Life: The Science of Biology
11th Edition
ISBN: 9781319010164
Author: David E. Sadava, David M. Hillis, H. Craig Heller, Sally D. Hacker
Publisher: W. H. Freeman
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Chapter 52, Problem 1Q
Summary Introduction
To review:
The results given in graph A for the energy trade-offs of female burying beetles, which help them to maximize the fitness from an evolutionary point of view.
Given:
Figure A shows the percent of females that laid eggs when they were exposed to various conditions.
Introduction:
In the given experiment, the beetles were exposed to three conditions, which were used to determine its energy investment in brooding and reproduction. In the first treatment, the female beetle was provided with a male partner. The larvae were removed immediately after the egg was laid. The couple was provided with a fresh carcass. In the second treatment, the couple was left with only 10 larvae and a new carcass was provided. In the third treatment, the couple was provided with a new carcass when it had already cared for their hatchlings for 4 days.
Expert Solution & Answer
Explanation of Solution
Male and female burying beetles meet at the new animal carcass in order to reproduce and feed its offspring by using new carcass as a food source. Parental care and mating do not occur at the same time that is they use energy wisely. After mating, the female beetles produce fertilized eggs on the carcass and both parents feed the new hatchlings for few days. Thus, at the time of parental care, they do not involve or spend energy to reproduce another set of offspring.
The females in the no larvae group are most productive where 90% of the females laid eggs and in the old larvae group, 70% of the females laid eggs. While only 10% of the females in the young larvae group laid eggs. This is because females in the old and no larvae groups preferred mating to produce a new set of offspring as they do not have to spend energy in feeding their offspring.
The females in the young larvae group have to take care of 10 young larvae present in the carcass by feeding and protecting them. New hatchlings can feed themselves after 4 days of parental care. The energy requirements for reproduction and parental care shaped the behavior of beetles to use energy-trade off in order to maximize the fitness.
Conclusion
Thus, the female burying beetles reproduce and provide parental care to its offspring by using energy trade-offs, which directly maximize its fitness as its genes are passed on to its generations successfully.
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You are working on an undergraduate project, studying an insect species. A recent study showed that the pigmentation pattern used for camouflage is made by an enzyme K. However, it has been shown that, when compared to the Kk individuals, the KK homozygotes would have a higher chance of dying from pigment overdose before growing up, while the kk individuals can easily fall to predation before becoming adults. In fact, when compared to the Kk individuals, the estimated selection coefficients for KK and kk are 0.25 and 0.5, respectively. You are interested in what would happen to these alleles. At present, you have conducted a population survey and have 1000 larvae in your collection. Among them, 360 are KK, 480 Kkand 160 kk.
1)How many larvae would survive to adulthood
a) 170 b) 414 c)583 d)750 e)830
2)Following up the previous question, what would be the KK genotype frequency at the adult?
a) 0.090 b) 0.270 c) 0.325 d) 0.360 e) 0.529
3)Following up on the previous question,…
8 of 14
口
Question 8
My Response
Which of the following best explains the
relationship between inherited traits and the
fitness of individuals in a generation of poison-
dart frogs?
Individuals have different
inherited traits, so each
individual's chance of
surviving predation and
reproducing is different. The
traits of the most successful
individuals become more
common in the next
generation.
Individuals have different
inherited traits, so each
individual's chance of
surviving predation and
reproducing is different. The
frequency of traits in the
generation will be identical to
the frequency of traits in the
next generation.
Individuals have different
inherited traits, but the
II
画
Iti do a cohort study on some new cute animal, and I discover that most of the individuals die at a relatively young age, and only a few live close to the maximum age for the species, what
would you predict about the reproductive strategy of this species?
O They probably produce relatively few offspring and invest a lot of parental care into each offspring.
O They probably produce a lot of offspring, and invest a lot of parental care into each one.
O They probably produce a lot of offspring but do not invest much parental care in any individual offspring
O They probably produce offspring only after individuals manage to live to close to their maximum age
Chapter 52 Solutions
Life: The Science of Biology
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