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  3. COGNITIVE MAPS IN ANIMALS (1) A central hypothesis of animal cognition is that many animals make use of cognitive maps—inter

COGNITIVE MAPS IN ANIMALS (1) A central hypothesis of animal cognition is that many animals make use of cognitive maps—inter

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问题                                             COGNITIVE MAPS IN ANIMALS
    (1) A central hypothesis of animal cognition is that many animals make use of cognitive maps—internal representations or codes—of the spatial relationships among objects in their surroundings. In a broad sense, most animals that migrate probably have some internal map of the way external objects are arranged.
    (2) The most extensive studies of cognitive maps have been made for animals that exhibit seasonal migration, the regular back-and-forth movement of animals between two geographic areas at particular times of the year. [A] Seasonal migration enables many species to access rich food resources throughout the year and to breed or winter in areas that favor survival. [B] One long-distance traveler is the gray whale. [0] During summer, these giant aquatic mammals feast on small, bottom-dwelling invertebrates that abound in northern oceans. [D] In the fall, they leave their northern feeding grounds and begin a long trip south along the North American coastline. Arriving in warm, shallow lagoons off Baja California (Mexico) in the winter months, they breed, and pregnant females give birth to young before migrating back north. The yearly round-trip, some 20,000 kilometers, is the longest for any mammal.
    (3) Among insects, the monarch butterfly has one of the most remarkable seasonal migrations. During winter, these insects decorate certain trees at the western tip of Cuba, in a few mountain valleys of central Mexico, and at a few sites along the California coast. All monarchs alive at the end of summer fly south to reach their wintering sites. With the onset of spring, monarchs mate at the wintering sites and begin migrating northward. As they arrive at summer destinations, they lay eggs and then die. Two or more generations are produced during the summer, repopulating the United States and southern Canada. With the approach of fall, the summer’s last generation of monarchs flies south to the wintering grounds. They migrate as far as 4,000 kilometers and end up at a specific site, although they have not flown the route before.
    (4) Researchers have found that migrating animals stay on course by using a variety of environmental cues. Gray whales, for instance, seem to use coastal landmarks to pilot their way north and south. Migrating south in the fall, they orient themselves with the North American coastline on their left. Migrating north in the spring, they keep the coast on their right. Whale watchers sometimes see gray whales stick their heads straight up out of the water, perhaps to obtain a visual fix on land. Many birds migrate at night, navigating by the stars the way ancient human soldiers did. In contrast, monarch butterflies migrate during the day, resting in trees and bushes at night; genetic programming may enable them to use the Sun as a compass.
    (5) Navigating by the Sun or by stars requires an ability to keep track of compass direction. Many migrators also must have an internal timing mechanism that compensates for the continuous daily movement of Earth relative to celestial objects. The timing mechanism must also allow for the apparent change in position of celestial objects as the animal moves over its migration route. Almost nothing is known yet about the nature of these timing mechanisms. At least one night-migrating bird, the indigo bunting, seems to avoid the need for a timing mechanism by fixing on the North Star, the one bright star in northern skies that appears almost stationary. Researchers have found that buntings learn a star map and fix on a stationary star when navigating at night.
     (6) Another interesting, and more or less open, question about migration is how birds continue navigating when the Sun or stars are obscured by clouds. There is strong evidence that some birds can orient themselves to Earth’s magnetic field. Magnetite, the iron-containing mineral once used by sailors as a crude compass, is probably involved in sensing the field. The mineral has been found in the heads of pigeons, in the abdomens of bees, and in certain bacteria that orient themselves to a magnetic field. Future research may show that magnetic sensing is a widespread, important part of a complex navigation mechanism in many animals.
All of the following are mentioned in paragraph 4 as possible ways that animals stay on course during migration EXCEPT________.
选项 A、observing the position of the coast relative to the direction of migration
B、observing the migration patterns of other animals
C、navigating by the stars
D、relying on their genetic programming
答案B
解析 本题问哪个选项不是动物保持迁徙路线的可能方式,属于否定事实信息题。本题可用排除法。A项“观察相对于迁徙路线的海岸位置”与第4段第2—4句所描述的灰鲸的例子相符,故A项是动物保持迁徙路线的方式,不符合题意。C项“通过星辰导航”与第4段第6句所述的“在夜间迁徙时,许多鸟类……依靠星辰来导航”意思一致,故也不符合题意。D项“依靠遗传规划”与第4段最后一句描述的黑脉金斑蝶通过遗传规划利用太阳来作为指南针相符,同样不符合题意。B项“观察其他动物的迁徙方式”在第4段中未被提及,符合题意,故为答案。
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