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.
According to the passage, some researchers based their research about long-term earthquake prediction on which of the following facts?
The historical record confirms that most earthquakes have been preceded by minor tremors.
The average interval between earthquakes in one region of the San Andreas Fault is 132 years.
Some regions tend to be the site of numerous earthquakes over the course of many years.
Changes in the volume of rock can occur as a result of building stress and can lead to the weakening of rock.
Paleoseismologists have been able to unearth and date geological features caused by past earthquakes.
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正确答案是 C。
根据文章,一些研究人员在预测长期地震上基于以下事实:在某些区域,地震倾向于在许多年内反复发生。文章表明,往返于圣安德烈斯断层的十次地震的平均间隔为132年,但每次间隔也有很大的差异,从44到332年不等。这表明,在某些地区,可以预测出反复发生的地震。因此,选项 C 是正确答案,它表明一些区域倾向于在许多年内发生多次地震。
Noting that earthquakes tend to occur repeatedly in certain regions,
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