托福阅读考试预测,2020年托福考试时间上午和下午

托福考试2024-05-18 08:01:35嘉佳老师

  托福预测向来是每个考生考前必看的,因为托福预测还是有一定的效果的,那么今天就和出国留学网的小编一起来看看2020年1月12日托福阅读考试预测。

  Models of Egg Development

  1 Several different theories have been put forward to explain how the hard-shelled eggs of land-dwelling reptiles (e.g. lizards) evolved from the soft eggs that amphibians (e.g. frogs and toads) lay in water. The Romer model of egg development is named after the late Alfred Romer, a paleontologist who also became director of the Harvard University Museum of Comparative Zoology. His specialty was early reptiles because, he felt, they were the key to understanding the great reptile diversification seen in the Late Paleozoic and Mesozoic Eras (around 230 million years ago). Romer's hypothesis was that some aquatic amphibians that is, amphibians living in water called anthracosaurs began to lay their eggs on land at about the time that they were evolving reptile-like skeletal features. Indeed, some of these early amphibians and earliest reptiles are so similar in their skeletons that the exact transition point from one to the other is still difficult to determine. Eventually, though, the transition was made, but these early reptiles remained aquatic. The advantage for laying eggs on land was primarily to avoid the aquatic larval (pre-adult) stage during which immature amphibians live exclusively in water with its inherent risk of predators and drying of ponds. However, the land has its own set of dangers, not least of which is the drying effect of the atmosphere. To cope with these problems, a series of protective membranes developed around the egg, including a hard shell. Only later did the reptiles completely abandon an aquatic lifestyle.

  2 Another hypothesis was proposed by German paleontologist Rolf Kohring, whose specialty is fossil eggs. In Kohring's model, amphibians during the Mississippian epoch (360-320 million years ago) spread into nutrient-poor or cooler water. Because of the harsher conditions, eggs were produced with larger yolks,that is, more nutrients for the embryo. With larger yolks, the eggs were bigger, and fewer of them could be produced by the female hundreds rather than thousands. ■ To keep the larger egg intact, one or more membranes were developed, including one that surrounded and protected the egg. ■ This outer membrane provided a place to safely store calcium ions, which are poisonous. ■ Accumulating the calcium in a hardshell then made it possible for the egg to be laid on land (it was pre-adapted to be laid there.) ■

  3 One other model we should consider is the anti-predator hypothesis proposed by Gary and Mary Packard to explain the evolution of the hard-shelled egg. Their model was not concerned with the development of membranes surrounding the egg but continues the story after these membranes appeared. The Packards assume that the earliest reptiles laid leathery shelled eggs on very wet ground where they could absorb water during the embryos' growth. But life on the ground is not without hazards, based on studies of modern reptiles with leathery shelled eggs. Predatory insects and microbes can be a major cause of egg mortality. To counter this loss of eggs, some of the early reptiles began secreting a thin calcareous(containing calcium carbonate) layer. This hard layer gave the embryos a better chance of surviving until hatching. And these survivors in turn would probably leave more progeny once a few of them reached reproductive age. In time, a thicker, more resistant shell developed. However, a thicker eggshell meant that less water could be absorbed for the needs of the embryo. To compensate, larger eggs were produced,containing a great deal more albumen (egg white, a water-soluble protein). At this point, the rigid eggshell had reached the bird egg level of complexity.

  4 Mary Packard presented yet another model with her colleague Roger Seymour. They note that amphibian eggs can never get very large because the gelatin coat surrounding the developing larva is not very good at transmitting oxygen. Because of this restriction, we will never see frog eggs the size of a chicken's. For Packard and Seymour, the major evolutionary breakthrough in reptile eggs was the elimination of the thick gelatin coat and replacing part of it with a fibrous membrane. This change allowed larger eggs to be developed.

  1. Which of the sentences below best expresses the essential information in the highlighted sentence in the

  A. During the period that early amphibians changed into reptiles, their skeletons were exactly the same.

  B. It is difficult to identify the time that early amphibians changed to reptiles because their skeletons look so

  much alike.

  C. The skeletons of some early amphibians and reptiles are so similar that it is difficult to say which are

  amphibians and which are reptiles.

  D. Early amphibians and reptiles had the same kind of skeleton at the same point in time.

  2. The word “exclusively” in the passage is closest in meaning to

  A. only

  B. initially

  C. primarily

  D. temporarily

  3. According to paragraph 1, aquatic amphibians laid their eggs on land in order to

  A. enable young amphibians to benefit from a dry atmosphere

  B. ensure the rapid development of a hard shell

  C. enable young amphibians to evolve features necessary for living on land

  D. protect young amphibians from the dangers associated with life in the water

  4. The word “Accumulating” in the passage is closest in meaning to

  A. Forcing

  B. Collecting

  C. Distributing

  D. Isolating

  5. In paragraph 2, why does the author mention the information about calcium ions

  A. To explain Koherig's theory that amphibian eggs developed at least two protective outer membranes

  B. To explain that the calcium in a hard shell is not poisonous when the egg is laid on land

  C. To explain why, according to Kohring, a hard shell evolved

  D. To explain why only the outer membrane stored calcium

  6. Which of the following can be inferred from paragraph 2 about the relationship between eggs and water temperature

  A. Eggs needed adaptations to survive in cold water.

  B. Eggs needed warm water to survive.

  C. Smaller eggs were produced in cold water.

  D. Fewer eggs were produced in warm water.

  7. According to paragraph 2, all of the following are true of the eggs of amphibians during the Mississippian

  epoch EXCEPT:

