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劍橋雅思閱讀7原文(test3)

　　READING PASSAGE 1

　　You should spend about 20 minutes on Questions 1-13, which are based on Reading Passage 1 below.

　　Ant Intelligence

　　When we think of intelligent members of the animal kingdom, the creatures that spring immediately to mind are apes and monkeys. But in fact the social lives of some members of the insect kingdom are sufficiently complex to suggest more than a hint of intelligence. Among these, the world of the ant has come in for considerable scrutiny lately, and the idea that ants demonstrate sparks of cognition has certainly not been rejected by those involved in these investigations.

　　Ants store food, repel attackers and use chemical signals to contact one another in case of attack. Such chemical communication can be compared to the human use of visual and auditory channels (as in religious chants, advertising images and jingles, political slogans and martial music) to arouse and propagate moods and attitudes. The biologist Lewis Thomas wrote, ‘Ants are so much like human beings as to be an embarrassment. They farm fungi, raise aphids_as livestock, launch armies to war, use chemical sprays to alarm and confuse enemies, capture slaves, engage in child labour, exchange information ceaselessly. They do everything but watch television.’

　　However, in ants there is no cultural transmission — everything must be encoded in the genes — whereas in humans the opposite is true. Only basic instincts are carried in the genes of a newborn baby, other skills being learned from others in the community as the child grows up. It may seem that this cultural continuity gives us a huge advantage over ants. They have never mastered fire nor progressed. Their fungus farming and aphid herding crafts are sophisticated when compared to the agricultural skills of humans five thousand years ago but have been totally overtaken by modern human agribusiness.

　　Or have they? The farming methods of ants are at least sustainable. They do not ruin environments or use enormous amounts of energy. Moreover, recent evidence suggests that the crop farming of ants may be more sophisticated and adaptable than was thought.

　　Ants were farmers fifty million years before humans were. Ants can’t digest the cellulose in leaves — but some fungi can. The ants therefore cultivate these fungi in their nests, bringing them leaves to feed on, and then use them as a source of food. Farmer ants secrete antibiotics to control other fungi that might act as ‘weeds’, and spread waste to fertilise the crop.

　　It was once thought that the fungus that ants cultivate was a single type that they had propagated, essentially unchanged from the distant past. Not so. Ulrich Mueller of Maryland and his colleagues genetically screened 862 different types of fungi taken from ants’ nests. These turned out to be highly diverse: it seems that ants are continually domesticating new species. Even more impressively, DNA analysis of the fungi suggests that the ants improve or modify the fungi by regularly swapping and sharing strains with neighbouring ant colonies.

　　Whereas prehistoric man had no exposure to urban lifestyles — the forcing house of intelligence — the evidence suggests that ants have lived in urban settings for close on a hundred million years, developing and maintaining underground cities of specialised chambers and tunnels.

　　When we survey Mexico City, Tokyo, Los Angeles, we are amazed at what has been accomplished by humans. Yet Hoelldobler and Wilson’s magnificent work for ant lovers, The Ants, describes a supercolony of the ant Formica yessensis on the Ishikari Coast of Hokkaido. This ‘megalopolis’ was reported to be composed of 360 million workers and a million queens living in 4,500 interconnected nests across a territory of 2.7 square kilometres.

　　Such enduring and intricately meshed levels of technical achievement outstrip by far anything achieved by our distant ancestors. We hail as masterpieces the cave paintings in southern France and elsewhere, dating back some 20,000 years. Ant societies existed in something like their present form more than seventy million years ago. Beside this, prehistoric man looks technologically primitive. Is this then some kind of intelligence, albeit of a different kind?

　　Research conducted at Oxford, Sussex and Zurich Universities has shown that when desert ants return from a foraging trip, they navigate by integrating bearings and distances, which they continuously update in their heads. They combine the evidence of visual landmarks with a mental library of local directions, all within a framework which is consulted and updated. So ants can learn too.

　　And in a twelve-year programme of work, Ryabko and Reznikova have found evidence that ants can transmit very complex messages. Scouts who had located food in a maze returned to mobilise their foraging teams. They engaged in contact sessions, at the end of which the scout was removed in order to observe what her team might do. Often the foragers proceeded to the exact spot in the maze where the food had been. Elaborate precautions were taken to prevent the foraging team using odour clues. Discussion now centres on whether the route through the maze is communicated as a ‘left-right’ sequence of turns or as a ‘compass bearing and distance’ message.

　　During the course of this exhaustive study, Reznikova has grown so attached to her laboratory ants that she feels she knows them as individuals — even without the paint spots used to mark them. It’s no surprise that Edward Wilson, in his essay, ‘In the company of ants’, advises readers who ask what to do with the ants in their kitchen to: ‘Watch where you step. Be careful of little lives.’

　　Questions 1-6

　　Do the following statements agree with the information given in Reading Passage 1?

　　In boxes 1-6 on your answer sheet, write

　　TRUE if the statement agrees with the information

　　FALSE if the statement contradicts the information

　　NOT GIVEN if there is no information on this

　　1 Ants use the same channels of communication as humans do.

　　2 City life is one factor that encourages the development of intelligence.

　　3 Ants can build large cities more quickly than humans do.

　　4 Some ants can find their way by making calculations based on distance and position.

　　5 In one experiment, foraging teams were able to use their sense of smell to find food.

　　6 The essay, ‘In the company of ants’, explores ant communication.

　　Questions 7-13

　　Complete the summary using the list of words, A-O, below.

　　Write the correct letter, A-O, in boxes 7-13 on your answer sheet.

　　Ants as farmers

　　Ants have sophisticated methods of farming, including herding livestock and growing crops, which are in many ways similar to those used in human agriculture. The ants cultivate a large number of different species of edible fungi which convert 7..............into a form which they can digest. They use their own natural 8..............as weed-killers and also use unwanted materials as 9.............. . Genetic analysis shows they constantly upgrade these fungi by developing new species and by 10..............species with neighbouring ant colonies. In fact, the farming methods of ants could be said to be more advanced than human agribusiness, since they use 11..............methods, they do not affect the 12..............and do not waste 13.............. .

　　A aphids B agricultural C cellulose D exchanging

　　E energy F fertilizers G food H fungi

　　I growing J interbreeding K natural L other speces

　　M secretions N sustainable O environment

　　READING PASSAGE 2

　　You should spend about 20 minutes on Questions 14-26, which are based on Reading Passage 2 on the following pages.

　　Questions 14-19

　　Reading Passage 2 has seven sections, A-G.

　　Choose the correct headings for sections A-F from the list of headings below.

　　Write the correct number, i-x, in boxes 14-19 on your answer sheet.

　　List of Headings

　　i The results of the research into blood-variants

　　ii Dental evidence

　　iii Greenberg’s analysis of the dental and linguistic evidence

　　iv Developments in the methods used to study early population movements

　　v Indian migration from Canada to the U.S.A.

　　vi Further genetic evidence relating to the three-wave theory

　　vii Long-standing questions about prehistoric migration to America

　　viii Conflicting views of the three-wave theory, based on non-genetic evidence

　　ix Questions about the causes of prehistoric migration to America

　　x How analysis of blood-variants measures the closeness of the relationship between different populations

　　14 Section A

　　15 Section B

　　16 Section C

　　17 Section D

　　18 Section E

　　19 Section F

　　Example Answer

　　Section G viii

　　Population movements and genetics

　　A Study of the origins and distribution of human populations used to be based on archaeological and fossil evidence. A number of techniques developed since the 1950s, however, have placed the study of these subjects on a sounder and more objective footing. The best information on early population movements is now being obtained from the ‘a(chǎn)rchaeology of the living body’, the clues to be found in genetic material.

　　B Recent work on the problem of when people first entered the Americas is an example of the value of these new techniques. North-east Asia and Siberia have long been accepted as the launching ground for the first human colonisers of the New World1. But was there one major wave of migration across the Bering Strait into the Americas, or several? And when did this event, or events, take place? In recent years, new clues have come from research into genetics, including the distribution of genetic markers in modern Native Americans2.

