Frontal Cortex

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Gale Crater Clouds, variant by Stuart Rankin Via Flickr: Clouds that wouldn't be out of place over Death Valley, but seen by Curiosity over Gale Crater. Color/processing variant. Image source: www.jpl.nasa.gov/news/nasas-curiosity-rover-captures-shin... Original caption: The science team is studying the clouds, which arrived earlier and formed higher than expected, to learn more about the Red Planet. Cloudy days are rare in the thin, dry atmosphere of Mars. Clouds are typically found at the planet’s equator in the coldest time of year, when Mars is the farthest from the Sun in its oval-shaped orbit. But one full Martian year ago – two Earth years – scientists noticed clouds forming over NASA’s Curiosity rover earlier than expected. This year, they were ready to start documenting these “early” clouds from the moment they first appeared in late January. What resulted are images of wispy puffs filled with ice crystals that scattered light from the setting Sun, some of them shimmering with color. More than just spectacular displays, such images help scientists understand how clouds form on Mars and why these recent ones are different. In fact, Curiosity’s team has already made one new discovery: The early-arrival clouds are actually at higher altitudes than is typical. Most Martian clouds hover no more than about 37 miles (60 kilometers) in the sky and are composed of water ice. But the clouds Curiosity has imaged are at a higher altitude, where it’s very cold, indicating that they are likely made of frozen carbon dioxide, or dry ice. Scientists look for subtle clues to establish a cloud’s altitude, and it will take more analysis to say for sure which of Curiosity’s recent images show water-ice clouds and which show dry-ice ones. The fine, rippling structures of these clouds are easier to see with images from Curiosity’s black-and-white navigation cameras. But it’s the color images from the rover’s Mast Camera, or Mastcam, that really shine – literally. Viewed just after sunset, their ice crystals catch the fading light, causing them to appear to glow against the darkening sky. These twilight clouds, also known as “noctilucent” (Latin for “night shining”) clouds, grow brighter as they fill with crystals, then darken after the Sun’s position in the sky drops below their altitude. This is just one useful clue scientists use to determine how high they are. Even more stunning are iridescent, or “mother of pearl” clouds. “If you see a cloud with a shimmery pastel set of colors in it, that’s because the cloud particles are all nearly identical in size,” said Mark Lemmon, an atmospheric scientist with the Space Science Institute in Boulder, Colorado. “That’s usually happening just after the clouds have formed and have all grown at the same rate.” These clouds are among the more colorful things on the Red Planet, he added. If you were skygazing next to Curiosity, you could see the colors with the naked eye, although they’d be faint. “I always marvel at the colors that show up: reds and greens and blues and purples,” Lemmon said. “It’s really cool to see something shining with lots of color on Mars.”

Abell 3827, variant by Stuart Rankin Via Flickr: Edited Hubble Space Telescope image of the galaxy cluster Abell 3827. Color/processing variant. Original caption: This detailed image features Abell 3827, a galaxy cluster that offers a wealth of exciting possibilities for study. It was observed by Hubble in order to study dark matter, which is one of the greatest puzzles cosmologists face today. The science team used Hubble’s Advanced Camera for Surveys (ACS) and Wide Field Camera 3 (WFC3) to complete their observations. The two cameras have different specifications and can observe different parts of the electromagnetic spectrum, so using them both allowed the astronomers to collect more complete information. Abell 3827 has also been observed previously by Hubble, because of the interesting gravitational lens at its core. Looking at this cluster of hundreds of galaxies, it is amazing to recall that until less than 100 years ago, many astronomers believed that the Milky Way was the only galaxy in the Universe. The possibility of other galaxies had been debated previously, but the matter was not truly settled until Edwin Hubble confirmed that the Great Andromeda Nebula was in fact far too distant to be part of the Milky Way. The Great Andromeda Nebula became the Andromeda Galaxy, and astronomers recognised that our Universe was much, much bigger than humanity had imagined. We can only imagine how Edwin Hubble — after whom the Hubble Space Telescope was named — would have felt if he’d seen this spectacular image of Abell 3827.

Num5_SeaIce_20um_10X_04192018_2 by Jack P. Via Flickr: This album is part of the NZAC Series, a collection of photographs from an expedition to Antarctica in 2018. It was from New Zealand (NZ) to Antarctica (A) to Chile (C), hence NZAC. A group of international researchers embarked on this journey in Lyttelton, New Zealand, where the researchers and crew boarded the South Korean icebreaking research vessel, ARAON. The vessel sailed across the Antarctic Circle and eventually arrived at its destination in the Weddell Sea region of the Antarctic Peninsula. During this expedition, research activities were carried out which include helicopter operations and anchoring near the King Sejong Station. Finally, the vessel crossed the Drake Passage and docked in Punta Arenas, Chile where the expedition concluded.

