 36If wild Namibian cheetahs continue breeding as described in the passage, what is most likely to occur to their population size in the long term?A.Increased population size with equal sex ratioB.A sharp increase followed by a slight decrease in population sizeC.Elimination of the wild Namibian cheetah speciesD.Stable population size consisting of mostly females
Question
The Namibian cheetah (Acinonyx jubatus jubatus), the world's fastest land-dwelling animal, hunts across the African grasslands using high-speed sprints. Cheetahs possess unique anatomical features specialized for speed, including an aerodynamic skull, elongated legs, and an enlarged heart. These physiological adaptations have occurred over time and allow cheetahs to achieve speeds greater than 100 km/h. However, due to their small body and slender limbs, cheetahs (50–64 kg) are limited with regard to the size of the animals they can successfully hunt and therefore typically prey on slightly smaller species that inhabit open grasslands.It is believed that around 12,000 years ago, Namibian cheetahs experienced an environmental catastrophe that drastically reduced their population. The small number of surviving cheetahs began mating with one another, which led to severe inbreeding depression. Over time, the offspring of subsequent generations exhibited decreased fitness, reduced fecundity (number of offspring), and sustained a loss of major histocompatibility complex (MHC) allele diversity. To study if low MHC diversity correlates with low fitness in cheetahs, scientists analyzed the genetic diversity and disease prevalence in a group of free-ranging and captive male cheetahs.Experiment 1MHC allele genotyping and analysis was performed in wild (free-ranging) and captive male cheetahs (Figure 1). Because MHC diversity is strongly correlated with genetic diversity, MHC diversity is used as a marker for an organism's overall genetic variability.Figure 1 Evaluation of heterozygosity in (A) wild and (B) captive male cheetahs born between 1976 and 2007 (Note: Each data point represents a single male cheetah.)Experiment 2Disease prevalence was evaluated in wild and captive male cheetahs by quantitative analysis of symptoms relating gastrointestinal, liver, and kidney disease. The percentages of cheetahs affected by each disease are shown in Figure 2.Figure 2 Evaluation of disease prevalence in wild and captive male cheetahsExperiment 3Fecal cortisol levels were noninvasively evaluated in wild and captive cheetahs over a period of 6 months (Figure 3).Figure 3 Average fecal cortisol concentrations of wild and captive male cheetahsAdapted from Castro-prieto A, Wachter B, Sommer S. Cheetah paradigm revisited: MHC diversity in the world's largest free-ranging population. Mol Biol Evol. 2011;28(4):1455-68. Question 36If wild Namibian cheetahs continue breeding as described in the passage, what is most likely to occur to their population size in the long term?A.Increased population size with equal sex ratioB.A sharp increase followed by a slight decrease in population sizeC.Elimination of the wild Namibian cheetah speciesD.Stable population size consisting of mostly females
Solution
The passage describes a situation where the Namibian cheetahs have experienced a severe inbreeding depression due to a drastic reduction in their population around 12,000 years ago. This inbreeding has led to decreased fitness, reduced fecundity (number of offspring), and a loss of major histocompatibility complex (MHC) allele diversity.
Inbreeding depression is a reduction in fitness resulting from breeding of related individuals. It leads to a decrease in the overall genetic diversity of a population, which can make the population more susceptible to diseases and other environmental changes.
Reduced fecundity means that the cheetahs are having fewer offspring. This, combined with the decreased fitness, suggests that the population is not likely to increase significantly in size.
The loss of MHC allele diversity is also a concern. MHC molecules play a crucial role in the immune response, and a loss of diversity in these molecules can make the population more susceptible to diseases.
Given these factors, the most likely outcome if the wild Namibian cheetahs continue breeding as described in the passage is the elimination of the wild Namibian cheetah species (Option C). This is because the factors described above are likely to lead to a decrease in the population size over time.
Similar Questions
A cheetah is native to the continent of Africa. It can be found in the savannah, grassland, and desert habitats.It is also known as the world's fastest terrestrial animal, clocking speeds of 80 - 128 km/m. What body systems are interacting to allow this land mammal to accelerate at enormous speeds in order to catch its prey?Select one:a.Endocrine, reproductive, digestive, muscular, and skeletalb.Respiratory, reproductive, excretory, skeletal, and nervousc.Integumentary, immune, lymphatic, excretory, and musculard.Muscular, skeletal, nervous, circulatory, and respiratory
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