2020-02-19
1、题目
题目 | 答案 |
---|---|
1.What does the professor mainly discuss? A. The importance of zooplankton in the marine food chain B. The interdependence of two types of tiny marine organisms C. A physical feature of zooplankton that makes them well adapted for swimming D. A phenomenon observed in some species of zooplankton |
D |
2.Why does the professor conclude that zooplankton must derive an important benefit from diel vertical migration? A. Diel vertical migration uses up a lot of energy. B. Diel vertical migration exposes zooplankton to predators. C. Diel vertical migration prevents zooplankton from being able to digest phytoplankton. D. Diel vertical migration forces zooplankton populations to live permanently in cold water. |
A |
3.What does the professor imply about bioluminescent zooplankton? A. Their food source is different from that of other zooplankton. B. They probably do not rely on diel vertical migration to avoid predation. C. They migrate deeper than other zooplankton species do. D. Most species are found in very cold water. |
B |
4.Why does the professor mention fish that live in freshwater lakes? A. To point out that many aquatic species exhibit diel vertical migration B. To give an example of a species of fish that feeds on bioluminescent zooplankton C. To make a comparison between fish and zooplankton D. To support one of the theories explaining why zooplankton migrate |
D |
5.Avoiding predators is one possible explanation for why zooplankton dive so deeply in the ocean. What two other explanations for this phenomenon does the professor offer? [Click on 2 answers.] A. To avoid ultraviolet light B. To avoid strong ocean currents C. To digest in colder waters D. To find abundant food sources. |
AC |
6.What does the professor imply about the reasons for diel vertical migration in zooplankton? A. No single explanation for all species can account for this phenomenon. B. Researchers have not been able to propose plausible theories to explain this phenomenon. C. All individual organisms have several reasons for migrating. D. Researchers were able to agree on an explanation for this phenomenon after many years of investigation. |
A |
2、单词积累
单词 | 音标 | 释义 |
---|---|---|
be teeming with | /tiːmɪŋ/ | 到处都是;充满了 |
microscopic | /ˌmaɪkrəˈskɑːpɪk/ | 极小的; 微小的; 需用显微镜观察的; 使用显微镜的; |
algae | /ˈældʒiː/ | 海藻;alga的复数 |
bulk | /bʌlk/ | n. 主体; 大部分; v. 变得巨大(重要); 胀大; |
plankton | /ˈplæŋktən/ | 浮游生物; |
grapple | /ˈɡræpl/ | v. 扭打; 搏斗; 努力设法解决; |
capacity | /kəˈpæsəti/ | 能力 |
stimulus | /ˈstɪmjələs/ | 刺激元素; 促进原因 |
bioluminescent | /‘bioluməˈnɛsənt | 生物发光的; |
correlation | /ˌkɔːrəˈleɪʃn/ | 相互关系; 相关; 关联; |
3、原文解析
And the sea is teeming with tiny organisms, but they don’t get as much popular attention as, say, whales.
Microscopic algae just aren’t as exciting, I suppose, and yet those organisms are the foundation of the bulk of the marine food chain. Without plankton, which is the global term for these tiny organisms, there would be no whales.
Plankton is found both in freshwater and marine environments. Again, it’s a term we use for any small organisms that float along with the current, either because they’re too small or weak to swim against it, or because they don’t have any capacity at all to move by themselves. Plants and plantlike plankton are called phytoplankton, while animals and animal-like plankton are called zooplankton.
For over a century now, researchers have been trying to solve a mystery about zooplankton. You see, some species of zooplankton migrate, er, n-n-not the way birds do when the seasons change, but daily, in a phenomenon we call diel vertical migration, or DVM.
In their diel vertical migration, zooplankton swim up near the surface of the water during the night and swim down to deeper water during the day. Depending on the species and region, this can be a round trip of between one hundred and four hundred meters. For a tiny microscopic organism, that’s a huge distance!
Remember now, zooplankton can’t swim very well, and DVM requires a lot of energy, so there must be an important benefit to this daily up and down commuting. We’re not exactly sure what this benefit is, though there are several compelling theories. I’ll talk about them in a moment, but first, I want to talk about what we do know, or rather, what we’re pretty sure we know.
So, researchers generally agree that the stimulus for zooplankton DVM is light.
Zooplankton tend to swim away from sunlight into deeper water where the Sun’s rays barely penetrate. At night, when the Sun no longer illuminates shallower water, zooplankton head back toward the surface.
Now, why would light cause zooplankton to expend all that energy and migrate? One popular theory is that zooplankton are hiding during the day from visual predators, uh, those animals that hunt by sight. The darkness provides safety during the day. Then at night, after migrating upward, they have an opportunity to feed on phytoplankton that float at the surface. Makes sense, doesn’t it? But what do we do with the data showing that many kinds of zooplankton don’t dive deep enough during the day to become invisible to predators? Or that others dive deeper than is necessary to escape hunters’ eyes? And that some zooplankton are bioluminescent? Which means they have special organs that light up and make them visible even at great depths. Well, despite all this, we believe predator avoidance is a possible explanation because of studies done in freshwater lakes. It turns out there’s a correlation between the presence or absence of vertical migration and the presence or absence of fish that find their prey by sight.
But what are some other possible explanations? Some researchers suggest that zooplankton migrate to avoid the Sun’s ultraviolet light. That would explain why some zooplankton are found at such great depths—visible light may not penetrate very far down, but ultraviolet light can. And we know that some zooplankton have special pigments that protect them from the damage ultraviolet light can cause. That could be why some zooplankton are able to stay closer to the surface during daylight hours.
And there’s a third theory. Although it takes a lot of energy for the zooplankton to migrate, they conserve energy while floating in deeper, colder water. So, while they’re not feeding, they’re quietly digesting in cooler water. But remember, zooplankton consist of any number of different organisms, from microscopic worms to crab larvae to tiny fish, and they are found in a large range of marine habitats—cold water, warm water, shallow water, deep water…so, there may be different reasons for different species.