“Barnacles may help reveal location of lost Malaysia Airlines Flight MH370.”

Views expressed in this science and technology update are those of the reporters and correspondents.  Accessed on 25 August 2023, 1351 UTC.

Content provided by email subscription to “ Newsletter.”

Source:“ Newsletter”).

Please click link or scroll down to read your selections.  Thanks for joining us today.

Russ Roberts (

View in browser

Read: Barnacles May Help Reveal Location Of Lost Malaysia Airlines Flight MH370

Also today

Artwork of moneybags

Climate’s Ledger: Science Poetry Friday!

Old time looking illustration of three men. Two are administering nitrous oxide to the third who is sitting in a chair.

Recreational Nitrous Oxide Use Is No Laughing Matter

Colorful drinking straws made from plastic. Pixabay

Paper Drinking Straws, Cups Bring Their Own Health, Environment Problems

Marble statue of a human head looking depressed. Credit Pixabay.

Formerly Depressed Patients Continue To Focus On Negative

Formed within wells indented into the stack of two different layered materials, a monolayer semiconductor and an anti-ferromagnetic crystal, the chiral quantum light emissions rise up out of the material and could be used for quantum information and communication applications.

New Quantum Device Generates Single Photons And Encodes Information

BBQ meat on a plate with asparagus. Pixabay

How The Meat And Dairy Sector Resists Competition From Alternative Animal Products

Woman running

Breast Size Affects Women’s Attitudes To Exercise

This image shows Neptune observed with the MUSE instrument at ESO’s Very Large Telescope (VLT). At each pixel within Neptune, MUSE splits the incoming light into its constituent colours or wavelengths. This is similar to obtaining images at thousands of different wavelengths all at once, which provides a wealth of valuable information to astronomers. The image to the right combines all colours captured by MUSE into a “natural” view of Neptune, where a dark spot can be seen to the upper-right. Then we see images at specific wavelengths: 551 nanometres (blue), 831 nm (green), and 848 nm (red); note that the colours are only indicative, for display purposes. The dark spot is most prominent at shorter (bluer) wavelengths. Right next to this dark spot MUSE also captured a small bright one, seen here only in the middle image at 831 nm and located deep in the atmosphere. This type of deep bright cloud had never been identified before on the planet. The images also show several other shallower bright spots towards the bottom-left edge of Neptune, seen at long wavelengths. Imaging Neptune’s dark spot from the ground was only possible thanks to the VLT’s Adaptive Optics Facility, which corrects the blur caused by atmospheric turbulence and allows MUSE to obtain crystal clear images. To better highlight the subtle dark and bright features on the planet, the astronomers carefully processed the MUSE data, obtaining what you see here.

Mysterious Neptune Dark Spot Detected From Earth For The First Time

Squirrel kidney cells show signs of amyloid deposits

Japanese Squirrels Develop Human Hereditary Diseases With Aging

Woman with measuring take around belly

Certain Gut Conditions May Be Early Warning Signs Of Parkinson’s Disease

Prestin expression in OHCs from control, efavirenz, and efavirenz plus phytosterols-treated mice.

Common Supplements Might Reduce Natural Hearing Loss

Penguins. Pixabay

Climate Change: Emperor Penguin Breeding Fails Due To Antarctic Sea Ice Loss


© 2023
548 Market Street PMB 72296, San Francisco, CA 94104

Get the appStart writing



Leave a Reply

This site uses Akismet to reduce spam. Learn how your comment data is processed.