出国留学网

目录

2018年4月21日托福考试阅读机经

字典 |

2018-04-17 10:41

|

【 liuxue86.com - 托福机经 】

  4月15日的托福考试已经过去了,很快就是4月21日的托福考试了,大家对于考试有没有信心呢,下面和出国留学网小编一起来看看2018年4月21日托福考试阅读机经。

  2018年4月21日托福考试阅读机经预测(部分内容展示):

  P1: Vegetation of the sea is more primitive on the evolutionary scale than that of the land. Different varieties of seaweed vary tremendously in form and elaborateness of organization, ranging from single-celled, microscopic flagellates to giant kelp which grow to be five or six hundred feet long. They have no flowers or seeds, their reproduction and distribution being accomplished by asexual spores which are simpler structures than seeds. They do not have roots but are anchored to the substratum by a structure called a “holdfast" and absorb necessary mineral nutrients directly from the sea water through their leaf-like fronds. Like land plants, they possess chlorophyll and carry out photosynthesis, through which they utilize the energy of sunlight to synthesize carbohydrates, proteins, and fats from water, carbon dioxide, and, as required, other inorganic chemicals. These products differ chemically from their analogues in land plants, however.

(图片转自百度)

  •P2: Seaweeds are found throughout the world's oceans and seas, inhabiting about 2 percent of the seafloor. Most species of seaweed live directly on the seafloor where they grow on rock, sand, mud, and coral. Other species live on other organisms and as part of artificial surfaces like fouling communities (plants and animals that live on pilings, boat bottoms, and the like). Some seaweeds are very selective about the surfaces they attach to, whereas other seaweeds do not have this degree of specialization. The presence of benthic (living on the seafloor) seaweeds defines the inner continental shelf, where the marine community largely depends on the food and protection that seaweeds provide. Life on the outer continental shelf and in the deep sea is quite different in the absence of seaweeds. The distinction between the inner and outer shelves is based on the compensation depth of algae. The compensation depth is the depth of water at which there is just enough light for algae to survive. At that depth all the oxygen produced by photosynthesis is consumed by the algae's respiration, so that no further growth can occur.

  •P3: Seaweed boundaries are not necessarily stable. The areas of the world most favorable to seaweed diversity include both sides of the North Pacific Ocean, Australia, southwestern Africa, and the Mediterranean Sea. Several physical and biological factors have been mentioned as potentially restrictive to seaweed distribution. Among these, temperature, sometimes in combination with some specific day length requirements for reproduction, is probably the most important. Some other factors critical in governing the distribution of seaweeds are duration of tidal exposure and desiccation, wave action and surge, salinity, and availability of mineral nutrients.

  P4: Adaptation as applied to marine algae provides one of the simplest and most attractive examples of the physiological adaptation of plants to the environmental conditions in which they live. It is almost certainly for this reason that the theory was proposed that the vertical distribution of red, brown, and green algae could be explained by their accessory photosynthetic pigments, the presence of which gives the seaweeds their characteristic colors, a concept known as chromatic adaptation. The most frequently cited evidence involving marine algae is a study by Levring (1947), in which the photosynthesis of green algae was shown to decrease with depth in coastal waters more rapidly than the underwater irradiance. The concept of chromatic adaptation was proposed in 1883 and was accepted for about 100 years, until it was realized that such zonation did not necessarily occur and that the distribution of seaweeds depended more on herbivory (the consumption of plant material), competition, varying concentration of the specialized pigments, and the ability of seaweeds to alter their forms of growth. Indeed, some recent evidence would seem to support the hypothesis of chromatic adaptation because the depth record (295 meters, or 973 feet) for seaweeds is held by a yet undescribed species of red algae from the Bahamas, However, the green alga Rhipiliopsis profunda is close behind this record at 268 meters (884 feet).

