俯冲带
定义
一个构造板块俯冲到另一个板块之下进入地幔的区域。俯冲带产生世界上最大的地震(8.5级以上),并与深海海沟和火山弧相关联。
示例
太平洋西北部近海的卡斯卡迪亚俯冲带有能力产生9级以上的地震。
相关术语
相关指南
震中(epicenter) vs 震源(hypocenter):有什么区别?
The epicenter is on the surface; the hypocenter is underground. Learn how scientists locate both and why the distinction matters for safety.
地震深度:浅源地震、中源地震和深源地震
Earthquake depth dramatically affects damage. Learn the three depth categories, why shallow quakes are deadliest, and what deep earthquakes reveal.
2011年东北地震和海啸:完整分析
The 2011 M9.1 Tohoku earthquake triggered a devastating tsunami and nuclear disaster. A comprehensive analysis of one of history's worst earthquakes.
2004年印度洋海啸:最致命的波浪
The 2004 M9.1 Sumatra earthquake generated a tsunami that killed 230,000 people across 14 countries. The disaster that changed warning systems.
1960年智利大地震:有记录以来最大的地震
At M9.5, the 1960 Chile earthquake remains the most powerful ever recorded. Its tsunami crossed the Pacific Ocean and reached Japan.
1976年唐山地震:中国最严重的灾难
The 1976 M7.5 Tangshan earthquake killed an estimated 242,000 people. The deadliest earthquake of the 20th century.
1964年阿拉斯加地震:大阿拉斯加地震
The 1964 M9.2 Alaska earthquake was the most powerful earthquake in US history. Its lessons shaped modern building codes and tsunami science.
1995年神户地震:唤醒日本的事件
The 1995 M6.9 Kobe earthquake exposed critical flaws in Japan's earthquake preparedness, killing 6,400 and transforming building codes.
2010年智利地震:巨型逆冲断层教训
The 2010 M8.8 Chile earthquake showed how strong building codes save lives. Lessons from one of the largest earthquakes ever recorded.
1923年关东大地震:东京的毁灭
The 1923 M7.9 Kanto earthquake destroyed Tokyo and Yokohama, killing over 140,000. The firestorms were deadlier than the shaking itself.
相关案例研究
2017年墨西哥城地震:1985年灾难周年纪念日的M7.1
Striking on the exact 32nd anniversary of the 1985 disaster during a national earthquake drill, the 2017 earthquake served as a live audit of Mexico City's three decades of seismic improvements.
2011年东北地震:M9.1巨型逆冲断层如何引发日本的三重灾难
The only earthquake in recorded history to trigger a simultaneous earthquake, tsunami, and nuclear disaster, fundamentally changing how nations assess cascading risk.
2010年考蒂恩地震:智利的M8.8巨型逆冲断层和备灾的力量
The clearest modern comparison showing that building codes save lives -- a M8.8 earthquake in Chile killed 525 people while a M7.0 in Haiti (35 days earlier) killed 316,000.
2004年印度洋海啸:21世纪最严重的地震灾难
The deadliest tsunami in modern history, killing 227,898 people across 14 countries, whose aftermath created the Indian Ocean Tsunami Warning System and transformed global disaster preparedness.
1985年墨西哥城地震:违抗距离的共鸣灾难
The definitive case study in site amplification and structural resonance, where lake-bed sediments selectively amplified 2-second seismic waves that destroyed mid-rise buildings 350 km from the epicenter.
常见问题解答
震中是地表上位于震源(地震破裂开始处)正上方的点。通常以经纬度坐标报告。最强的震动通常发生在震中附近,但当地土壤条件和断层几何形态可能使最大损害区域发生偏移。
地震仪(地震计)是检测和记录地震波引起的地面运动的仪器。现代宽频带地震仪可以检测到比原子宽度还小的运动。全球地震仪网络使科学家能够在几分钟内确定地震的位置和震级。
P波(纵波)是通过岩石传播最快的压缩波,最先到达地震台站。S波(横波)到达较晚但引起更大的地面震动。P波可以通过固体、液体和气体传播;S波只能通过固体传播。两者之间的时间差有助于确定地震的距离。
震源是地球内部地震破裂开始的点。它由经度、纬度和深度来描述。震源与其正上方地表之间的垂直距离即为地震深度,这对地表感受到的震动强度有很大影响。
地震学是研究地震和地震波在地球内部传播的科学学科。它包括地震检测、定位和特征描述、地球内部结构、地震危险性评估和地震工程。地震学家利用全球地震仪网络的数据来研究这些现象。