Author: WeWorldMedia-admin

Moderate mag. 4.1 earthquake – North Pacific Ocean, 78 km southwest of Retalhuleu, Guatemala, on Monday, May 5, 2025, at 07:20 am (GMT -6)

Published: 5 May 2025
Categories: Global Earthquake Activity

RSS feed source: Volcano Discovery.com--Global earthquake monitor

Date and TimeMag
DepthDistanceLocationDetailsMap May 3, 02:48 am (GMT -6)

3.5

12 km24 km (15 mi) to the N North Pacific Ocean, 63 km southwest of Coatepeque, GuatemalaI FELT IT

Info

May 2, 03:40 pm (GMT -6)

3.8

10 km49 km (30 mi) to the NW North Pacific Ocean, 69 km southwest of Tapachula, Estado de Chiapas, MexicoI FELT IT

Info

May 1, 11:18 pm (GMT -6)

4.2

19 km98 km (61 mi) to the W North Pacific Ocean, 126 km southwest of Tapachula, Estado de Chiapas, MexicoI FELT IT Info2025-05-01 05:45:50

3.0

9 km68 km (42 mi) to the E North Pacific Ocean, 64 km south of Retalhuleu, GuatemalaI FELT IT

Info

May 1, 05:37 am (GMT -6)

4.2

9.9 km64 km (40 mi) to the S North Pacific Ocean, 135 km southwest of Retalhuleu, GuatemalaI FELT IT InfoApr 29, 02:21 pm (GMT -6)

4.2

8.2 km22 km (14 mi) to the N North Pacific Ocean, 76 km west of Retalhuleu, GuatemalaI FELT IT InfoApr 28, 04:23 pm (GMT -6)

3.8

4 km51 km (32 mi) to the S North Pacific Ocean, 118 km southwest of Retalhuleu, GuatemalaI FELT IT

Info

May 12, 2024 05:39 am (GMT -6)

6.2

10 km44 km (27 mi) to the W Mexico: 76 km al SUROESTE de CD HIDALGO, CHIS 312 reportsInfoNov 19, 2019 10:27 pm (GMT -6)

6.2

10 km79 km (49 mi) to the W Off Coast of Chiapas, Mexico 44 reportsInfoFeb 1, 2019 10:19 am (Mexico City)

6.7

0 km60 km (38 mi) to the N North Pacific Ocean, 33 km southwest of Tapachula, Estado de Chiapas, Mexico InfoFeb 1,

Click this link to continue reading the article on the source website.

New study informs fire prevention strategies to save lives and property

Published: 5 May 2025
Categories: National Science Foundation

RSS feed source: Volcano Discovery.com--Global earthquake monitor

U.S. National Science Foundation-supported research shows that fires in populated areas are three times more likely to lead to premature deaths than wildfires overall, informing fire mitigation efforts.

Scientists at the NSF National Center for Atmospheric Research (NSF NCAR) led the study, published in Science Advances, which found that smoke from fires that blaze through the wildland-urban interface (WUI) has far greater health impacts than smoke from wildfires in remote areas.

“This research will support the development of advanced fire prevention strategies, improve building codes and lead to effective emergency response plans,” said Bernard Grant, a program director in the NSF Directorate for Geosciences. “It will help protect lives and homes, safeguard natural ecosystems and reduce the economic burden of wildfire disasters,”

The researchers used an advanced NSF NCAR-based computer model, the Multi-Scale Infrastructure for Chemistry and Aerosols, to simulate pollutants from fires. Their modeling included carbon monoxide chemical tracers, which allowed them to estimate emission sources and differentiate between wildland and WUI fires.

“The health impacts are proportionately large because they’re close to human populations,” said NSF NCAR scientist Wenfu Tang, the report’s lead author. “Pollutants emitted by WUI fires, such as particulate matter and the precursors to ozone, are more harmful because they’re not dispersing across hundreds or thousands of miles.”

Click this link to continue reading the article on the source website.