  •P5: Temperature determines the performance of seaweeds, and indeed all organisms, at the fundamental levels of enzymatic processes and metabolic function. The greatest diversity of algal species is in tropical waters. Theoretically, increased warmth should fuel the growth of seaweed—as evidenced by seasonal dead zones that form at the mouths of many rivers worldwide when the plants bloom, die and, while decaying, suck up all the available oxygen in the seawater. But temperature is not usually a limiting factor for algae that live in tropical and subtropical seas. Although temperatures in intertidal areas (those areas between high and low tides) may become too warm and contribute to seasonal mass mortality of many seaweeds and the animals they shelter. Some researchers found that increasing temperatures, although initially enhancing the growth of phytoplankton, also allowed increased grazing by zooplankton (microscopic animals) and bacteria. "As temperature raises, the zooplankton start to grow faster than the phytoplankton," O'Connor explains. "The zooplankton are more abundant and faster-growing, and are able to eat all the phytoplankton in warmer water. This creates a bottleneck in the food chain that could have large implications for the ocean's food web."

  题目:

  1.word “artificial” in the paragraph 2 is closest in meaning to

  A. suitable

  B. human-made

  C. uneven

  D. available

  2. What can be inferred from paragraph 2 about the outer continental shelf?

  A. The outer continental shelf contains more benthic seaweeds than the deep sea does.

  B. The outer continental shelf lacks enough sunlight to support the growth of algae.

  C. The outer continental shelf has a compensation depth that is about the same as that of the inner continental shelf.

  D. The outer continental shelf has a greater variety of marine life than does the inner continental shelf.

  3. According to paragraph 2, all of the following are true of seaweeds EXCEPT:

  A. Seaweeds provide food and protection for other organisms.

  B. Seaweeds can grow on both living and nonliving things.

  C. Some seaweeds select specific surfaces to attach to, while others are not selective.

  D. Two percent of seaweed species live on the ocean floor.

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

  A. frequency

  B. force of impact

  C. length of time

  D. occurrence

  推荐阅读:

  2018年4月21日托福考试写作机经

  2018年4月21日托福考试口语机经

  2018年4月15日托福考试阅读机经预测

  想了解更多托福机经网的资讯,请访问: 托福机经

本文来源:https://toefl.liuxue86.com/t/3699588.html
延伸阅读
6月份的托福考试就快来了,那么考试机经有哪些呢?这是不少出国人士比较关心的问题,和出国留学网一起来看看2019年6月托福写作机经!欢迎阅读。独立写作IndependentWriti
2019-05-30
大家可能在备考的时候都会看到很多网站都有自己的托福机经,那么托福机经是什么呢,应该如何使用呢,下面和出国留学网小编一起来看看托福机经高效使用法。什么是托福机经预测?每次托福考试都有
2019-05-17
在托福考试中,得作文者得天下,因为作文的分数,所占的比重非常大。今天就跟着出国留学网一起来看看2018年11月24日托福作文考试机经。1.Doyouagreeordisagreew
2018-11-26
口语是托福考试中非常重要的一部分,大家对于最新一期的考试,肯定也是非常重视的,那么接下来就和出国留学网看看2019年11月24日托福口语考试机经。1.Whoselecturewou
2018-11-26
关于2018年11月24日的托福听力考试,想必大家都非常感兴趣,那么今天就跟着出国留学网来看看2018年11月24日托福听力考试机经。题目isthelecturemainlyabo
2018-11-26
对于托福阅读而言,了解一些托福阅读真题的素材是非常重要的,那么下面就和出国留学网的小编一起来看看2019年7月7日托福阅读机经整理。PassageOne学科分类:社会题目:Twof
2019-07-09
如果大家想要在托福考试中取得一个好成绩,那么就一定要重视阅读,怎样才能考出好成绩呢?接下来就和出国留学网看看2018年11月24日托福阅读考试机经。VocalizationinFr
2018-11-26
很多准备7月份考试的同学早就盼望着这一期的机经了吧!那么接下来就和出国留学网的小编一起来看看2019年7月7日托福写作机经。综合阅读:monarchbutterflymonarch
2019-07-09
对于想练习托福口语的同学来说,机经是比较口语用来进行练习的好材料,那么下面就和出国留学网的小编一起来看看2019年7月7日托福口语机经。Task1Oneofyourfriendde
2019-07-09
准备7月份考试的同学可以看看小编整理的最新机经,那么下面就和出国留学网一起来看看2019年7月7日托福听力机经。Conversation1话题分类:学生和教授内容回忆:学生找到教授
2019-07-09