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- An interplate earthquake is an earthquake that occurs at the boundary between two tectonic plates. Earthquakes of this type account for more than 90 percent of the total seismic energy released around the world. If one plate is trying to move past the other, they will be locked until sufficient stress builds up to cause the plates to slip relative to each other. The slipping process creates an earthquake with relative displacement on either side of the fault, resulting in seismic waves which travel through the Earth and along the Earth's surface. Relative plate motion can be lateral as along a transform fault boundary, vertical if along a convergent boundary (i.e. subduction or thrust/reverse faulting) or a divergent boundary (i.e. rift zone or normal faulting), and oblique, with horizontal and lateral components at the boundary. Interplate earthquakes associated at a subduction boundary are called megathrust earthquakes, which include most of the Earth's largest earthquakes. Intraplate earthquakes are often confused with interplate earthquakes, but are fundamentally different in origin, occurring within a single plate rather than between two tectonic plates on a plate boundary. The specifics of the mechanics by which they occur, as well as the intensity of the stress drop which occurs after the earthquake also differentiate the two types of events. Intraplate earthquakes have, on average, a higher stress drop than that of an interplate earthquake and generally higher intensity. (en)
- Un terremoto interplaca es un terremoto que se produce en el límite entre dos placas tectónicas. Los terremotos de este tipo corresponden a más del 90 por ciento del total de la energía sísmica liberada en todo el mundo. Si una placa intenta alejarse de otra, será retenida por esta, acumulando tensión que será liberada en forma de terremoto y haciendo que la placa se libere de la otra. El proceso de deslizamiento crea un terremoto con deformaciones del suelo y las ondas sísmicas resultantes viajan a través de la Tierra a lo largo de la superficie terrestre. El movimiento de las placas puede ser lateral, a lo largo de una falla transformante límite o vertical o por subducción. Algunas zonas del mundo que son particularmente propensos a este tipo de eventos son la costa oeste de América del Norte (especialmente California y Alaska), la región nororiental del Mediterráneo (Grecia, Italia y Turquía en particular), Irán, Nueva Zelanda, Indonesia, India, Japón y algunas partes de China. (es)
- Gempa bumi antarlempeng atau gempa bumi lintas lempeng adalah sebuah gempa bumi yang terjadi di batas antara dua lempeng tektonik. Gempa bumi jenis ini menyumbang lebih dari 90 persen dari total energi seismik yang diluncurkan di seluruh dunia. Jika satu lempeng sedang mencoba untuk bergerak melewati yang lain, mereka akan terkunci sampai tekanan energi yang cukup menumpuk menyebabkan lempeng untuk relatif lepas terhadap satu sama lain. Proses pelepasan menciptakan gempa bumi dengan deformasi tanah dan mengakibatkan gelombang seismik yang mengadakan perjalanan di muka bumi dan di sepanjang permukaan bumi. Gerak lempeng relatif dapat menjadi lateral seperti di sepanjang batas pergeseran sesar atau vertikal jika sepanjang batas subduksi konvergen atau pada batas divergen. Di batas subduksi, gerak tercipta karena salah satu lempeng terlepas di bawah lempeng lain yang mengakibatkan dorongan antarlempeng atau gempa berdorongan besar yang merupakan gempa bumi yang paling kuat. Beberapa daerah di dunia yang sangat rentan terhadap peristiwa tersebut mencakup pantai barat Amerika Utara (terutama di California dan Alaska), timur laut wilayah Mediterania (pada khususnya Yunani, Italia, dan Turki), Iran, Selandia Baru, Indonesia, India, Jepang, dan sebagian dari Tiongkok. Gempa bumi antarlempeng berbeda dengan gempa intralempeng dalam intensitas titik tekanan yang terjadi setelah gempa. Gempa intralempeng, rata-rata memiliki lebih titik tekanan lebih tinggi dari gempa antarlempeng. Gempa antarlempeng juga berbeda secara mendasar dari gempa intralempeng dalam cara tekanan energi dilepaskan dan pulih. Sebuah gempa bumi antarlempeng mengakibatkan tekanan langsung turun di sepanjang sesar. Berikut ini adalah periode pemulihan tekanan pascaseismik. Pemulihan ini terjadi dengan cepat dalam beberapa dekade pertama setelah pecah dan karena pemuatan tektonik dan relaksasi kental dalam kerak yang lebih rendah. Hal ini menghasilkan pemindahan tekanan ke atas kerak. Kemudian, peningkatan masa tekanan stabil terjadi karena pemuatan tektonik. (in)