　　C An important project, led by the biological anthropologist Robert Williams, focused on the variants (called Gm allotypes) of one particular protein — immunoglobin G — found in the fluid portion of human blood. All proteins ‘drift’, or produce variants, over the generations, and members of an interbreeding human population will share a set of such variants. Thus, by comparing the Gm allotypes of two different populations (e.g. two Indian tribes), one can establish their genetic ‘distance’, which itself can be calibrated to give an indication of the length of time since these populations last interbred.

　　D Williams and his colleagues sampled the blood of over 5,000 American Indians in western North America during a twenty-year period. They found that their Gm allotypes could be divided into two groups, one of which also corresponded to the genetic typing of Central and South American Indians. Other tests showed that the Inuit (or Eskimo) and Aleut3 formed a third group. From this evidence it was deduced that there had been three major waves of migration across the Bering Strait. The first, Paleo-lndian, wave more than 15,000 years ago was ancestral to all Central and South American Indians. The second wave, about 14,000-12,000 years ago, brought Na-Dene hunters, ancestors of the Navajo and Apache (who only migrated south from Canada about 600 or 700 years ago). The third wave, perhaps 10,000 or 9,000 years ago, saw the migration from North-east Asia of groups ancestral to the modern Eskimo and Aleut.

　　E How far does other research support these conclusion? Geneticist Douglas Wallace has studied mitochondrial DNA4 in blood samples from three widely separated Native American groups: Pima-Papago Indians in Arizona, Maya Indians on the Yucatan peninsula, Mexico, and Ticuna Indians in the Upper Amazon region of Brazil. As would have been predicted by Robert Williams’s work, all three groups appear to be descended from the same ancestral (Paleo-lndian) population.

　　F There are two other kinds of research that have thrown some light on the origins of the Native American population; they involve the study of teeth and of languages. The biological anthropologist Christy Turner is an expert in the analysis of changing physical characteristics in human teeth. He argues that tooth crowns and roots5 have a high genetic component, minimally affected by environmental and other factors. Studies carried out by Turner of many thousands of New and Old World specimens, both ancient and modern, suggest that the majority of prehistoric Americans are linked to Northern Asian populations by crown and root traits such as incisor6 shoveling (a scooping out on one or both surfaces of the tooth), single-rooted upper first premolars6 and triple-rooted lower first molars6.

　　According to Turner, this ties in with the idea of a single Paleo-lndian migration out of North Asia, which he sets at before 14,000 years ago by calibrating rates of dental micro-evolution. Tooth analyses also suggest that there were two later migrations of Na-Denes and Eskimo-Aleut.

　　G The linguist Joseph Greenberg has, since the 1950s, argued that all Native American languages belong to a single ‘Amerind’ family, except for Na-Dene and Eskimo-Aleut — a view that gives credence to the idea of three main migrations. Greenberg is in a minority among fellow linguists, most of whom favour the notion of a great many waves of migration to account for the more than 1,000 languages spoken at one time by American Indians. But there is no doubt that the new genetic and dental evidence provides strong backing for Greenberg’s view. Dates given for the migrations should nevertheless be treated with caution, except where supported by hard archaeological evidence.

　　1 New World: the American continent, as opposed to the so-called Old World of Europe, Asia and Africa

　　2 modern Native American: an American descended from the groups that were native to America

　　3 Inuit and Aleut: two of the ethnic groups native to the northern regions of North America (i.e. northern Canada and Greenland)

　　4 DNA: the substance in which genetic information is stored

　　5 crown/root: parts of the tooth

　　6 incisor/premolar/molar: kinds of teeth

　　Questions 20 and 21

　　The discussion of Williams’s research indicates the periods at which early people are thought to have migrated along certain routes. There are six routes, A-F, marked on map below.

　　Complete the table below.

　　Write the correct letter, A-F, in boxes 20 and 21 on your answer sheet.

　　Route Period (number of years ago)

　　20.................. 15,000 or more

　　21.................. 600 to 700

　　Early Population Movement to the Americas

　　Questions 22-25

　　Reading Passage 2 refers to the three-wave theory of early migration to the Americas. It also suggests in which of these three waves the ancestors of various groups of modern native Americans first reached the continent.

　　Classify the groups named in the table below as originating from

　　A the first wave

　　B the second wave

　　C the third wave

　　Write the correct letter, A, B or C, in boxes 22-25 on your answer sheet.

　　Name of group Wave number

　　Inuit 22..................

　　Apache 23..................

　　Pima-Papago 24..................

　　Ticuna 25..................

　　Question 26

　　Choose the correct letter, A, B, C or D.

　　Write the correct letter in box 26 on your answer sheet.

　　Christy Turner’s research involved the examination of

　　A teeth from both prehistoric and modern Americans and Asians.

　　B thousands of people who live in either the New or the Old World.

　　C dental specimens from the majority of prehistoric Americans.

　　D the eating habits of American and Asian populations.

　　READING PASSAGE 3

　　You should spend about 20 minutes on Questions 27-40, which are based on Reading Passage 3 below.

　　Forests are one of the main elements of our natural heritage. The decline of Europe’s forests over the last decade and a half has led to an increasing awareness and understanding of the serious imbalances which threaten them. European countries are becoming increasingly concerned by major threats to European forests, threats which know no frontiers other than those of geography or climate: air pollution, soil deterioration, the increasing number of forest fires and sometimes even the mismanagement of our woodland and forest heritage. There has been a growing awareness of the need for countries to get together to co-ordinate their policies. In December 1990, Strasbourg hosted the first Ministerial Conference on the protection of Europe’s forests. The conference brought together 31 countries from both Western and Eastern Europe. The topics discussed included the coordinated study of the destruction of forests, as well as how to combat forest fires and the extension of European research programs on the forest ecosystem. The preparatory work for the conference had been undertaken at two meetings of experts. Their initial task was to decide which of the many forest problems of concern to Europe involved the largest number of countries and might be the subject of joint action. Those confined to particular geographical areas, such as countries bordering the Mediterranean or the Nordic countries therefore had to be discarded. However, this does not mean that in future they will be ignored.

　　As a whole, European countries see forests as performing a triple function: biological, economic and recreational. The first is to act as a ‘green lung’ for our planet; by means of photosynthesis, forests produce oxygen through the transformation of solar energy, thus fulfilling what for humans is the essential role of an immense, non-polluting power plant. At the same time, forests provide raw materials for human activities through their constantly renewed production of wood. Finally, they offer those condemned to spend five days a week in an urban environment an unrivalled area of freedom to unwind and take part in a range of leisure activities, such as hunting, riding and hiking. The economic importance of forests has been understood since the dawn of man — wood was the first fuel. The other aspects have been recognised only for a few centuries but they are becoming more and more important. Hence, there is a real concern throughout Europe about the damage to the forest environment which threatens these three basic roles.

　　The myth of the ‘natural’ forest has survived, yet there are effectively no remaining ‘primary’ forests in Europe. All European forests are artificial, having been adapted and exploited by man for thousands of years. This means that a forest policy is vital, that it must transcend national frontiers and generations of people, and that it must allow for the inevitable changes that take place in the forests, in needs, and hence in policy. The Strasbourg conference was one of the first events on such a scale to reach this conclusion. A general declaration was made that ‘a(chǎn) central place in any ecologically coherent forest policy must be given to continuity over time and to the possible effects of unforeseen events, to ensure that the full potential of these forests is maintained’.

