A.the present is varying too fast to be caught up easily
B.the future may be so indefinite as to be unpredictable
C.the past can help to shape a consensus in the present
D.the past determines social moralities for later generations
A.lack of serious disagreement over the organizations of social life
B.non-existence of unanimity on the forms the society should take
C.general denying of its conformity with what it was unexpected to be
D.public negation of the consensus on how to conduct social reforms
开始考试点击查看答案A.the resistance that people put up against globalization
B.the marginalization brought forth by globalization
C.the importance of self-reliance and self-sufficiency
D.the insurmountable difficulty of retaining cultural identity
开始考试点击查看答案A.discuss globalization and cultural identity
B.refute the cultural argument against globalization
C.explain why modernization is inevitable
D.discuss the consequences of globalization
开始考试点击查看答案A.A country should try to retain its cultural identity in its modernization drive.
B.Cultural identity may work against the aspiration for modernization.
C.People should understand what may contribute to modernization.
D.It's impossible for a country to modernize and keep its cultural identity intact.
开始考试点击查看答案A.globalization will enrich cultural diversity
B.countries should strive to reserve their unique customs and practices
C.modernization will succeed in some countries but not in others
D.the world will be culturally less diversified because of globalization
开始考试点击查看答案A.the multiracial composition of the US society
B.the absence of a common religion and ancestry
C.the want of shared myths they possess in life
D.the obstruction of achieving a general agreement
开始考试点击查看答案A.an earnest nationalist
B.an advanced psychologist
C.a radical reformer
D.a social historian
开始考试点击查看答案A.bring about the uniformity of their culture
B.diminish their great individual differences
C.avoid the sense of being isolated and anxious
D.regain the feelings of social values and morale
开始考试点击查看答案A.Concerned citizens and scientists have begun to take action. A wide range of solutions is being proposed to stop the destruction of biodiversity at the regional as well as the global level. Since 1985, the effort has become more precisely charted, economically efficient, and politically sensitive.
B.The new biodiversity studies will lead logically to an electronic encyclopedia of life designed to organize and make immediately available everything known about each of the millions of species. The industrialized countries will lead for a time. However, the bulk of the work must eventually be done in the developing countries. The latter contains most of the world species, and they are destined to benefit soonest from the research. The technology needed is relatively inexpensive, and its transfer can be accomplished quickly. The discoveries generated can be applied directly to meet the concerns of greatest importance to the geographic region in which the research is conducted, being equally relevant to agriculture, medicine, and economic growth.
C.In the midst of this richness of life forms, however, the rate of species extinction is rising, chiefly through habitat destruction. Most serious of all is the conversion of tropical rainforests, where most species of animals and plants live. The rate has been estimated, by two independent methods, to fall between 100 and 10,000 times the pre-human background rate, with 1,000 times being the most widely accepted figure. The price ultimately to be paid for this cataclysm is beyond measure in foregone scientific knowledge; new pharmaceutical and other products; ecosystems services such as water purification and soil renewal; and, not least, aesthetic and spiritual benefits.
D.Since the current hierarchical, binomial classification was introduced by Carolus Linnaeus 250 years ago, 10 percent, at a guess, of the species of organisms have been described. It is believed that most and perhaps nearly all of the remaining 90 percent can be discovered, diagnosed, and named in as little as about 25 years. That potential is the result of two developments needed to accelerate biodiversity studies.
