Author: WeWorldMedia-admin

Flood Warning issued April 9 at 7:20AM CDT by NWS Memphis TN

Published: 9 April 2025
Categories: National Weather Service

RSS feed source: US National Weather Service

…The Flood Warning continues for the following rivers in Missouri…Tennessee… Mississippi River Above Tiptonville For the Lower Mississippi River…including Tiptonville…Minor flooding is forecast. * WHAT…Minor flooding is occurring and minor flooding is forecast. * WHERE…Mississippi River above Tiptonville. * WHEN…Until further notice. * IMPACTS…At 43.0 feet, In Tennessee, Cates Landing-New Markham Road is flooded just east of Pea Ridge Road, making evacuation difficult. * ADDITIONAL DETAILS… – At 7:00 AM CDT Wednesday the stage was 40.4 feet. – Recent Activity…The maximum river stage in the 24 hours ending at 7:00 AM CDT Wednesday was 40.4 feet. – Forecast…The river will rise to 43.0 feet Friday morning. It will then fall early

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Light mag. 3.9 earthquake – Indian Ocean, 178 km southwest of Denpasar, Indonesia, on Wednesday, Apr 9, 2025, at 07:06 pm (GMT +7)

Published: 9 April 2025
Categories: Global Earthquake Activity

RSS feed source: US National Weather Service

Date and TimeMag
DepthDistanceLocationDetailsMap Apr 9, 10:43 am (GMT +8)

3.4

11 km94 km (58 mi) to the SW Indian Ocean, 264 km southwest of Denpasar, IndonesiaI FELT IT

Info

Apr 7, 02:58 pm (GMT +8)

3.6

5 km13 km (7.8 mi) to the E Indian Ocean, 170 km southwest of Denpasar, Denpasar, Bali, IndonesiaI FELT IT

Info

Mar 24, 05:44 pm (GMT +8)

4.3

26 km50 km (31 mi) to the N Indian Ocean, 94 km south of Genteng, Kabupaten Banyuwangi, East Java, Indonesia 13 reportsInfoMar 22, 12:26 am (GMT +8)

3.1

10 km19 km (12 mi) to the E Indian Ocean, 166 km southwest of Denpasar, Indonesia

Info

Mar 12, 04:23 am (GMT +8)

3.2

10 km5.5 km (3.4 mi) to the SW Indian Ocean, 147 km south of Genteng, Indonesia

Info

Jan 25, 11:26 am (GMT +7)

3.8

29 km24 km (15 mi) to the NE Indian Ocean, 133 km southeast of Nusa Barung Island, East Java, Indonesia

Info

Nov 18, 2024 06:26 am (GMT +7)

4.5

48 km19 km (12 mi) to the NIndian Ocean, 126 km southeast of Nusa Barung Island, East Java, Indonesia 5 reportsInfoOct 30, 2024 05:48 pm (GMT +8)

3.7

10 km25 km (16 mi) to the E Indian Ocean, 161 km southwest of Denpasar, Indonesia

Info

Oct 23, 2024 04:12 pm (GMT +7)

4.3

23 km44 km (27 mi) to the N Indian Ocean, 117 km southeast of Nusa Barung Island, East Java, Indonesia 5 reportsInfoOct 13, 2011 10:16 am (GMT +7)

6.1

39 km78 km (48 mi) to the NE Indian Ocean, 95 km southwest of Kuta, Kabupaten Badung, Bali, Indonesia InfoFeb 12, 2010 02:43 am (GMT

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Solid or liquid? Scientists accurately predict complex tissue changes in fruit fly embryos

Published: 9 April 2025
Categories: National Science Foundation

RSS feed source: US National Weather Service

Funded by the U.S. National Science Foundation, scientists have accurately modeled particular cellular changes in Drosophila melanogaster, or the fruit fly, during embryonic development. When certain tissue shrinks dramatically to close a gap during the fruit fly embryo’s growth, the cells remain elastically solid rather than turning into a liquid form as expected. The model created by the researchers shows how this phenomenon happens and may lead to a new form of condensed matter physics with potential applications in neuroscience, biology and artificial intelligence.

The findings, published in Proceedings of the National Academy of Sciences,also revealed a surprising connection to the work that earned the 2024 Nobel Prize in physics.

“During the dorsal closure process, tissue, called amnioserosa, is shrinking like mad, and by all accounts, it should turn into a fluid,” says Andrea Liu, University of Pennsylvania theoretical physicist and author on the research. “But it doesn’t. The cells stay locked in place with their neighbors, and we wanted to understand why.”

Time-lapse video of fruit fly dorsal closure

Credit: I. Tah, D. Haertter, J.M. Crawford, D.P. Kiehart, C.F. Schmidt, A.J. Liu, PNAS.

Time-lapse video showing the microscopic dorsal closure process in a fruit fly embryo. The superimposed yellow dots represent the cellular movements predicted by the researchers’ model.

The researchers used a method introduced

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