　　That general declaration was accompanied by six detailed resolutions to assist national policy-making. The first proposes the extension and systematisation of surveillance sites to monitor forest decline. Forest decline is still poorly understood but leads to the loss of a high proportion of a tree’s needles or leaves. The entire continent and the majority of species are now affected: between 30% and 50% of the tree population. The condition appears to result from the cumulative effect of a number of factors, with atmospheric pollutants the principal culprits. Compounds of nitrogen and sulphur dioxide should be particularly closely watched. However, their effects are probably accentuated by climatic factors, such as drought and hard winters, or soil imbalances such as soil acidification, which damages the roots. The second resolution concentrates on the need to preserve the genetic diversity of European forests. The aim is to reverse the decline in the number of tree species or at least to preserve the ‘genetic material’ of all of them. Although forest fires do not affect all of Europe to the same extent, the amount of damage caused the experts to propose as the third resolution that the Strasbourg conference consider the establishment of a European databank on the subject. All information used in the development of national preventative policies would become generally available. The subject of the fourth resolution discussed by the ministers was mountain forests. In Europe, it is undoubtedly the mountain ecosystem which has changed most rapidly and is most at risk. A thinly scattered permanent population and development of leisure activities, particularly skiing, have resulted in significant long-term changes to the local ecosystems. Proposed developments include a preferential research program on mountain forests. The fifth resolution relaunched the European research network on the physiology of trees, called Eurosilva. Eurosilva should support joint European research on tree diseases and their physiological and biochemical aspects. Each country concerned could increase the number of scholarships and other financial support for doctoral theses and research projects in this area. Finally, the conference established the framework for a European research network on forest ecosystems. This would also involve harmonising activities in individual countries as well as identifying a number of priority research topics relating to the protection of forests. The Strasbourg conference’s main concern was to provide for the future. This was the initial motivation, one now shared by all 31 participants representing 31 European countries. Their final text commits them to on-going discussion between government representatives with responsibility for forests.

　　Questions 27-33

　　Do the following statements agree with the information given in Reading Passage 3?

　　In boxes 27-33 on your answer sheet, write

　　TRUE if the statement agrees with the information

　　FALSE if the statement contradicts the information

　　NOT GIVEN if there is no information on this

　　27 Forest problems of Mediterranean countries are to be discussed at the next meeting or experts.

　　28 Problems in Nordic countries were excluded because they are outside the European Economic Community.

　　29 Forests are a renewable source of raw material.

　　30 The biological functions of forests were recognized only in the twentieth century.

　　31 Natural forests still exist in parts of Europe.

　　32 Forest policy should be limited by national boundaries.

　　33 The Strasbourg conference decided that a forest policy must allow for the possibility of change.

　　Questions 34-39

　　Look at the following statements issued by the conference.

　　Which six of the following statements, A-J, refer to the resolutions that were issued?

　　Match the statements with the appropriate resolutions (Questions 34-39).

　　Write the correct letter, A-J, in boxes 34-39 on your answer sheet.

　　A All kinds of species of trees should be preserved.

　　B Fragile mountain forests should be given priority in research programs.

　　C The surviving natural forests of Europe de not need priority treatment.

　　D Research is to be better co-ordinated throughout Europe.

　　E Information on forest fires should be collected and shared.

　　F Loss of leaves from trees should be more extensively and carefully monitored.

　　G Resources should be allocated to research into tree diseases.

　　H Skiing should be encouraged in thinly populated areas.

　　I Soil imbalances such as acidification should be treated with compounds of nitrogen and sulphur.

　　J Information is to be systematically gathered on any decline in the condition of forests.

　　34 Resolution 1

　　35 Resolution 2

　　36 Resolution 3

　　37 Resolution 4

　　38 Resolution 5

　　39 Resolution 6

　　Question 40

　　Choose the correct letter, A, B, C or D.

　　Write the correct letter in box 40 on your answer sheet.

　　40 What is the best title for Reading Passage 3?

　　A The biological, economic and recreational role of forests

　　B Plans to protect the forests of Europe

　　C The priority of European research into ecosystems

　　D Proposals for a world-wide policy on forest management

　　劍橋雅思閱讀7原文參考譯文(test3)

　　TEST 3 PASSAGE 1 參考譯文：

　　螞蟻智能

　　每當(dāng)我們想到動(dòng)物界的智能成員時(shí)，頭腦中立刻出現(xiàn)的會(huì)是猿和猴子。事實(shí)上，在昆蟲界，某些成員社會(huì)生活的復(fù)雜程度顯示出了相當(dāng)程度的智能。其中螞蟻世界就在最近成了主要的觀察對(duì)象螞蟻顯示出一定認(rèn)知力的觀點(diǎn)也得到了研究人員的肯定。

　　螞蟻儲(chǔ)存食物，反擊外敵，在攻擊時(shí)用化學(xué)信號(hào)互相聯(lián)系。此類化學(xué)信號(hào)交流可與人類使用視覺(jué)和聽(tīng)覺(jué)途徑(如圣歌、廣告形象、鈴聲、政治標(biāo)語(yǔ)以及軍樂(lè))來(lái)激發(fā)情緒和傳遞理念的行為相媲美。生物學(xué)家 Lewis Thomas寫道：“螞蟻和人類是如此的相似，都讓我們覺(jué)得自愧不如。它們培育真菌，把蚜蟲作為家畜來(lái)飼養(yǎng)，調(diào)配軍隊(duì)作戰(zhàn)，用化學(xué)氣霧發(fā)出替告和迷惑敵人，俘虜奴隸，忙于育嬰，不停地交流信息。除了不看電視它們什么都做?！?/p>

　　然而，螞蟻的世界里沒(méi)有文化的傳播——所有的技能都必須存儲(chǔ)在基因里——而人類的情況卻恰恰相反。人類新生兒的基因里只有基本的本能，其他技能則是在成長(zhǎng)過(guò)程中從社會(huì)其他成員身上學(xué)習(xí)所得?？雌饋?lái)這種文化傳承使我們與螞蟻相比具有巨大的優(yōu)勢(shì)。它們從未掌握用火技術(shù)，也不知發(fā)展為何物，它們培育真菌、飼養(yǎng)蚜蟲的技術(shù)和五千年前的人類農(nóng)耕技術(shù)相比還算成熟，但卻被人類現(xiàn)代的農(nóng)業(yè)綜合企業(yè)遠(yuǎn)遠(yuǎn)超越。

　　那么螞蟻真的被人類超越了么?螞蟻的農(nóng)耕方式至少是可持續(xù)性的。它們不會(huì)破壞環(huán)境，也不需要使用大量能源。而且，最近的證據(jù)表明，螞蟻的農(nóng)耕方式可能比過(guò)去我們所認(rèn)為的還要成熟和靈活。

　　螞蟻早于人類5000萬(wàn)年就已成為農(nóng)夫。它們不能消化葉子中的纖維素，但是某些真菌可以。因此螞蟻在巢穴里培育這些真菌，讓它們以葉子為食，而真菌則成為螞蟻的食物來(lái)源。螞蟻農(nóng)夫們分泌抗生素去控制其他可能成為“雜草”的真菌，還會(huì)播撒廢料來(lái)給作物施肥。

　　曾經(jīng)有觀點(diǎn)認(rèn)為螞蟻培育的真菌只是它們繁殖的單一品種，長(zhǎng)久以來(lái)都沒(méi)有本質(zhì)的改變。其實(shí)不然。馬里蘭州的Ulrich Mueller和他的同事們就從螞蟻巢穴中從基因方面篩選出了862種不同種類的真菌。這些真菌品種多樣——看來(lái)螞蟻在不斷培育新的真菌品種。讓人更加印象深刻的是，對(duì)真菌的DNA分析表明， 螞蟻通過(guò)頻繁地和周邊螞蟻群體的交換和共享來(lái)改進(jìn)或更新菌種。

　　史前人類沒(méi)有機(jī)會(huì)接觸城市化的生活方式——這一孕育智能的溫床。而證據(jù)表明，螞蟻已經(jīng)在城市環(huán)境中生存了將近一億年了，建造并維持著由特殊的洞穴和隧道構(gòu)成的地下城市。

