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The two claws of the mature American lobster are decidedly different from each other. The crusher claw is short and stout; the cutter claw is long and slender. Such bilateral asymmetry, in which the right side of the body is, in all other respects, a mirror image of the left side, is not unlike handedness in humans. But where the majority of humans are right-handed, in lobsters the crusher claw appears with equal probability on either the right side or left side of the body.
Bilateral asymmetry of the claws comes about gradually. In the juvenile fourth and fifth stages of development, the paired claws are symmetrical and cutter like. Asymmetry begins to appear in the juvenile sixth stage of development, and the paired claws farther diverge toward well-defined cutter and crusher claws during succeeding stages. An intriguing aspect of this development was discovered by Victor Emmer. He found that if one of the paired claws is removed during the fourth or fifth stage, the intact claw invariably becomes a crusher, while the regenerated claw becomes a stutter. Removal of a claw during a later juvenile stage or during adulthood, when asymmetry is present, does not alter the asymmetry; the intact and regenerated claws retain their original structures.
These observations indicate that the conditions that trigger differentiation must operate in a random manner when the paired claws are intact, but in a nonrandom manner when one of the claws is lost. One possible explanation is that differential use of the claws determines their asymmetry. Perhaps the claw that is used more becomes the crusher. This would explain why, when one of the claws is missing during the fourth or fifth stage, the intact claw always becomes a crusher. With two intact claws, initial use of one claw might prompt the animal to use it more than the other throughout the juvenile fourth and fifth stages, causing it to become a crusher. To test this hypothesis, researchers raised lobsters in the juvenile fourth and fifth stages of development in a laboratory environment in which the lobster could manipulate oyster chips. (Not coincidentally, at this stage of development lobsters typically change from a habitat where they drift passively, to the ocean floor where they have the opportunity to be more active by borrowing in the substrate.) Under these conditions, the lobsters developed asymmetric claws, half with crusher claws on the left, and half with crusher claws on the right. In contrast, when juvenile lobsters were reared in a smooth tank without the oyster chips, the majority developed two cutter claws. This unusual configuration of symmetrical cutter claws did not change when the lobsters were subsequently placed in a manipulable environment or when they lost and regenerated one or both claws.
56. The passage is primarily concerned with _______.
A. drawing an analogy between asymmetry in lobsters and handedness in humans
B. discussing a possible explanation for the way bilateral asymmetry is determined in
lobsters
C. explaining differences between lobsters’ crusher claws and cutter claws
D. developing a method for predicating whether crusher claws in lobsters will appear on
the left or right side
57. Which of the following experimental result, if observed, would most clearly contradict the
findings of Victor Emmer?
A. A left cutter like claw is removed in the fifth stage and a crusher claw develops on the
right side.
B. A left cutter like claw is removed in the fourth stage and a crusher claw develops on the
left side.
C. A left cutter like claw is removed in the sixth stage and a crusher claw develops on the
right side.
D. A left cutter like claw is removed in the fourth stage and a crusher claw develops on the
right side.
58. It can be inferred from the passage that one difference between lobsters in the earlier stages
of development and those in the juvenile fourth and fifth stages is that lobsters in the early
stages are _______.
A. more likely to regenerate a lost claw
B. more likely to replace a crusher claw with a cutter claw
C. likely to be less symmetrical
D. likely to be less active
59. Which of the following conditions does the passage suggest is a possible cause for the failure
of a lobster to develop a crusher claw?
A. The loss of a claw during the third or earlier stage of development.
B. The loss of a claw during the fourth or fifth stage of development.
C. The loss of a claw during the sixth stage of development.
D. Development in an environment devoid of material that can be manipulated.
60. The author regards the idea that differentiation is triggered randomly when paired claws
remain intact as _______.
A. irrefutable considering the authoritative nature of Emmer’s observations
B. contradictory to conventional thinking on lobster-claw differentiation
C. likely in view of present evidence
D. purely speculative because it is based on scattered research and experimentation
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