In 1971 researchers hoping to predict earthquakes in the short term by identifying precursory phenomena (those that occur a few days before large quakes but not otherwise) turned their attention to changes in seismic waves that had been detected prior to earthquakes. An explanation for such changes was offered by "dilatancy theory," based on a well-known phenomenon observed in rocks in the laboratory: as stress builds, microfractures in rock close, decreasing the rock's volume. But as stress continues to increase, the rock begins to crack and expand in volume, allowing groundwater to seep in, weakening the rock. According to this theory, such effects could lead to several precursory phenomena in the field, including a change in the velocity of seismic waves, and an increase in small, nearby tremors.

Researchers initially reported success in identifying these possible precursors, but subsequent analyses of their data proved disheartening. Seismic waves with unusual velocities were recorded before some earthquakes, but while the historical record confirms that most large earthquakes are preceded by minor tremors, these foreshocks indicate nothing about the magnitude of an impending quake and are indistinguishable from other minor tremors that occur without large earthquakes.

In the 1980s, some researchers turned their efforts from short-term to long-term prediction. Noting that earthquakes tend to occur repeatedly in certain regions, Lindh and Baker attempted to identify patterns of recurrence, or earthquake cycles, on which to base predictions. In a study of earthquake-prone sites along the San Andreas Fault, they determined that quakes occurred at intervals of approximately 22 years near one site and concluded that there was a 95 percent probability of an earthquake in that area by 1992. The earthquake did not occur within the time frame predicted, however.

Evidence against the kind of regular earthquake cycles that Lindh and Baker tried to establish has come from a relatively new field, paleoseismology. Paleoseismologists have unearthed and dated geological features such as fault scarps that were caused by earthquakes thousands of years ago. They have determined that the average interval between ten earthquakes that took place at one site along the San Andreas Fault in the past two millennia was 132 years, but individual intervals ranged greatly, from 44 to 332 years.


The passage suggests which of the following about the paleoseismologists' findings described in highlight text?


They suggest that the frequency with which earthquakes occurred at a particular site decreased significantly over the past two millennia.

They suggest that paleoseismologists may someday be able to make reasonably accurate long-term earthquake predictions.

They suggest that researchers may someday be able to determine which past occurrences of minor tremors were actually followed by large earthquakes.

They suggest that the recurrence of earthquakes in earthquakeprone sites is too irregular to serve as a basis for earthquake prediction.

They indicate that researchers attempting to develop long-term methods of earthquake prediction have overlooked important evidence concerning the causes of earthquakes.

考题讲解

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正确答案是 D。本文的核心内容关于 seismologists 和 paleoseismologists 在试图预测地震方面的努力。Seismologists想要短期地预测地震,他们注意到破坏前的地震波变化,但最终他们失望,因为这些变化无法预测大规模地震。Paleoseismologists则使用另一种方法:他们得出的结论是,在过去的两千年里,在 San Andreas Fault 上每个特定地点发生地震的频率是 132 年,但各个间隔可能介于 44 到 332 之间。答案 D 选项指出,由于地震发生的间隔极不规则,它们不能作为任何长期预测的基础。由此可见,答案 D 是正确的选项。

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