　　當(dāng)我們考察墨西哥城、東京和洛杉磯時(shí)，都會(huì)驚嘆人類的偉大成就。然而，Hoelldobler和Wilson在為螞蟻愛(ài)好者創(chuàng)作的巨著《螞蟻》中，描述了日本北海道石狩灣的石狩紅蟻所建造的超級(jí)蟻群。據(jù)稱，在這個(gè)包含了4500個(gè)縱橫交錯(cuò)的巣穴、幅員達(dá)2. 7平方公里的“巨大城市”中，生活著3. 6億只工蟻和100萬(wàn)只蟻后。

　　如此堅(jiān)固，復(fù)雜的網(wǎng)狀技術(shù)成就遠(yuǎn)遠(yuǎn)超越了我們的遠(yuǎn)古祖先所取得的任何成就。人們?cè)诜▏?guó)南部或者其他地方欣賞那些兩萬(wàn)年前的巖畫杰作的時(shí)候?qū)ψ嫦鹊某删兔C然起敬。而螞蟻的社會(huì)形態(tài)早在7000多萬(wàn)年前就已經(jīng)和現(xiàn)在相差無(wú)幾。此外，史前人類的技術(shù)看上去很原始。那么，和當(dāng)時(shí)的螞蟻社會(huì)相比，這還能算是另外一種形式的智能嗎?

　　在牛津大學(xué)、蘇賽克斯大學(xué)以及蘇黎世大學(xué)所作的研究表明，沙漠蟻在覓食歸巢途中，會(huì)結(jié)合它們腦中不斷更新的方向和距離資料來(lái)做導(dǎo)向。它們會(huì)將可見(jiàn)的地標(biāo)與記憶庫(kù)中的區(qū)域方向結(jié)合來(lái)分門別類儲(chǔ)存，并不斷地使用和更新。因此螞蟻也具備學(xué)習(xí)能力。

　　在12年研究過(guò)程中，Ryabko和Reznikova找到了證據(jù)，證明螞蟻能夠傳遞非常復(fù)雜的信息。偵察蟻在迷宮中找到食物后返回去通知覓食隊(duì)伍。研究人員干涉了螞蟻交流的過(guò)程，在最后把偵察蟻弄走，看螞蟻團(tuán)隊(duì)會(huì)有什么反應(yīng)。通常覓食隊(duì)伍會(huì)還是能夠繼續(xù)行進(jìn)到迷宮中食物的確切位置。而在此之前，研究人員已經(jīng)做了精密的預(yù)防措施，防止蟻群通過(guò)氣味來(lái)傳遞信息?，F(xiàn)在討論的焦點(diǎn)是，螞蟻在迷宮中行進(jìn)路線的傳遞是通過(guò)一連串的左轉(zhuǎn)、右轉(zhuǎn)信息還是通過(guò)指南針式的方向和距離引導(dǎo)來(lái)完成的。

　　在這次全面的研究過(guò)程中，Reznikova全身心地投入到她實(shí)驗(yàn)室的螞蟻身上，她感覺(jué)己認(rèn)識(shí)每一只螞蟻——即使它們身上沒(méi)有記號(hào)。無(wú)怪乎Edward Wilson在他的論文《與螞蟻相伴》中，建議那些詢問(wèn)如何處理廚房中螞蟻的讀者：“注意腳下，珍惜小生命?！?/p>

　　TEST 3 PASSAGE 2 參考譯文：

　　人口遷移與遺傳學(xué)

　　A過(guò)去人們對(duì)人類起源與人口分布的研究一直是在考古發(fā)現(xiàn)和化石證據(jù)的基礎(chǔ)上進(jìn)行的。然而，從20世紀(jì)50年代起發(fā)明的不少新技術(shù)使得此項(xiàng)研究擁有更充分、更客觀的立足點(diǎn)。關(guān)于人口遷移活動(dòng)的最早信息是從“活體考古”中獲得的，專家們可從遺傳物質(zhì)中發(fā)現(xiàn)一些線索。

　　B 近來(lái)對(duì)人類何時(shí)初次踏上美洲大陸問(wèn)題的研究便是體現(xiàn)這些新技術(shù)價(jià)股的最好范例。很久以來(lái)，東北亞和西伯利亞就一直被視為人類首次向“北美新世界”遷移的發(fā)源地。但是，跨越白令海峽進(jìn)人美洲大陸的移民浪潮是一次還是幾次?這次移民事件，或者這幾次事件又適何時(shí)發(fā)生的呢?近些年來(lái)，通過(guò)對(duì)遺傳學(xué)的研究，專家們找到遺傳標(biāo)記在現(xiàn)代美國(guó)本土居民中分布情況的新線索。

　　C 由生物人類學(xué)家羅伯特?威廉姆斯領(lǐng)導(dǎo)的一項(xiàng)程把研究點(diǎn)聚焦在了免疫球蛋白G變體(又叫做免疫球蛋白同種異型Gm)上。在人類血液流體中可以找到這種變體。所有的蛋質(zhì)都處于漂流狀態(tài)，或者在生產(chǎn)新變體，那么數(shù)代之后，通過(guò)通婚形成的家族成員們將會(huì)擁有一套共同的變體。所以，通過(guò)對(duì)比兩類不同人群的Gm同種異型(比如兩個(gè)印第安人部落)人們可以建立各自的“遺傳距離”，距離本身可以調(diào)整，從而可以給出一些信息，提示此族群自從最后一次通婚混血以來(lái)經(jīng)過(guò)了多長(zhǎng)吋間。

　　D威廉姆斯和他的同事們花費(fèi)20年時(shí)間在北美西部地區(qū)采集了5, 000名美洲印第安人的血液標(biāo)本。通過(guò)研究發(fā)現(xiàn)，這些印第安人的Gm同種異型可以劃分為兩組，其中一組也和中部、南部的印第安人基因類型相匹配。其他測(cè)試顯示因紐特人(又叫愛(ài)斯基摩人)和阿留申人形成另一個(gè)族群。據(jù)此證據(jù)可推斷出，跨越白令海峽的大規(guī)模移民浪潮共有三次。第一次移民浪潮發(fā)生在15,000年前，其中的古印第安人是今天美國(guó)中部和南部印第安人的祖先。約14, 000到12, 000年前的第二次移民浪潮帶來(lái)了納迪尼狩獵者，他們是納瓦喬人和阿帕切人(他們?cè)诩s600或700年前從加拿大南部移民美國(guó))的祖先。第三次浪潮發(fā)生在約10, 000或 9,000年前，從東北亞移民至北美大陸的這批人是現(xiàn)代愛(ài)斯基摩人和阿留申人的祖先。

　　E那么，其他研究對(duì)此項(xiàng)結(jié)論的支持力度又有多大呢?遺傳學(xué)專家道格拉斯?華萊士通過(guò)研究三大彼此遠(yuǎn)離的本土美洲人(亞利桑那州的皮馬-帕帕戈人、墨四哥尤卡坦半島的瑪雅印第安人、巴西亞馬遜河上游流域的迪古拿印第安人)血液樣本中的線粒體DNA發(fā)現(xiàn)：就像羅伯特?威廉姆斯的著作預(yù)測(cè)的那樣，三個(gè)族群其實(shí)源于同一個(gè)祖先。

　　F此外，還有兩種研究進(jìn)一步闡明了本土美洲人的起源問(wèn)題它們涉及牙齒研究和語(yǔ)言研究。生物人類學(xué)家克里斯蒂?特納是一位從事人類牙齒生理特征變化研究的專家。他認(rèn)為齒冠和齒根包含極高的遺傳因素，受環(huán)境和其他因素影響很小。根據(jù)對(duì)數(shù)千年來(lái)自新舊世界的樣本進(jìn)行分析，特納發(fā)觀，大多數(shù)史前美洲人在齒冠和齒根特點(diǎn)上和亞洲北部人口有所聯(lián)系，如鏟形門齒(牙齒單側(cè)或雙側(cè)邊緣嵴隆起而中部呈凹窩狀)，單重根上齒第一前磨牙和三重根下前第一磨牙。

