Magnitude 4.3 Earthquake Struck 45 km WSW of Acajutla, El Salvador on August 10, 2024 19:06:17
Last Updated: 2024-08-30 22:13:47On August 10, 2024 19:06:17 an earthquake with magnitude of 4.3 on the richter scale hit 45 km WSW of Acajutla, El Salvador. The earthquake originated at a depth of approximately 67.408 kilometers below the Earth's surface on longitude -90.231° and latitude 13.486°. According to documented reports people felt the earth quake, No tsunami was triggered due to the earthquake.
Magnitude & Depth
The earthquake that appeared on August 10, 2024 19:06:17 had a magnitude of 4.3 on the richter scale. Which is considered to be a minor earthquake and is often felt but causes little to no damage.
Shallow earthquakes are considered between 0 and 70 km deep, while intermediate earthquakes range from 70 - 300 km deep and deep earthquakes are between 300 - 700 km deep.
Are shallow earthquakes more destructive?
Shallow quakes generally tend to be more damaging than deeper quakes. Seismic waves from deep quakes have to travel farther to the surface, losing energy along the way.
Nearby Cities and Towns
The nearest significant population center is San Francisco Menéndez in Ahuachapán Department, El Salvador, located 46 kilometers or 28 miles ↑ N of the earthquake's epicenter. Other cities in close proximity include Pasaco (Jutiapa Department, Guatemala) located 54 km (34 mi) ↑ N and Moyuta (Jutiapa Department, Guatemala) located 63 km (39 mi) ↑ N of the epicenter.
In total, we found 7 cities in our database that might have been impacted by the earthquake.
Distance | Direction | City | State | Country |
---|---|---|---|---|
46 km (28 mi) | ↑ N | San Francisco Menéndez | Ahuachapán Department | 🇸🇻 El Salvador |
54 km (34 mi) | ↑ N | Pasaco | Jutiapa Department | 🇬🇹 Guatemala |
63 km (39 mi) | ↑ N | Moyuta | Jutiapa Department | 🇬🇹 Guatemala |
63 km (39 mi) | ↖ NW | Municipio de Guazacapán | Santa Rosa Department | 🇬🇹 Guatemala |
65 km (40 mi) | ↑ N | Conguaco | Jutiapa Department | 🇬🇹 Guatemala |
71 km (44 mi) | ← W | Iztapa | Escuintla Department | 🇬🇹 Guatemala |
80 km (50 mi) | ← W | Puerto San José | Escuintla Department | 🇬🇹 Guatemala |
Nearby Power Plants
We found a total 6 utility-scale power plants in the vecinity of the earthquakes epicenter. The closest being Horus II Solar power plant, located 62 kilometers (39 miles) ↖ NW from the epicenter.
Distance | Direction | Power Plant | Type | Capacity |
---|---|---|---|---|
62 km (39 mi) | ↖ NW | Horus II | Solar | 30.0 MW |
63 km (39 mi) | ↖ NW | Horus 1 y 2 | Solar | 80.0 MW |
77 km (47 mi) | ← W | Poliwatt | Oil | 129.4 MW |
77 km (47 mi) | ← W | Puerto Quetzal Power | Oil | 59.0 MW |
80 km (50 mi) | ← W | Arizona Vapor | Oil | 170.0 MW |
81 km (50 mi) | ← W | GENOSA | Oil | 18.6 MW |
Power Plants & Risks During Earthquakes
We found 2 types of power plants in the vecinity of the magnitude 4.3 earthquake that struck 45 km WSW of Acajutla, El Salvador on August 10, 2024 19:06:17. These types were Oil power plants, Solar power plants, below you find information how each type of power plant can pose a risk to you as a person or the ecosytem around you.
None of this information should be used as guidence in an event of an emergency, but rather as additional references to information provided by national, state and local authorities.Solar Power
Solar power plants generally pose fewer risks compared to conventional power plants that use fossil fuels or nuclear energy. However, they are not without their own set of potential risks and challenges. Below you can find some of the risks associated with solar power plants in an event of a severe earthquake.
Environmental Impact
The production of solar panels involves the use of various materials, including rare metals and chemicals. Severe earthquakes could potentially introduce these into the ecosystems of their location.
Fire Risk
Although the solar panels themselves are not typically a fire hazard, electrical components like inverters and batterises that store the electricity can pose a risk. Electrical malfunctions or faults can lead to fires, especially in poorly maintained systems in an event of a severe earthquake, and thus pose a longterm risk for the local ecosystem.
Overall, the mitigation of risks associated with utility-scale solar power plants involves a combination of technological advancements, sustainable practices, regulatory adherence, and ongoing monitoring and maintenance.
Oil Power
Oil-fired power plants can pose significant risks to society, people, and ecosystems in the event of a severe earthquake.
Oil Spills & Fires
One of the most immediate dangers is the risk of oil spills and fires. The shaking during an earthquake can rupture storage tanks and pipelines, leading to the release of large quantities of oil. Spilled oil can catch fire, causing explosions and further environmental damage.
Air Quality Polution
Oil fires and releases can result in the release of toxic fumes and particulate matter into the air. This can lead to poor air quality, posing health risks to nearby communities. People exposed to these pollutants may experience respiratory issues and other health problems.
Water Pollution
Spilled oil can contaminate nearby water bodies, including rivers, lakes, and groundwater. This can harm aquatic ecosystems, killing fish and other wildlife, and disrupting the food chain. Drinking water supplies may also be compromised, impacting human health.
Soil Contamination
Oil spills can saturate the soil, making it less fertile and potentially rendering it unusable for agriculture. Soil contamination can persist for years, affecting local food production.
Long-Term Environmental Damage
The environmental damage caused by oil spills and fires can persist long after the earthquake event. Cleanup efforts can be costly and challenging, and ecosystems may take years or even decades to recover fully.
To mitigate these risks, most modern oil-fired power plants follow strict regulations, safety measures, and extensive emergency response plans are in place for oil power plants located in seismically active regions. This includes robust containment systems, automatic shutdown mechanisms, and well-trained response teams.
Data Information
Information found on this page is a derivative set, based on sources mentioned below.
Data Sources
We aggregate and combine data from USGS (United States Geographical Survey) and the EMSC (European-Mediterranean Seismological Centre). This allow us to get near real-time and historical earthquake data dating back to the year 1950.
Disclaimer
Information or data found on this page should not be used for, or as an early warning system. It is intended as an historical reference or near real-time complementary information to offical and governmental sources. In an event of an emergency it is important closely monitor and follow advice from national, state and local authorities.