Click on an oval to select your answer. To choose a different answer,
click one different oval.
我的笔记 编辑笔记
In the late nineteenth century, ecology began to grow into an independent science from its roots in natural history and plant geography. The emphasis of this new "community ecology" was on the composition and structure of communities consisting of different species. In the early twentieth century, the American ecologist Frederic Clements pointed out that a succession of plant communities would develop after a disturbance such as a volcanic eruption, heavy flood, or forest fire. An abandoned field, for instance, will be invaded successively by herbaceous plants (plants with little or no woody tissue), shrubs, and trees, eventually becoming a forest. Light-loving species are always among the first invaders, while shade-tolerant species appear later in the succession.
Clements and other early ecologists saw almost lawlike regularity in the order of succession, but that has not been substantiated. A general trend can be recognized, but the details are usually unpredictable. Succession is influenced by many factors: the nature of the soil, exposure to sun and wind, regularity of precipitation, chance colonizations, and many other random processes.
The final stage of a succession, called the climax by Clements and early ecologists, is likewise not predictable or of uniform composition. There is usually a good deal of turnover in species composition, even in a mature community. The nature of the climax is influenced by the same factors that influenced succession. Nevertheless, mature natural environments are usually in equilibrium. They change relatively little through time unless the environment itself changes.
For Clements, the climax was a "superorganism," an organic entity. Even some authors who accepted the climax concept rejected Clements' characterization of it as a superorganism, and it is indeed a misleading metaphor. An ant colony may be legitimately called a superorganism because its communication system is so highly organized that the colony always works as a whole and appropriately according to the circumstances. But there is no evidence for such an interacting communicative network in a climax plant formation. Many authors prefer the term "association" to the term "community" in order to stress the looseness of the interaction.
Even less fortunate was the extension of this type of thinking to include animals as well as plants. This resulted in the "biome," a combination of coexisting flora and fauna. Though it is true that many animals are strictly associated with certain plants, it is misleading to speak of a "spruce-moose biome," for example, because there is no internal cohesion to their association as in an organism. The spruce community is not substantially affected by either the presence or absence of moose. Indeed, there are vast areas of spruce forest without moose. The opposition to the Clementsian concept of plant ecology was initiated by Herbert Gleason, soon joined by various other ecologists. Their major point was that the distribution of a given species was controlled by the habitat requirements of that species and that therefore the vegetation types were a simple consequence of the ecologies of individual plant species.
With "climax," "biome," "superorganism," and various other technical terms for the association of animals and plants at a given locality being criticized, the term "ecosystem" was more and more widely adopted for the whole system of associated organisms together with the physical factors of their environment. Eventually, the energy-transforming role of such a system was emphasized. Ecosystems thus involve the circulation, transformation, and accumulation of energy and matter through the medium of living things and their activities. The ecologist is concerned primarily with the quantities of matter and energy that pass through a given ecosystem, and with the rates at which they do so.
Although the ecosystem concept was very popular in the 1950s and 1960s, it is no longer the dominant paradigm. Gleason's arguments against climax and biome are largely valid against ecosystems as well. Furthermore, the number of interactions is so great that they are difficult to analyze, even with the help of large computers. Finally, younger ecologists have found ecological problems involving behavior and life-history adaptations more attractive than measuring physical constants. Nevertheless, one still speaks of the ecosystem when referring to a local association of animals and plants, usually without paying much attention to the energy aspects.
题型分类:句子简化题
题干分析:
简化句的句子结构分析:
With "climax," "biome," "superorganism," and various other technical terms(介词短语,作伴随状语)
for the association of animals and plants(介词短语修饰前一个介词短语)
at a given locality being criticized(介词短语,作前半部分句子的状语)
所以逗号之前的句子,都是介词短语作状语的成分,都是辅助信息
后半句的主干:
the term “ecosystem” was more and more widely adopted(“生态系统”的定义被广泛地接受)
for the whole system of associated organisms together with the physical factors of their environment(作状语,解释说明)
通过对比前后句的内容,可知整句话将"climax," "biome," "superorganism," and various other technical terms和the term “ecosystem”两部分的被接受情况进行对比分析,前者是being criticized,后者是widely adopted。
因此可知,可知整句话中存在潜在的转折对比关系(逻辑关系)
选项分析:
选项A后半句中的the physical factors within an environment错误;
选项B混淆了原句的主干信息,错误信息;
选项C错误的逻辑关系,原句不存在when, the older terms of ecology这些信息;
选项D概括了简化句部分的意思,主要说the term “ecosystem”被广泛接受后,逐渐会取代原来的那些terms("climax," "biome," "superorganism," and various other technical terms)。
如果对题目有疑问,欢迎来提出你的问题,热心的小伙伴会帮你解答。