　　據(jù)特納稱，這一特點(diǎn)和古印第安從北亞向外移民有所關(guān)聯(lián)，特納通過(guò)研究牙齒微進(jìn)化速度得出這次移民發(fā)生在14，000年前。通過(guò)對(duì)牙齒的研究也發(fā)現(xiàn)了后面還有科納迪尼和愛(ài)斯基摩-阿留申這兩次移民浪潮。

　　自從20世紀(jì)50年代，語(yǔ)言學(xué)家約瑟夫?格林怕格就認(rèn)為，所有的本土美國(guó)語(yǔ)言同屬于唯一的一個(gè)印第安語(yǔ)系(除納迪尼和愛(ài)斯堪摩-阿留申以外)，此種觀點(diǎn)對(duì)三大主要移民浪潮的說(shuō)法提供了憑證。格林伯格是同時(shí)代語(yǔ)言學(xué)家中的少數(shù)派，而大多數(shù)語(yǔ)言學(xué)家都贊成這樣一種觀點(diǎn)：一波又一波的移民浪潮解釋那一時(shí)期北美印第安人講1000多種語(yǔ)言的唯一依據(jù)。但是毫無(wú)疑問(wèn)，新的遺傳學(xué)和牙齒證據(jù)為格林伯格的觀點(diǎn)提供了強(qiáng)有力的支持。當(dāng)然，關(guān)于移民的具體時(shí)間問(wèn)題也要謹(jǐn)慎對(duì)待，除非這些信息有確鑿的考古證據(jù)的支撐。

　　TEST 3 PASSAGE 3 參考譯文：

　　歐洲森林保護(hù)計(jì)劃

　　森林是自然遺產(chǎn)的主要元素之一。過(guò)去15年歐洲森林的退化程度已經(jīng)逐漸讓人們意識(shí)并了解到這種嚴(yán)重失調(diào)對(duì)他們的威脅。歐洲國(guó)家越來(lái)越重視歐洲森林受到的主要威脅，除了地理和氣候性的威脅以外，其他的都是不分國(guó)界的，諸如空氣污染、土壤退化、與日俱增的森林火災(zāi)，有時(shí)候甚至是我們對(duì)林地和森林的管理不善。人們也越來(lái)越清楚地認(rèn)識(shí)到各國(guó)需要聯(lián)合起來(lái)協(xié)調(diào)政策。1990年12月，在法國(guó)斯特拉斯堡舉行了第一次以保護(hù)歐洲森林為主題的部長(zhǎng)級(jí)會(huì)議，來(lái)自東西歐的31國(guó)家代表匯集一堂。會(huì)議的議題包括： 如何協(xié)調(diào)研究對(duì)森林的破壞，如何防范森林火災(zāi)，以及歐洲森林生態(tài)系統(tǒng)研究項(xiàng)目的擴(kuò)大。會(huì)議舉行前召開了兩次專家會(huì)議來(lái)做會(huì)前準(zhǔn)備工作。他們最初的任務(wù)是決定在歐洲森林所面臨的諸多問(wèn)題中，哪個(gè)問(wèn)題所涉及的國(guó)家最多，可作為各國(guó)聯(lián)合行動(dòng)的主題。因此那些受特殊地理?xiàng)l件限制的地區(qū)，如地中海以及北歐國(guó)家就被排除在外了。但是以后他們還是有可能參與進(jìn)來(lái)的。

　　總體而言，歐洲國(guó)家認(rèn)為森林有三重功能——生物、經(jīng)濟(jì)和娛樂(lè)功能。第一重是扮演地球的“綠色之肺”;通過(guò)光合作用，森林在太陽(yáng)能量轉(zhuǎn)換過(guò)程中釋放。對(duì)人類而言，它是不可替代的巨大而無(wú)污染的能量來(lái)源。同時(shí)，通過(guò)不斷再生的木材，森林還為人類活動(dòng)提供了原材料。最后，森林還為那些在城市里每周五天深陷于工作的上班族們提供了無(wú)與倫比的自由氛圍去釋放心情，參與游獵、騎馬以及遠(yuǎn)足等休閑活動(dòng)。森林的經(jīng)濟(jì)功能從人類起源開始就被發(fā)現(xiàn)了——木材就是最初的燃料。其他功能的發(fā)現(xiàn)僅有幾個(gè)世紀(jì)的歷史，但它們變得越來(lái)越重要。因此，整個(gè)歐洲十分關(guān)注威脅到森林使其不能扮演這三重基本功能的破壞性行為。

　　有關(guān)天然森林的古老神話還在歐洲大陸流傳著，而事實(shí)上，真正的原始森林已經(jīng)不復(fù)存在了。所有的歐洲森林都是人工種植的，被人類改造和開發(fā)了數(shù)千年。這就意味著，一項(xiàng)超越國(guó)界、跨越年代的森林政策至關(guān)重要，并且必須要考慮到森林環(huán)境、人民需求，國(guó)家政策發(fā)生不可避免的變化。斯特拉斯保會(huì)議是同等規(guī)模的活動(dòng)中最先達(dá)成該結(jié)論的活動(dòng)之一。其總宣言為：任何具有生態(tài)延續(xù)性的森林政策的核心內(nèi)容，都必須著眼于長(zhǎng)期的可持續(xù)性以及不可預(yù)見(jiàn)的狀況可能帶來(lái)的影響，以保證森林的全部潛能都可以得到維系。

　　除了總宣言，會(huì)議還提出了六項(xiàng)有利于國(guó)家政策制定的詳細(xì)決議。第一項(xiàng)決議是對(duì)森林退化監(jiān)測(cè)站進(jìn)行擴(kuò)建并使其系統(tǒng)化。我們對(duì)森林退化的了解還不多，但它會(huì)造成樹葉和針葉的大量脫落。整個(gè)歐洲大陸以及大多數(shù)樹種都受到影響，受影響樹木占樹木總量的30%到50%這樣的情況像是由一系列因素累積導(dǎo)致的，大氣污染就是其中的罪魁禍?zhǔn)?。還需要特別注意氮化物和二氧化硫。然而，一些氣候因素如干旱、寒冬，以及破壞樹木根系的土壤酸化等土地失衡狀況，可能會(huì)加劇這些不利因素的影響。第二項(xiàng)決議的重點(diǎn)是保持歐洲森林基因多樣性的需求。目標(biāo)是改變樹種減少的狀況或者至少保留所有樹種的基因資料。雖然森林大火對(duì)歐洲各國(guó)的影響程度不同，但是其破壞力卻讓專家們提出第三個(gè)決議：斯特拉斯堡會(huì)議應(yīng)該考慮就此主題建立一個(gè)歐洲數(shù)據(jù)庫(kù)。所有國(guó)家保護(hù)政策發(fā)展過(guò)程中所用的信息將被廣泛分享。部長(zhǎng)們所討論的第四項(xiàng)決議是關(guān)于山林的。在歐洲變化最快、處境最危險(xiǎn)的無(wú)疑是山地生態(tài)系統(tǒng)，常住人口的零星分布以及休閑活動(dòng)特別是滑雪，給當(dāng)?shù)厣鷳B(tài)系統(tǒng)造成了嚴(yán)重而長(zhǎng)期的改變。建議的改進(jìn)措施包括優(yōu)先建立一項(xiàng)關(guān)于山林的研究項(xiàng)目。第五項(xiàng)決議重新發(fā)布了有關(guān)樹木生理學(xué)的名為“森林持續(xù)發(fā)展”的歐洲研究網(wǎng)“森林持續(xù)發(fā)展”將支持歐洲各國(guó)聯(lián)合研究樹木的病害以及生理和生化方面的問(wèn)題。每個(gè)參與國(guó)都可以增加獎(jiǎng)學(xué)金以及其他經(jīng)濟(jì)支持來(lái)鼓勵(lì)此領(lǐng)域博士論文的撰寫以及研究項(xiàng)目的開展。會(huì)議最終建立了歐洲森林生態(tài)系統(tǒng)的科研網(wǎng)絡(luò)，用以協(xié)調(diào)各國(guó)行動(dòng)以及確認(rèn)一些和森林保護(hù)相關(guān)的重點(diǎn)研究議題，斯特拉斯堡會(huì)議的重點(diǎn)是著眼于未來(lái)。這一最初的動(dòng)機(jī)現(xiàn)在已成為31名參加者代表的31個(gè)歐洲國(guó)家的共同動(dòng)力。他們最后的承諾是肩負(fù)起對(duì)森林的責(zé)任，保證政府代表間相關(guān)的討論交流。

