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Report generated on 2024-04-16, 19:43:26 UTC

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AI BETA TESTING v1.16 HIGH THREAT

Using AI techniques, our recent observations of seismic activity in the Central America and Caribbean Region have revealed a high probability of significant earthquakes to occur in certain areas in the near future. In particular, NORTHERN EAST PACIFIC RISE, OFFSHORE EL SALVADOR, OFFSHORE CHIAPAS, MEXICO, EL SALVADOR have shown signs of increased seismic activity.

Events considered as possible precursors for future events in the Central America and Caribbean Region:
UTC Time Latitude Longitude Depth Magnitude Region
2024-04-01T14:45:17.44Z8.3711-103.250111.2 km Mw 5.5NORTHERN EAST PACIFIC RISE NORTHERN EAST PACIFIC RISE
2024-04-04T07:38:05.42Z12.9351-88.797859.7 km Mw 5.1OFFSHORE EL SALVADOR OFFSHORE EL SALVADOR
2024-04-05T09:01:54.63Z15.3997-93.556665.7 km Mw 5.0OFFSHORE CHIAPAS, MEXICO OFFSHORE CHIAPAS, MEXICO
2024-04-07T17:49:33.35Z13.8113-89.0063198.6 km Mb 5.0EL SALVADOR EL SALVADOR
(4 possible precursors found)

AI RESULTS:

M6.0+ EARTHQUAKE EXPECTED IN CENTRAL AMERICA AND CARIBBEAN REGION

It has been 9 day(s), 1 hour(s), 53 minute(s) and 53 second(s) since the last possible considered precursor earthquake in the EL SALVADOR (Central America and Caribbean Region), with a magnitude of MB 5.0 at a depth of 198.6 km, and origin time 2024-04-07T17:49:33.35Z (UTC).

Currently, our AI models have identified 4 possible precursors, in the interval between 2024-04-01T14:45:17.44Z and 2024-04-07T17:49:33.35Z (a timeframe of 6 day(s), 3 hour(s), 4 minute(s) and 16 second(s) interval), that could trigger a significant event in the Central America and Caribbean Region in the near future.

Despite the passage of time since this event, the seismic threat in the Central America and Caribbean Region is still considered to be high. This highlights the importance of ongoing monitoring and analysis to better understand the patterns and behaviors of earthquakes in the region.

In conclusion, Central America and Caribbean Region continues to be closely monitored for seismic activity in light of this latest possible considered precursor. The results of this monitoring and analysis will play a crucial role in improving our ability to predict and respond to earthquakes in the region.

References

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  2. Szakács, A. (2021). Precursor-Based Earthquake Prediction Research: Proposal for a Paradigm-Shifting Strategy. Frontiers in Earth Science, 8, 548398.
  3. Bolton, D. C., Shreedharan, S., Rivière, J., & Marone, C. (2020). Acoustic energy release during the laboratory seismic cycle: Insights on laboratory earthquake precursors and prediction. Journal of Geophysical Research: Solid Earth, 125(8), e2019JB018975.
  4. Hayakawa, M. (2018). Earthquake precursor studies in Japan. Pre‐Earthquake Processes: A Multidisciplinary Approach to Earthquake Prediction Studies, 7-18.
  5. Uyeda, S. (2013). On earthquake prediction in Japan. Proceedings of the Japan Academy, Series B, 89(9), 391-400.
  6. Lu, K., Hou, M., Jiang, Z., Wang, Q., Sun, G., & Liu, J. (2018). Understanding earthquake from the granular physics point of view—Causes of earthquake, earthquake precursors and predictions. International Journal of Modern Physics B, 32(07), 1850081.
  7. Martinelli, G. (2018). Contributions to a history of earthquake prediction research. Pre-Earthquake Processes: A Multidisciplinary Approach to Earthquake Prediction Studies, 67-76.
  8. Tehseen, R., Farooq, M. S., & Abid, A. (2020). Earthquake prediction using expert systems: a systematic mapping study. Sustainability, 12(6), 2420.
  9. Berhich, A., Belouadha, F. Z., & Kabbaj, M. I. (2022). A location-dependent earthquake prediction using recurrent neural network algorithms. Soil Dynamics and Earthquake Engineering, 161, 107389.

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