E.B.The new biodiversity studies will lead logically to an electronic encyclopedia of life designed to organize and make immediately available everything known about each of the millions of species. The industrialized countries will lead for a time. However, the bulk of the work must eventually be done in the developing countries. The latter contains most of the world species, and they are destined to benefit soonest from the research. The technology needed is relatively inexpensive, and its transfer can be accomplished quickly. The discoveries generated can be applied directly to meet the concerns of greatest importance to the geographic region in which the research is conducted, being equally relevant to agriculture, medicine, and economic growth.C.In the midst of this richness of life forms, however, the rate of species extinction is rising, chiefly through habitat destruction. Most serious of all is the conversion of tropical rainforests, where most species of animals and plants live. The rate has been estimated, by two independent methods, to fall between 100 and 10,000 times the pre-human background rate, with 1,000 times being the most widely accepted figure. The price ultimately to be paid for this cataclysm is beyond measure in foregone scientific knowledge; new pharmaceutical and other products; ecosystems services such as water purification and soil renewal; and, not least, aesthetic and spiritual benefits.D.Since the current hierarchical, binomial classification was introduced by Carolus Linnaeus 250 years ago, 10 percent, at a guess, of the species of organisms have been described. It is believed that most and perhaps nearly all of the remaining 90 percent can be discovered, diagnosed, and named in as little as about 25 years. That potential is the result of two developments needed to accelerate biodiversity studies.E.The increasing attention given to the biodiversity crisis highlights the inadequacy of biodiversity research itsel
G.Earth remains in this respect a relatively unexplored planet. The total number of described and formally named species of organisms has grown, but not by much, and today is generally believed to lie somewhere between 1.5 million and 1.8 million. The full number, including species yet to be discovered, has been estimated in various accounts that differ according to assumptions and methods from an improbably low 3.5 million to an improbably high 100 million. By far the greatest fraction of the unknown species will be insects and microorganisms.F.The past decade has witnessed the emergence of a much clearer picture of the magnitude of the biodiversity problem. Put simply, the biosphere has proved to be more diverse than was earlier supposed, especially in the case of small microorganisms. An entire domain of life, the Archaea, has been distinguished from the bacteria, and a huge, still mostly unknown and energetically independent environment has been found to extend three kilometers or more below the surface of Earth.
H.A.Concerned citizens and scientists have begun to take action. A wide range of solutions is being proposed to stop the destruction of biodiversity at the regional as well as the global level. Since 1985, the effort has become more precisely charted, economically efficient, and politically sensitive.B.The new biodiversity studies will lead logically to an electronic encyclopedia of life designed to organize and make immediately available everything known about each of the millions of species. The industrialized countries will lead for a time. However, the bulk of the work must eventually be done in the developing countries. The latter contains most of the world species, and they are destined to benefit soonest from the research. The technology needed is relatively inexpensive, and its transfer can be accomplished quickly. The discoveries generated can be applied directly to meet the concerns of greatest importance to the geographic region in which the research is conducted, being equally relevant to agriculture, medicine, and economic growth.C.In the midst of this richness of life forms, however, the rate of species extinction is rising, chiefly through habitat destruction. Most serious of all is the conversion of tropical rainforests, where most species of animals and plants live. The rate has been estimated, by two independent methods, to fall between 100 and 10,000 times the pre-human background rate, with 1,000 times being the most widely accepted figure. The price ultimately to be paid for this cataclysm is beyond measure in foregone scientific knowledge; new pharmaceutical and other products; ecosystems services such as water purification and soil renewal; and, not least, aesthetic and spiritual benefits.D.Since the current hierarchical, binomial classification was introduced by Carolus Linnaeus 250 years ago, 10 percent, at a guess, of the species of organisms have been described. It is believed that most and perhaps nearly all of the remaining 90 percent can be discovered, diagnosed, and named in as little as about 25 years. That potential is the result of two developments needed to accelerate biodiversity studies.E.The increasing attention given to the biodiversity crisis highlights the inadequacy of biodiversity research itself. Earth remains in this respect a relatively unexplored planet. The total number of described and formally named species of organisms has grown, but not by much, and today is generally believed to lie somewhere between 1.5 million and 1.8 million. The full number, including species yet to be discovered, has been estimated in various accounts that differ according to assumptions and methods from an improbably low 3.5 million to an improbably high 100 million. By far the greatest fraction of the unknown species will be insects and microorganisms.F.The past decade has witnessed the emergence of a much clearer picture of the magnitude of the biodiversity problem. Put simply, the biosphere has proved to be more diverse than was earlier supposed, especially in the case of small microorganisms. An entire domain of life, the Archaea, has been distinguished from the bacteria, and a huge, still mostly unknown and energetically independent environment has been found to extend three kilometers or more below the surface of Earth.G.The first is information technology, with which high-resolution digitized images of specimens can now be obtained. Moreover, type specimens, scattered in museums around the world can now be photographed and made instantly available everywhere as "e瞭ypes" on the Internet. The second revolution about to catapult biodiversity studies forward is genomics, which will soon enable scientists to describe bacterial and archaean species by partial DNA sequences and to subsequently identify them by genetic bar-coding.F→41. →42. →43. →44. →45. →BA. B. C. D. E. F. G.
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