　　劍橋雅思閱讀7原文解析(test3)

　　Test 3 Passage 1

　　Question 1

　　答案：FALSE

　　關(guān)鍵詞：channels, communication, humans

　　定位原文: 第2段第2、3句: “Such chemical communication can be… Ants are so much like …”

　　解題思路: 此題可以通過(guò)定位詞迅速定位第2段的這兩句話。兩句話中都只是說(shuō)明螞蟻的生物行為與人類非常相似，而題目中則說(shuō)是“相同”，與原文相悖，因此答案很明顯應(yīng)該是 FALSE 。

　　Question 2

　　答案：TRUE

　　關(guān)鍵詞：city life, intelligence

　　定位原文: 第7段第1句: “Whereas prehistoric man had …” 此題的定位比較有難度，定位詞并未以原形出現(xiàn)。但若根據(jù)順序原則由第3題的定位段落(第8段)向前查找會(huì)比較容易。

　　解題思路: 文章與題目出現(xiàn)同義轉(zhuǎn)換：urban life — city life; forcing house — encourages

　　該題的解題關(guān)鍵在于是否能正確理解文中短語(yǔ)forcing house的含義，它的含義為“溫床”， 與題中解題關(guān)鍵字：encourages完全吻合。因此此題答案為TRUE。

　　Question 3

　　答案： NOT GIVEN

　　關(guān)鍵詞：build large cities

　　定位原文: 第8段第1句: “...we’re amazed at what has been accomplished by humans.”

　　第9段第1句: “Such enduring and intricately meshed levels…”

　　解題思路: 文章第8段提到了人類建造城市的例子，第9段指出螞蟻的技術(shù)遠(yuǎn)遠(yuǎn)超過(guò)我們的祖先，但是文章并未提到螞蟻和人類的建造速度，也未對(duì)此作任何的比較。此題屬于典型的文章未提及型題目，因此應(yīng)該選擇NOT GIVEN。

　　Question 4

　　答案：TRUE

　　關(guān)鍵詞：distance and position

　　定位原文: 第10段第1句: “...they navigate by integrating bearings and distances...”它們通過(guò)整合方向和距離來(lái)導(dǎo)航。

　　解題思路: 此題通過(guò)定位詞可以迅速定位到第10段該句，且該句含義與題目一致。 文章與題目出現(xiàn)同義轉(zhuǎn)換：find their way — navigate; making calculations — integrating; bearings — position. 因此此題答案為TRUE。

　　Question 5

　　答案：FALSE

　　關(guān)鍵詞：foraging teams

　　定位原文: 第11段倒數(shù)第2句: “Elaborate precautions were…”

　　解題思路: 此題利用定位詞很容易定位，且文中定位處出現(xiàn)prevent...using odour clues，其含義為防止使用氣味線索，而題干中的解題要點(diǎn)為螞蟻使用嗅覺(jué)尋找食物。很明顯，此題題干與原文內(nèi)容相悖，因此答案為FALSE。

　　Question 6

　　答案：NOT GIVEN

　　關(guān)鍵詞： “In the company of ants”

　　定位原文: 末段最后1句：“...in his essay, ‘In the company of ants’, advises …”

　　解題思路: 此題定位非常容易。在定位句中，作者僅僅強(qiáng)調(diào)了需要將螞蟻視為有智能的生命來(lái)對(duì)待，對(duì)于題干中的解題點(diǎn)“螞蟻的信息交流”是否進(jìn)行研究并未提及。此題屬于典型的“題干信息文章部分提及”，因此此題答案為NOT GIVEN。

　　Question 7

　　答案： C

　　關(guān)鍵詞：cultivate, they can digest

　　定位原文: 第5段第2、3句：“Ants can’t digest… The ants therefore…”

　　解題思路:此題通過(guò)在定位段落第5段中掃描定位詞，可以將其定位在第2、3句，其含義為“螞蟻不能消化葉子中的纖維素，但是一些真菌可以。因此螞蟻在自己的巢中培養(yǎng)這些真菌”。題干中此題應(yīng)填一個(gè)名詞，且根據(jù)其后信息判斷出該名詞在經(jīng)過(guò)轉(zhuǎn)變后能被螞蟻消化，于是可以直接選出答案C。

　　Question 8

　　答案： M

　　關(guān)鍵詞：weed-killers

　　定位原文: 第5段最后1句: “Farmer ants secrete antibiotics…”

　　解題思路: 按照順序原則在第7題后掃描定位詞可以迅速定位。通過(guò)閱讀此空之后的題干信息可推出所填單詞應(yīng)為名詞，且其行為為kill weeds;通過(guò)掃描定位句，其中滿足條件的詞為antibiotics，但在詞庫(kù)中并未出現(xiàn)，此時(shí)只能選出其上下義詞，即為選項(xiàng)M。

　　Question 9

　　答案：F

　　關(guān)鍵詞： unwanted materials

　　定位原文: 第5段最后1句: “...and spread waste to fertilise the crop.”

　　解題思路: 此題在文中定位緊接著上一題。通過(guò)題干中空格之前的信息可以判斷出所填詞為復(fù)數(shù)名詞，且其等價(jià)于unwanted materials。在文中定位處找到其對(duì)應(yīng)詞waste,且其作用為fertilise the crop;在題目所給詞庫(kù)中的復(fù)數(shù)名詞里進(jìn)行快速掃描，答案只能為F。

　　Question 10

　　答案：D

　　關(guān)鍵詞：new species, neighbouring ant colonies

　　定位原文: 第6段最后1句: “…the ants improve or modify …”

　　解題思路: 通過(guò)分析空格判斷出所填詞應(yīng)為v+ing形式(and前后結(jié)構(gòu)相同)，在文中定位句中對(duì)應(yīng)詞為swapping and sharing (交換和分享);在題目所給詞庫(kù)中滿足v+ing形式的詞里進(jìn)行快速掃描，答案只能為D。

　　Question 11

　　答案：N

　　關(guān)鍵詞：agribusiness, methods

　　定位原文: 第4段第2、3句：“The farming methods ... They do not ruin…”

　　解題思路: 此題出現(xiàn)了亂序，但是通過(guò)掃描定位詞還是可以迅速在文中找到對(duì)應(yīng)詞。首先是出現(xiàn)在第3段最后1句話中的agribusiness，接下來(lái)才是第4段第2句中的farming methods。通過(guò)分析題干中空格前后的信息，判定所填單同應(yīng)為形容詞，且其修飾對(duì)象為methods;在文中定位處的對(duì)應(yīng)詞為 sustainable，對(duì)應(yīng)答案N。

　　Question 12

　　答案： O

　　關(guān)鍵詞：affect

　　定位原文: 第4段第2、3句: “The farming methods... They do not ruin…”

　　解題思路:由于空格之前為動(dòng)詞，所以應(yīng)回原文找尋該動(dòng)詞或其同義詞;在文中定位處對(duì)應(yīng)詞為ruin, 所以答案為其后單詞environment，即O選項(xiàng)

　　Question 13

　　答案： E

　　關(guān)鍵詞：waste

　　定位原文: 第4段第2、3句: “The farming methods ... They do not ruin…”