  A. They had hard shells made from calcium ions.

  B. They had larger yolks than previously.

  C. They had protective membranes.

  D. They were produced in larger quantities than previously.

  8. The word “counter” in the passage is closest in meaning to

  A. escape

  B. stop

  C. combat

  D. delay

  9. According to paragraph 3, early reptiles began to develop a thin calcareous layer around the egg so that

  A. the embryo could survive attacks from predatory insects and microbes

  B. the embryo could absorb sufficient water during its growth

  C. the surviving embryo could reach reproductive age

  D. the egg could be laid on land

  10. Which of the following is mentioned in paragraph 3 as a disadvantage of the hard eggshell

  A. It increased the hatching period.

  B. It prevented the development of large-size eggs.

  C. It made it more difficult for the embryo to obtain water.

  D. It made it harder for the embryo to survive until hatching.

  11. The word “breakthrough” in the passage is closest in meaning to

  A. effect

  B. development

  C. requirement

  D. goal

  12. Which of the following can be inferred from paragraph 4 about the fibrous membrane

  A. It served the same function as the gelatin coat.

  B. It was larger than the gelatin coat.

  C. It allowed amphibians to produce eggs as large as those of reptiles.

  D. It allowed for better transmission of oxygen.

  13. Look at the four squares that indicate where the following sentence could be added to the passage.

  And the relatively few that were produced had to be properly protected.

  Where would the sentence best fit? Click on a square to add the sentence to the passage.

  14. Directions: An introductory sentence for a brief summary of the passage is provided below. Complete

  the summary by selecting the THREE answer choices that express the most important ideas in the passage.

  Some answer choices do not belong in the summary because they express ideas that are not presented in the

  passage or are minor ideas in the passage. This question is worth 2 points.

  Answer Choices

  A. Alfred Romer's hypothesis was that early amphibians started evolving reptilian skeletal features long

  before they started laying eggs on land.

  B. Alfred Romer theorized that early reptiles developed protective membranes around the egg in response to

  the dangers to young amphibians in water and threats to the egg on land.

  C. In Rolf Kohring's view, early reptiles developed protective membranes around the large eggs that were

  produced in harsh water conditions, making it possible for the egg to be laid on land.

  D. Gary and Mary Packard claimed that reptiles developed the hard-shelled egg in order to reduce the rate at

  which eggs were destroyed by predatory insects and microbes.

  E. Rolf Kohring argued that egg development was poor during the Mississippian epoch due to nutrient-poor

  waters.

  F. According to Mary Packard and Roger Seymour, reptiles could not successively develop very large eggs

  because of the elimination of the gelatin coat.

用户评论

陌離

希望能详细说说这篇文章里的2020年托福考试时间预测,到底是怎么预测出来的?有没有什么依据?

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孤廖

这个帖子里提到的"托福阅读考试预测"真的靠谱吗?别到时候我按照这里的预测去答题结果全错的话就尴尬了!

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半梦半醒半疯癫

看来想要好成绩就要提前做好计划啊,2020年的托福考试时间早点了解一下,这样才能更好地安排备考。托福阅读难度大,好好准备才能稳住!

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请在乎我1秒

上午和下午考试?这有什么区别吗?会不会影响发挥?不知道应该选择哪个时段比较好?希望能详细解答一下...

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青山暮雪

终于找到2020年托福考试时间预测的文章了!之前一直查不到准确的消息,这里面提到“ 阅读考试 ”的内容确实有帮助,我准备冲刺托福阅读的难点!

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雨后彩虹

这个预测挺准的!我的朋友就是按照这个时间表考过的,他说这篇文章说的很详细也很实用!

    有10位网友表示赞同!

又落空

2020年的考试时间确定了,赶紧查阅一下“阅读考试”的内容,托福阅读考试总是会让我头疼啊...

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你的眸中有星辰

这份预测对我很宝贵啊!因为我计划在2020年参加托福考试,早上或下午的考试时间对我来说都一样容易接受。感谢博主分享!

    有14位网友表示赞同!

墨城烟柳

这个预测准确吗?感觉还是应该多查官方消息更靠谱吧?这些预测文章虽然好但也不一定全对。

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矜暮

我特别关注“托福阅读考试预测 ”部分,希望它能给我一些方向和准备方法,希望能考到理想的成绩!

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伤离别

感觉这篇文章挺棒的,对2020年托福考试时间安排给了一个很清晰的框架。提前知道这些信息确实可以帮助我们更好地规划备考计划!

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墨城烟柳

文章提到"托福阅读" 是一个高难度部分,的确如此!这段时间一直在针对 "阅读考试“进行加强训练,希望自己能够在2020 年的考试中取得好成绩

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绳情

这篇文章很有参考价值,让我对2020年的托福考试时间有了更详细的了解。尤其是在准备 “阅读考试”方面,这篇文章提到的预测很有帮助!

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仅有的余温

文章写的不错,分析的很到位,特别是针对"托福阅读考试预测" 的部分,我很感兴趣,希望能看到更多具体的考题解析!

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断秋风

我担心自己准备的时间不够充足,2020年的 "托福阅读考试" 会对我不太友好吗?希望能够制定一个合理的学习计划来提高我的阅读能力。

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孤街浪途

我已经开始为2020年的托福考试做准备了,这篇文章介绍的考试时间和预测很有帮助。我要好好掌握“阅读考试”的内容,争取在考试中发挥出色!

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闷骚闷出味道了

我明年打算参加托福考试, 现在就该查阅相关的预测信息了. 文章里提到的 "上午和下午" 的考试安排提醒我要提前做好心理准备, 找到最适合自己的备考节奏!

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执拗旧人

这篇博文很有价值,尤其是对于那些计划在2020年参加托福考试的学生来说非常实用。文章对 “ 阅读考试”的预测让我更加了解考试走向,可以进行更有针对性的复习!

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