Africa-Press – Liberia. The San Andreas fault, stretching 800 miles and marking the meeting point of the North American and Pacific tectonic plates, has historically been divided into three sections. The southern section, running from the Salton Sea to Parkfield, has been notably quiet – a cause for concern among officials.
New findings have shed light on why the southern San Andreas fault in California has not experienced a major earthquake in over 300 years, raising a new set of concerns for locals.
The study suggests that the drying of the nearby Salton Sea may be the cause of the seismic drought and provides important insights into potential earthquake triggers, including plans to refill the body of water.
Officials have indicated that the accumulated energy along the locked section of the San Andreas fault has the potential to cause significant damage to the densely populated Los Angeles metropolitan area if released in a major earthquake.
The recent study focused on earthquake activity along the southern San Andreas fault over the past millennium, with researchers collecting field data from rocks near the fault that revealed earthquakes occurred approximately every 180 years, with a margin of error of 40 years. These quakes coincided with high water levels in the ancient Lake Cahuilla.
The research team developed a computer model to simulate the impact of a full lake on the fault, discovering that high water levels in Lake Cahuilla influenced the fault in two ways:
_ The weight of the lake water caused the crust beneath it to bend, relieving the pressure between the plates.
_ The water infiltrated the cracks and pores in the Earth’s crust, increasing the fluid pressure within the fault and further separating the plates.
The analogy of air hockey was used to explain the scenario. Without air, the puck does not slide easily across the table, similar to how frictional forces keep tectonic plates stuck together. When air (or water) is introduced, it reduces tension and allows the plates to slip past each other more easily.
The research also suggests that filling water reservoirs in other areas could potentially trigger earthquakes.
Regarding the present-day Salton Sea, researchers note the chances of it refilling to the size of the ancient Lake Cahuilla are impossible due to drought and water allocation issues.
However, the study highlights it is not necessarily the volume of water that adds stress, but the rate at which the lake could be refilled. The finding has since raised concerns about plans to restore and refill the Salton Sea.
For More News And Analysis About Liberia Follow Africa-Press