　　解題思路: 文中定位處對(duì)應(yīng)詞為use enormous amounts of，所以答案為其后單詞energy，即E選項(xiàng)。

　　Test 3 Passage 2

　　Question 14

　　答案：iv

　　關(guān)鍵詞：developments

　　定位原文: A段第2句: “A number of techniques…”

　　解題思路: A段中間部分出現(xiàn)轉(zhuǎn)折句，主要含義為一系列的新技術(shù)使得該研究變得更加良性和客觀。在段義選項(xiàng)中只有iv選項(xiàng)中的關(guān)鍵詞developments能與之匹配，因此答案為iv。

　　Question 15

　　答案：vii

　　關(guān)鍵詞：problem

　　定位原文: B段首句: “Recent work on the problem…”

　　解題思路: B段首句引出了首次進(jìn)入美洲大陸人口的問(wèn)題，在段義選項(xiàng)中只有vii和ix滿足條件，但是B段并未提到人類遷移的原因，而只是在段落后半部分提出了一系列的問(wèn)題，所以ix不對(duì)，答案應(yīng)該為vii。

　　Question 16

　　答案：x

　　關(guān)鍵詞：two different populations; establish their genetic “distance”

　　定位原文: C段末句: “Thus, by comparing…”

　　解題思路: C段中提出了一種研究方法，即研究variants，并在最后由thus引出了結(jié)論，通過(guò)比較兩類不同人群就能建立他們之間的“遺傳距離”。在段義選項(xiàng)中只有最后一個(gè)滿足要求，其中對(duì)應(yīng)關(guān)鍵詞為 blood-variants, closeness, between different populations，因此答案為x。

　　Question 17

　　答案：i

　　關(guān)鍵詞：found that

　　定位原文: D段第2句: “They found that…”

　　解題思路: 此段大意其實(shí)可以按照邏輯發(fā)展順序迅速地確定為i，這是因?yàn)樯弦欢谓榻B了一個(gè)研究，此段應(yīng)該介紹研究結(jié)果，而段義選項(xiàng)中只有i為研究結(jié)果?；蛘咄ㄟ^(guò)通讀全段，得出主題句為：他們發(fā)現(xiàn)這些Gm可以分為兩大類。這就是研究的結(jié)論，從其后文字均為介紹性文字，也可以判定此段段義為選項(xiàng)i。

　　Question 18

　　答案：vi

　　關(guān)鍵詞：other research

　　定位原文: E段首句: “How far does other research support these conclusions?”

　　解題思路: E段首句即提出了其他研究是否能支持上一段結(jié)論的問(wèn)題，然后列舉出了其他實(shí)驗(yàn)的例子。在段義選項(xiàng)中，只有vi選項(xiàng)中提到了其他研究(further genetic evidence),故答案是vi。

　　Question 19

　　答案：ii

　　關(guān)鍵詞：dental

　　定位原文: F段第2句：“The biological anthropologist Christy Turner is…”

　　解題思路: 此段首句極具迷惑性，其含義為另兩種關(guān)于牙齒和語(yǔ)言的研究也能解釋這個(gè)問(wèn)題，所以可能錯(cuò)選 iii，因?yàn)槠渲邪P(guān)鍵詞dental and linguistic evidence，但是iii中人物Greenberg僅出現(xiàn)在下一段，故排除此選項(xiàng)。此段真正主題句為第二句，此句介紹了研究牙齒也能解釋問(wèn)題，其后文字全部為介紹牙齒研究的文字，故答案為ii。

　　Question 20

　　答案：E

　　關(guān)鍵詞：15, 000 or more

　　定位原文: D段中部倒數(shù)第4句： “...three major waves of migration…”

　　解題思路: 定位處說(shuō)明了此處的wave應(yīng)該across the Bering Strait，所以答案應(yīng)該在B、C、E中篩選，在圖中可以很明顯地定位出原文相關(guān)詞Central American和 South American，故答案為其對(duì)應(yīng)選項(xiàng)E。

　　Question 21

　　答案：D

　　關(guān)鍵詞： 600 to 700

　　定位原文: D段后半部倒數(shù)第2句: “... and Apache (who only migrated south from Canada about 600 or 700 years ago).”

　　解題思路: 定位處的說(shuō)明為：僅僅在600或700年前從加拿大向南部遷移。

　　在圖中各條箭頭中只有D的起點(diǎn)在Canada，且箭頭方向向南，故答案為D。

　　Question 22

　　答案：C

　　關(guān)鍵詞： Inuit

　　定位原文: D段第3句: “Other tests showed…”

　　解題思路:

　　由此句可以很明顯地判斷出Inuit屬于第三類，因此答案為C。

　　Question 23

　　答案：B

　　關(guān)鍵詞： Apache

　　定位原文: D段倒數(shù)第2句: “The second wave…”

　　解題思路:

　　由此句可以很明顯地判斷出Apache屬于第二類，因此答案為B。

　　Question 24

　　答案：A

　　關(guān)鍵詞：Pima-Papago

　　定位原文: E段第二句: “...blood samples from three widely separated Native American

　　…” E段最后一句: “… all three groups appear to be descended…”

　　解題思路: 通過(guò)定位句可判定Pima-Papago屬于 “three groups”中的一種，且均來(lái)自于 Paleo-lndian; Paleo-lndian在D段倒數(shù)第三句出現(xiàn)過(guò)：The first，Paleo-lndian，wave...故答案為A

　　Question 25

　　答案： A

　　關(guān)鍵詞：Ticuna

　　定位原文: E段倒數(shù)第2句: “… and Ticuna Indians in the Upper Amazon region of Brazil…” D段倒數(shù)第三句: “The first, Paleo-lndian, wave … was ancestral to all Central and South American Indians”.

　　解題思路:定位這兩句，可以發(fā)現(xiàn)Ticuna Indians也屬于first wave

　　Question 26

　　答案： A

　　關(guān)鍵詞：Christy Turner

　　定位原文: 通過(guò)題干粗定位于文章F段第2句: “Christy Turner is an expert …” F段最后一句: “Studies carried out by…”

　　解題思路: 通過(guò)F段第2句可知：特納的研究主要是分析人類牙齒的生理特征，因此可以排除未提及牙齒的選項(xiàng) B和D。C選項(xiàng)極具迷惑性，其中“the majority of prehistoric Americans”與全文一致，但是這一內(nèi)容只是實(shí)驗(yàn)結(jié)果所“suggest”的，而并非特納真正的實(shí)驗(yàn)內(nèi)容;A選項(xiàng)與原文 “Studies...of many thousands of New and Old World specimens，both ancient and modem”含義完全一致。故正確答案為A。

　　Test 3 Passage 3

　　Question 27

　　答案：NOT GIVEN

　　關(guān)鍵詞： Mediterranean countries

　　定位原文: 第1段末最后兩句: “…such as counties bordering Mediterranean … However, this dose not mean…”

　　解題思路: 此題通過(guò)定位詞可以迅速定位到第一段最后兩句話，其含義為地中海國(guó)家在日后不一定被忽略;而題干則為在下次會(huì)議中會(huì)討論，顯然為文中未提及內(nèi)容。故此題答案為NOT GIVEN。

　　Question 28

　　答案：FALSE

　　關(guān)鍵詞：Nordic countries

　　定位原文: 第1段末倒數(shù)第3句和倒數(shù)第2句：“Their initial task was to… Those confined to particular geographical areas…”

　　解題思路: 該題考查因果關(guān)系，由定位句中的因果關(guān)系詞therefore推出解題句為定位句的前一句：Nordic countries不被考慮是因?yàn)闀?huì)議要決定哪些森林問(wèn)題涉及的國(guó)家最多并且能夠成為聯(lián)合行動(dòng)的主題，這與題干中的原因不同，而考查因果關(guān)系時(shí)要求文章與題目精確，故此題答案為FALSE。