- 판 경계간 지진(Interplate earthquake, 版境界地震)은 두 판의 경계에서 발생하는 지진이다. 판 경계간 지진은 전 세계에서 발출된 총 지진 에너지의 90% 이상을 차지한다. 한 판이 다른 판을 향해 움직이면 판이 서로 미끄러질 수 있을 정도로 응력이 쌓일 때까지 두 판은 움직이지 않고 고착된다. 응력이 쌓이다 어느 순간 두 판이 미끄러지면서 단층 양쪽이 특정 변위만큼 이동하며 지진이 발생하고, 이 지진파는 지구 표면을 따라 이동한다. 두 판의 이동에는 여러 종류가 있는데 이는 단층의 종류와 같다. 하나는 발산 경계(열개), 또 하나는 수렴 경계(충상단층, 메가스러스트), 변환단층형 이동 경계 3가지가 존재한다. 그 외에도 각각의 경계에 수평(주향 요소)가 존재하는 복합적인 사교단층일 수도 있다. 역단층, 그중에서도 수렴하는 판 경계에 있는 단층은 규모 8 이상의 매우 강력한 지진인 메가스러스트 지진(해구형지진)과 관련이 있다. 해구형지진은 전 세계에서 발생하는 총 지진 모멘트의 약 90%를 차지한다. 판 내부 지진은 판 경계간 지진과 혼동되기도 하지만 판 내부 지진은 판 경계에 있는 두 지각판 사이에서 일어난 지진이 아닌 하나의 판 내부에서 지진이 일어난다는 근본적인 차이가 있다. 지진 후에 발생하는 응력 감소도, 지진 발생의 세부 원리 등 여러 가지 큰 차이점이 존재한다. 판 내부 지진은 판 경계간 지진보다 평균적으로 응력 감소도가 더 높다. (ko)
- I terremoti tettonici o terremoti interplacca sono i tipi di terremoti più comuni che avvengono ai margini tra le placche tettoniche ove si sviluppano le forze che vengono poi sprigionate improvvisamente durante il sisma. Si stima che circa il 90% dell'energia sismica venga rilasciata attraverso questo tipo di terremoti. (it)
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- I terremoti tettonici o terremoti interplacca sono i tipi di terremoti più comuni che avvengono ai margini tra le placche tettoniche ove si sviluppano le forze che vengono poi sprigionate improvvisamente durante il sisma. Si stima che circa il 90% dell'energia sismica venga rilasciata attraverso questo tipo di terremoti. (it)
- An interplate earthquake is an earthquake that occurs at the boundary between two tectonic plates. Earthquakes of this type account for more than 90 percent of the total seismic energy released around the world. If one plate is trying to move past the other, they will be locked until sufficient stress builds up to cause the plates to slip relative to each other. The slipping process creates an earthquake with relative displacement on either side of the fault, resulting in seismic waves which travel through the Earth and along the Earth's surface. Relative plate motion can be lateral as along a transform fault boundary, vertical if along a convergent boundary (i.e. subduction or thrust/reverse faulting) or a divergent boundary (i.e. rift zone or normal faulting), and oblique, with horizonta (en)
- Un terremoto interplaca es un terremoto que se produce en el límite entre dos placas tectónicas. Los terremotos de este tipo corresponden a más del 90 por ciento del total de la energía sísmica liberada en todo el mundo. Si una placa intenta alejarse de otra, será retenida por esta, acumulando tensión que será liberada en forma de terremoto y haciendo que la placa se libere de la otra. El proceso de deslizamiento crea un terremoto con deformaciones del suelo y las ondas sísmicas resultantes viajan a través de la Tierra a lo largo de la superficie terrestre. El movimiento de las placas puede ser lateral, a lo largo de una falla transformante límite o vertical o por subducción. (es)
- Gempa bumi antarlempeng atau gempa bumi lintas lempeng adalah sebuah gempa bumi yang terjadi di batas antara dua lempeng tektonik. Gempa bumi jenis ini menyumbang lebih dari 90 persen dari total energi seismik yang diluncurkan di seluruh dunia. Jika satu lempeng sedang mencoba untuk bergerak melewati yang lain, mereka akan terkunci sampai tekanan energi yang cukup menumpuk menyebabkan lempeng untuk relatif lepas terhadap satu sama lain. Proses pelepasan menciptakan gempa bumi dengan deformasi tanah dan mengakibatkan gelombang seismik yang mengadakan perjalanan di muka bumi dan di sepanjang permukaan bumi. Gerak lempeng relatif dapat menjadi lateral seperti di sepanjang batas pergeseran sesar atau vertikal jika sepanjang batas subduksi konvergen atau pada batas divergen. Di batas subduksi, (in)
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- Terremotos interplaca (es)
- Gempa bumi antarlempeng (in)
- Terremoto interplacca (it)
- Interplate earthquake (en)
- 판 경계간 지진 (ko)
- プレート間地震 (ja)
- Sismo interplacas (pt)
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