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OFFICIAL53 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 sentences 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. Drag your answer choices to the spaces where they belong. To remove an answer choice, click on it. To review the passage, click VIEW TEXT. Although tropical rain forest plants grow vigorously, the clay soils of tropical rain forests are very low in mineral nutrients.

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Rain Forest Soils
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On viewing the lush plant growth of a tropical rain forest, most people would conclude that the soil beneath it is rich in nutrients. However, although rain forest soils are highly variable, they have in common the fact that abundant rainfall washes mineral nutrients out of them and into streams. This process is known as leaching. Because of rain leaching, most tropical rain forest soils have low to very low mineral nutrient content, in dramatic contrast to mineral-rich grassland soils. Tropical forest soils also often contain particular types of clays that, unlike the mineral-binding clays of temperate forest soils, do not bind mineral ions well. Aluminum is the dominant cation (positively charged ion) present in tropical soils; but plants do not require this element, and it is moderately toxic to a wide range of plants. Aluminum also reduces the availability of phosphorus, an element in high demand by plants.

High moisture and temperatures speed the growth of soil microbes that decompose organic compounds, so tropical soils typically contain far lower amounts of organic materials (humus) than do other forest or grassland soils. Because organic compounds help loosen compact clay soils, hold water, and bind mineral nutrients, the relative lack of organic materials in tropical soils is deleterious to plants. Plant roots cannot penetrate far into hard clay soils, and during dry periods, the soil cannot hold enough water to supply plant needs. Because the concentration of dark-colored organic materials is low in tropical soils, they are often colored red or yellow by the presence of iron, aluminum: and manganese oxides; when dry, these soils become rock hard. The famous Cambodian temples of Angkor Wat, which have survived for many centuries, were constructed from blocks of such hard rain forest soils.

Given such poor soils, how can lush tropical forests exist? The answer is that the forest's minerals are held in its living biomass—the trees and other plants and the animals. In contrast to grasslands, where a large proportion of plant biomass is produced underground, that of tropical forests is nearly all aboveground. Dead leaves, branches, and other plant parts, as well as the wastes and bodies of rain forest animals, barely reach the forest floor before they are rapidly decayed by abundant decomposers—bacterial and fungal. Minerals released by decay are quickly absorbed by multitudinous shallow, fine tree feeder roots and stored in plant tissues. Many tropical rain forest plants (like those in other forests) have mycorrhizal (fungus-root) partners whose delicate hyphae spread through great volumes of soil, from which they release and absorb minerals and ferry them back to the host plant in exchange for needed organic compounds. The fungal hyphae are able to absorb phosphorus that plant roots could not themselves obtain from the very dilute soil solutions, and fungal hyphae can transfer mineral nutrients from one forest plant to another. Consequently, tropical rain forests typically have what are known as closed nutrient systems, in which minerals are handed off from one organism to another with little leaking through to the soil. When mineral nutrients do not spend much time in the soil, they cannot be leached into streams. Closed nutrient systems have evolved in response to the leaching effects of heavy tropical rainfall. Evidence for this conclusion is that nutrient systems are more open in the richest tropical soils and tightest in the poorest soils.

The growth of organisms is dependent on the availability of nutrients, none of which is more important than nitrogen. Although there is an abundant supply of nitrogen in Earth’s atmosphere, it cannot be absorbed by plants unless it is “fixed,” or combined chemically with other elements to form nitrogen compounds. Nitrogen-fixing bacteria help tropical rain forest plants cope with the poor soils there by supplying them with needed nitrogen. Many species of tropical rain forest trees belong to the legume family, which is known for associations of nitrogen-fixing bacteria within root nodules. Also, cycads (a type of tropical plant that resembles a palm tree) produce special aboveground roots that harbor nitrogen-fixing cyanobacteria. By growing above the ground, the roots are exposed to sunlight, which the cyanobacteria require for growth. Nitrogen fixation by free-living bacteria in tropical soils is also beneficial.

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 sentences 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. Drag your answer choices to the spaces where they belong. To remove an answer choice, click on it. To review the passage, click VIEW TEXT. Although tropical rain forest plants grow vigorously, the clay soils of tropical rain forests are very low in mineral nutrients.

A.Clays with poor mineral-binding capacities plus low levels of organic compounds that result from rapid decomposition produce compacted soils that are highly vulnerable to rain leaching.

B.Plants are able to tolerate the high levels of aluminum in tropical rain forest soils only because of bacteria and fungi that neutralize aluminum while absorbing and transferring phosphorus.

C.Because water does not penetrate deep into tropical rain forest soils, most trees growing in such soils have shallow feeder roots that spread over large areas in search of adequate moisture.

D.The delicate fungal hyphae that extend throughout most tropical rain forest soil help maintain soil quality by transferring excess nutrients from plant tissues back into the soil.

E.Tropical rain forests have evolved closed nutrient systems, in which plants and their fungal partners transfer mineral nutrients among organisms with little leaching through to the soil.

F.Nitrogen-fixing bacteria in the soil and within the roots and root nodules of many plants provide rain forest plants with the nitrogen needed to help compensate for poor soils.

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【题目翻译】说明:下面是文章的简要概括的介绍句。通过选择三个答案来完成总结,这三个答案表达了文章中最重要的观点。有些句子不属于摘要,因为它们表达了文章中没有呈现的想法,或者是文章中的次要思想。 虽然热带雨林植物生长旺盛,但热带雨林的黏土矿质养分含量很低。 A:矿物结合能力差的粘土加上快速分解产生的低水平的有机化合物会产生紧实的土壤,这些土壤极易受到雨水淋滤。 B:植物能够耐受热带雨林土壤中高水平的铝仅仅是因为细菌和真菌在吸收和转移磷的同时中和铝。 C:因为水不能深入热带雨林土壤,所以在这种土壤中生长的大多数树都有很浅的喂养根,它们分布在大面积以寻找足够的水分。 D:遍布大多数热带雨林土壤的微妙真菌菌丝通过将植物组织中多余的养分转移到土壤中来帮助保持土壤质量。 E:热带雨林已经形成了封闭的养分系统,植物和它们的真菌伙伴在有机体之间转移矿物质养分,很少渗漏到土壤中。 F:许多植物的根和根瘤内土壤中的固氮细菌为雨林植物提供帮助补偿贫瘠土壤所需的氮。 【判定题型】根据问题的提问方式和6选3的作答方式可以确定该题目为概要小结题。 【选项定位及分析】 选项A正确概括了第一段的主要内容,则A选项正确; 选项B里说植物可以忍受高浓度的铝元素,无中生有,不选; 选项C错在因果关系上,植物根茎短浅不是因为水无法渗透到土壤深处,原文中并没有提到过这个信息,不选; 选项D定位到in which minerals are handed off from one organism to another with little leaking through to the soil,闭合的营养系统是在有机体之间传送营养物质,不是在植物和真菌间,错误; 选项E正确概括了倒数第二段后半段的主要内容,则E选项正确; 选项F正确概括了最后一段的主要内容,则F选项正确。

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