Official 15 Passage 1

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A Warm-Blooded Turtle

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What can be inferred about whales from paragraph 1?

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  • A
    They are considered by some to be reptiles.
  • B
    Their bodies are built in a way that helps them manage extremely cold temperatures.
  • C
    They are distantly related to leatherback turtles.
  • D
    They can swim farther than leatherback turtles.
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正确答案: B

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  • 原文
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  • When it comes to physiology, the leatherback turtle is, in some ways, more like a reptilian whale than a turtle. It swims farther into the cold of the northern and southern oceans than any other sea turtle, and it deals with the chilly waters in a way unique among reptiles.



    A warm-blooded turtle may seem to be a contradiction in terms. Nonetheless, an adult leatherback can maintain a body temperature of between 25 and 26°C 77–79°F in seawater that is only 8°C 46.4°F. Accomplishing this feat requires adaptations both to generate heat in the turtle's body and to keep it from escaping into the surrounding waters. Leatherbacks apparently do not generate internal heat the way we do, or the way birds do, as a by-product of cellular metabolism. A leatherback may be able to pick up some body heat by basking at the surface; its dark, almost black body color may help it to absorb solar radiation. However, most of its internal heat comes from the action of its muscles.



    Leatherbacks keep their body heat in three different ways. The first, and simplest, is size. The bigger the animal is, the lower its surface-to-volume ratio; for every ounce of body mass, there is proportionately less surface through which heat can escape. An adult leatherback is twice the size of the biggest cheloniid sea turtles and will therefore take longer to cool off. Maintaining a high body temperature through sheer bulk is called gigantothermy. It works for elephants, for whales, and, perhaps, it worked for many of the larger dinosaurs. It apparently works, in a smaller way, for some other sea turtles. Large loggerhead and green turtles can maintain their body temperature at a degree or two above that of the surrounding water, and gigantothermy is probably the way they do it. Muscular activity helps, too, and an actively swimming green turtle may be 7°C 12.6°F warmer than the waters it swims through.



    Gigantothermy, though, would not be enough to keep a leatherback warm in cold northern waters. It is not enough for whales, which supplement it with a thick layer of insulating blubber fat. Leatherbacks do not have blubber, but they do have a reptilian equivalent: thick, oil-saturated skin, with a layer of fibrous, fatty tissue just beneath it. Insulation protects the leatherback everywhere but on its head and flippers. Because the flippers are comparatively thin and blade like, they are the one part of the leatherback that is likely to become chilled. There is not much that the turtle can do about this without compromising the aerodynamic shape of the flipper. The problem is that as blood flows through the turtle's flippers, it risks losing enough heat to lower the animal's central body temperature when it returns. The solution is to allow the flippers to cool down without drawing heat away from the rest of the turtle's body. The leatherback accomplishes this by arranging the blood vessels in the base of its flipper into a countercurrent exchange system.



    In a countercurrent exchange system, the blood vessels carrying cooled blood from the flippers run close enough to the blood vessels carrying warm blood from the body to pick up some heat from the warmer blood vessels;thus, the heat is transferred from the outgoing to the ingoing vessels before it reaches the flipper itself. This is the same arrangement found in an old-fashioned steam radiator, in which the coiled pipes pass heat back and forth as water courses through them. The leatherback is certainly not the only animal with such an arrangement; gulls have a countercurrent exchange in their legs. That is why a gull can stand on an ice floe without freezing.



    All this applies, of course, only to an adult leatherback. Hatchlings are simply too small to conserve body heat, even with insulation and countercurrent exchange systems. We do not know how old, or how large, a leatherback has to be before it can switch from a cold-blooded to a warm-blooded mode of life. Leatherbacks reach their immense size in a much shorter time than it takes other sea turtles to grow. Perhaps their rush to adulthood is driven by a simple need to keep warm.