　　Question 29

　　答案：TRUE

　　關(guān)鍵詞： raw material

　　定位原文: 第2段第3句: “forests provide raw materials…”

　　解題思路: 此題的定位詞在文中以原詞出現(xiàn)，按照順序原則可以迅速定位。文中定位處含義為：通過(guò)其不斷再生的木材，森林給人類活動(dòng)提供了原材料。文章與題目含義一致。故此題答案為TRUE。

　　Question 30

　　答案：FALSE

　　關(guān)鍵詞：biological functions, recognised

　　定位原文: 第2段倒數(shù)第3句、倒數(shù)第2句: “The economic importance of forests has been... The other aspects have been…”

　　解題思路: 此題先通過(guò)biological functions定位于第二段首句，其中提到森林的三種功能為 biological，economic和recreational;然后由recognised精確定位到解題句，其中提到除了economic之外的兩方面都已經(jīng)被認(rèn)可了幾個(gè)世紀(jì)，而題目卻認(rèn)為其僅僅是在20世紀(jì)才被認(rèn)可的。題目明顯與文章相悖，故此題答案為FALSE。

　　Question 31

　　答案：FALSE

　　關(guān)鍵詞：natural forests

　　定位原文: 第3段第2句: “All European forests are artificial”

　　解題思路: 此題通過(guò)定位詞可定位于第3段首句，通過(guò)掃讀得出解題句，其含義為：歐洲所有的森林都是人工種植的，很顯然題目與文章內(nèi)容剛好相反，故此題答案為FALSE。

　　Question 32

　　答案：FALSE

　　關(guān)鍵詞：forest policy, national boundaries

　　定位原文: 第3段第3句: “This means that…”

　　解題思路: 此題通過(guò)定位詞能夠迅速定位。定位句的含義為：森林政策至關(guān)重要，它必須超越國(guó)家的界限。顯然題目與文章內(nèi)容相反，故此題答案為FALSE。

　　Question 33

　　答案：TRUE

　　關(guān)鍵詞： Strasbourg conference, forest policy, change

　　定位原文: 第3段第3句、第4句：“This means that a forest policy… The Strasbourg conference was…”這就意味著一項(xiàng)森林政策至關(guān)重要，它必須考慮到森林環(huán)境，人民需求，國(guó)家政策發(fā)生不可避免的變化。斯特拉斯堡會(huì)議也成為此類髙規(guī)格創(chuàng)始會(huì)議中達(dá)成該結(jié)論的會(huì)議之一。

　　解題思路: 此題通過(guò)定位詞能夠迅速定位。定位句指出會(huì)議達(dá)成this conclusion，此處出現(xiàn)指代，按“遇指代，向前看一句”的原則得到定位句首句。定位句中結(jié)論與題目含義一致，故此題答案為 TRUE。

　　Question 34

　　答案：J

　　關(guān)鍵詞：resolution 1

　　定位原文: 第4段第2句: “The first proposes the extension…” 第一項(xiàng)決議是對(duì)森林退化監(jiān)測(cè)站進(jìn)行擴(kuò)建并使其系統(tǒng)化。

　　解題思路: 在選項(xiàng)中掃描關(guān)鍵詞，只有J選項(xiàng)符合該含義：森林的任何退化信息都將被系統(tǒng)地收集。此處有兩個(gè)干擾選項(xiàng)，F(xiàn)和I。F選項(xiàng)中出現(xiàn)文中原詞monitored，但對(duì)loss of leaves的監(jiān)測(cè)只是決議I中的一項(xiàng)內(nèi)容，不全面。 I選項(xiàng)中出現(xiàn)文中原詞 soil imbalance, acidification, compounds of nitrogen and sulphur，但這些詞在文中分別出現(xiàn)于不同的例子中，而I選項(xiàng)卻將其揉在一句話中。 故答案為J。

　　Question 35

　　答案： A

　　關(guān)鍵詞：resolution 2

　　定位原文: 第4段中部第8句: “The second resolution concentrates on…”第二項(xiàng)決議的重點(diǎn)是保持歐洲森林站基因多樣性的需求。

　　解題思路: 在選項(xiàng)中掃描關(guān)鍵詞，只有A選項(xiàng)出現(xiàn)關(guān)鍵詞preserve, 且其含義與原文相符：所有種類的樹木都必須被保存。故答案為A。

　　Question 36

　　答案： E

　　關(guān)鍵詞：resolution 3

　　定位原文: 第4段第10句：“Although forest fires do not...” 雖然森林大火對(duì)歐洲各國(guó)的影響程度不同，但是其破壞力卻讓專家們提出第三個(gè)決議：斯特拉斯堡會(huì)議應(yīng)該考慮就此主題建立一個(gè)歐洲數(shù)據(jù)庫(kù)

　　解題思路: 在選項(xiàng)中掃描關(guān)鍵詞，只有E選項(xiàng)出現(xiàn)關(guān)鍵詞forest fires，且其含義與原文相符：有關(guān)森林大火的信息需被收集并分享。故答案為E。

　　Question 37

　　答案： B

　　關(guān)鍵詞：resolution 4

　　定位原文: ：第4段倒數(shù)第9句: “Proposed developments include…” 建議的改進(jìn)措施包括優(yōu)先建立一項(xiàng)關(guān)于山林的研究項(xiàng)目。

　　解題思路: 在選項(xiàng)中掃描關(guān)鍵詞，只有B選項(xiàng)出現(xiàn)關(guān)鍵詞mountain forests和priority (對(duì)應(yīng) preferential), 且其含義與原文相符：脆弱的山林應(yīng)該在研究項(xiàng)目中優(yōu)先考慮, 故答案為B。

　　Question 38

　　答案：G

　　關(guān)鍵詞：resolution 5

　　定位原文: 第4段倒數(shù)第8句、倒數(shù)第7句：“Eurosilva should support... Each country concerned could…”“森林持續(xù)發(fā)展”將支持歐洲各國(guó)聯(lián)合研究樹木的病害以及生理和生化方面的問(wèn)題。每個(gè)參與國(guó)都可以增加獎(jiǎng)學(xué)金以及其他經(jīng)濟(jì)支持來(lái)鼓勵(lì)此領(lǐng)域博士論文的撰寫以及研究項(xiàng)目開展。

　　解題思路: 在選項(xiàng)中掃描關(guān)鍵詞，只有G選項(xiàng)出現(xiàn)關(guān)鍵詞allocated to research和tree diseases, 且其含義與原文相符：資源必須分配給關(guān)于樹木病害的研究。

　　故答案為G。

　　Question 39

　　答案： D

　　關(guān)鍵詞：resolution 6

　　定位原文: 第4段倒數(shù)第5句：“Finally, the conference established…”會(huì)議最終建立了歐洲森林生態(tài)系統(tǒng)的科研網(wǎng)絡(luò)

　　解題思路: 在選項(xiàng)目掃描關(guān)鍵詞，只有D選項(xiàng)出現(xiàn)關(guān)鍵詞co-ordinated(對(duì)應(yīng)research network), 且其含義與原文相符：研究最好在整個(gè)歐洲范圍內(nèi)進(jìn)行，以便更好地相互協(xié)作。故答案為D。

　　Question 40

　　答案： B

　　關(guān)鍵詞： 無(wú)

　　定位原文: 全文結(jié)構(gòu)

　　解題思路: 通過(guò)分析文中首句可以得出，其中關(guān)鍵詞為forests，從而排除不含此關(guān)鍵詞的選項(xiàng)C; A選項(xiàng)中的三個(gè)關(guān)鍵詞biological, economic和recreational均未在末句中提及，故排除;B和D兩個(gè)選項(xiàng)中關(guān)鍵詞分別為：B強(qiáng)調(diào)protect，D強(qiáng)調(diào)policy on management。文章末句中g(shù)overnment以及responsibility for forests強(qiáng)調(diào)政府對(duì)于森林的責(zé)任而并非管理，排除D選項(xiàng)。故正確答案為B。

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