The regeneration occurs by Marcos Sande, University of Bern by SNSF Scientific Image Competition Via Flickr: Entry in category 1. Object of study; Copyright: CC-BY-NC-ND: Marcos Sande FIRST PART The image represents a cardiomyocyte in a zebrafish heart during the regeneration process. The whole heart was cleared, whole-mount IF was done and scanned using a confocal zeiss 880 microscope with a 40x water immersion lense. Gray staining, MF20 (Alexa fluor 488),represents myosin heavy chain, cardiomyocytes can be seen. In red (Cy3), lineage tracing of sox10 cells, specific lineage of CMs during regeneration.These cells present a interest shape, atypical for a cardiomyocyte shape. The cardiomyocyte in red (sox10-derived cells) shows an expansion of the plasmatic membrane. These cardiomyocytes lead the regeneration process in the zebrafish heart. SECOND PART The zebrafish heart can repair the heart by themselves after injury. This cardiomyocytes, the cells of the heart, is one of the cells responsible to repair the damage. Using transgenic fish, we could follow specific cells to study this process using confocal microscopy.

Spiders 3 by Derek Lee Via Flickr: Microscopy specimens prepared by Edward Frederick Lee

"From a snake embryo with love" by Grigorii Timin, University of Geneva by SNSF Scientific Image Competition Via Flickr: Entry in category 1. Object of study; Copyright CC-BY-NC-ND: Grigorii Timin Development is generally described phenomenologically by the corresponding dynamics of gene expression and the observed morphological changes. Another approach, combining biological and physical processes, consists in the quantitative assessment of the time evolution of 3D spatial distributions of cell differentiation, proliferation, migration and signalling as well as the mechanical properties of the corresponding tissues. Implementation of these parameters in numerical simulations allows identifying their relative importance in the morphogenetic process. My PhD research, under the supervision of Pr. Michel Milinkovitch at the University of Geneva, includes such a multidisciplinary analysis applied to the development of skin scales in snakes. The image is a single focal plane from a 3D confocal scan of a cleared whole-mount African house snake embryonic skin sample stained for proliferating cells (red), beta-catenin (magenta), nuclear envelope lamin (cyan) and nuclei (green).

D5_009_coupe transversale niveau abdominal_cross section abdominal level_ammocète ammocoete Lampetra fluviatilis by Franck Genten

"Cathodoluminescence enlightening the origin of carbonates" by Clément Pollier, University of Geneva by SNSF Scientific Image Competition Via Flickr: Entry in category 1. Object of study; Copyright CC-BY-NC-ND: Clément Pollier Picture of a thin-section of microbialite under cathodoluminescence microscopy. The intensity of luminescence is proportional to the amount of trace elements present in the calcite, which is useful for studying the history of rock formation. These carbonates, precipitated by cyanobacteria, were collected at the Laguna de Los Cisnes (Tierra del Fuego, Chile) as part of my master thesis in geology. This image reveals concentric structures representing different phases of calcite cementation that have developed around a cyanobacterium filament that has now disappeared (leaving the cavity in the center).

Novel Coronavirus SARS-CoV-2 by NIAID Via Flickr: This transmission electron microscope image shows SARS-CoV-2—also known as 2019-nCoV, the virus that causes COVID-19—isolated from a patient in the U.S. Virus particles are shown emerging from the surface of cells cultured in the lab. The spikes on the outer edge of the virus particles give coronaviruses their name, crown-like. Image captured and colorized at NIAID's Rocky Mountain Laboratories (RML) in Hamilton, Montana. Credit: NIAID

Ariel by Italy in US Via Flickr: ARIEL Credits: Paolo Bianchini Affiliation: Nanoscopy, Fondazione Istituto Italiano di Tecnologia Title: 3D coded view of bovine retina rods by confocal laser scanning microscopy. Technical details: Confocal microscopy of rods in bovine retina, colors represent different z-planes. Motivation: Retina studies

RED07230 by Dave Thomas Via Flickr: Mammalian spermatogenesis

All the Colors of the Brainbow by NICHD Via Flickr: 50um vibratome section from Nkx2.1-Cre;Brainbow mouse, in which each MGE-derived cortical interneuron undergoes stoichastic Cre-mediated recombination events resulting in each cell being labeled with a unique hue. Credit: Tim Petros, NICHD/NIH

Cinnabar observed in reflected light (XPL) by Petr Hykš

Num5_SeaIce_20um_10X_04192018_2 by Jack P. Via Flickr: This album is part of the NZAC Series, a collection of photographs from an expedition to Antarctica in 2018. It was from New Zealand (NZ) to Antarctica (A) to Chile (C), hence NZAC. A group of international researchers embarked on this journey in Lyttelton, New Zealand, where the researchers and crew boarded the South Korean icebreaking research vessel, ARAON. The vessel sailed across the Antarctic Circle and eventually arrived at its destination in the Weddell Sea region of the Antarctic Peninsula. During this expedition, research activities were carried out which include helicopter operations and anchoring near the King Sejong Station. Finally, the vessel crossed the Drake Passage and docked in Punta Arenas, Chile where the expedition concluded.

A Histological Ode To Vincent Van Gogh by Bryan Jones Via Flickr: From: prometheus.med.utah.edu/~bwjones/2020/04/a-histological-o...

Mitosis - Onion Root Tip, l.s., 100x by Ken Schwarz Via Flickr: Amscope PS100-A - #55 Nikon Plan APO 100/1.40 @ 1.05 Achr/Apl oiled Canon 5DMk2