  • 从生理学上讲,棱皮龟在某些方面上更像爬行类的鲸而不是海龟。 跟其他海龟相比,它们能够游入更寒冷的北部和南部海洋,并且和其他爬行类动物相比,它们在应对寒冷水域时有其独特的方式。

    温血海龟似乎是一个自相矛盾的术语。 尽管如此,成年棱皮龟能够在仅8摄氏度(46.4华氏度)的海水中将体温维持在25~26摄氏度(77-79华氏度)之间。 要实现这一壮举,棱皮龟不但要能够在体内生成热量,还要防止温度散失到周围水域。 很显然,棱皮龟产生体内热量的方式与我们或者鸟类不同,并非细胞代谢的副产物。 棱皮龟可能会通过晒太阳来收集身体所需的热量。其深色近乎黑色的体色有助于吸收太阳辐射。 然而,它的大部分体热来自于肌肉运动。

    棱皮龟通过三种方式保持体温。 第一种也是最简单的方式就是体型大小。 动物体型越大,表面和体积的比例越小。体重每增加一盎司,相应的容易流失热量的表面就越少。 成年棱皮龟是最大的海龟的两倍,因此它变凉就需要更久的时间。 完全依靠庞大体积维持体温的方法叫巨温法。 大象、鲸鱼也许包括很多恐龙也是通过这种方法保持体温的。 其它海龟或多或少也存在这种现象。 巨大的红海龟和绿甲海龟可以维持与周围水温略高1摄氏度或2摄氏度或的体温,可能就是利用的巨温法。 肌肉活动也有帮助,积极游动的绿海龟比它游过的水温度高出7°C 12.6°F。

    然而,在寒冷的北部水域巨温法不足让棱皮龟保暖。 同样,巨温法对鲸来说也是不够的,鲸还通过厚厚的绝缘脂(脂肪)来帮助维持体温。 棱皮龟没有鲸那样的脂肪,但是它们和爬行类的动物有着相似的结构:厚且含油的皮肤,皮肤下有一层纤维,而脂肪组织就在这个纤维层下面。 除了头部和鳍,这个“绝缘”结构可以保护它们的所有部位。 因为棱皮龟的鳍相对较薄且呈叶片状,这一部位很有可能会被冻僵。 如果不损害鳍部气动外形,海龟几乎什么也做不了。 问题是血液流经海龟鳍部时,很容易损耗热量,血液回流时便降低了动物的中心体温。 解决办法是在身体其余部分的热量还没有损耗前,允许鳍部降低温度。 棱皮龟通过把流入鳍部血管变为逆流交换系统来实现这一点。

    在逆流交换系统中,从鳍部回来携带冷血的血管足够靠近来自体内携带热血的血管并吸取部分热量。因此,血在到达鳍部前就通过流入的血液和流出的血液完成了热量转移。 人们发现老式蒸汽式暖气片有着与之类似的装置,当水流经这些盘绕的管子时热量进行了交换。 当然并不只是棱皮龟有这种结构。 海鸥的腿部也有一个逆流交换系统。 这就是为什么海鸥可以站在冰川上而不被冻结的原因。

    当然,这些都仅适用于成年棱皮龟。 刚孵化的棱皮龟太小,即使有绝缘层和逆流交换系统也不能保存体温。 现在我们还不知道棱皮龟要达到多大年龄或者多大尺寸才能从冷血动物转变成温血动物。 棱皮龟庞大体型的形成时间要比其它海龟短得多。 可能它们是为了保暖才急着向成年过渡。
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    解析

    题型分类:推理题

    题干分析:关键词:whalesparagraph 1

    原文定位:定位:第一段

    选项解析:

    信息点一:Their bodies are built in a way,概括解释了第一段第一句内容

    信息点二:helps them manage extremely cold temperatures概括解释了第一段第二句内容;

    显然,选项B是对第一段的整体概括说明。

    选项A:鲸是爬行动物(原文并未提及whale是什么)

    选项C:原文说他们physiology上像,没说它们是否相关

    选项D:原文并未提及此信息。

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