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PUT YOUR BEARD IN MY MOUTH
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Kiana Khansmith

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Discoholic 🪩
$LAYYYTER
2025 on Tumblr: Trends That Defined the Year

oozey mess
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Aqua Utopia|海の底で記憶を紡ぐ
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One Nice Bug Per Day
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titsay
TVSTRANGERTHINGS
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@sou-creative-mapping
Mount Meru is the physical, as well as metaphysical center of the universe for Buddhists, Hindu’s and Jain. If has been described in various ways with different maps of it and the surrounding features.
You’ll want to be sitting down for this one. (keep in mind that the tragic event in Sandy Hook CT happened exactly 7 days before the December 21st 2012 date that corresponded with the Maya prophecy of destruction/rebirth (the movement of our solar system across the galactic ecliptic- also: both the Druids and the Maya performed human sacrifice on specific days, and practiced “solar” based spiritual systems)
The line actually cuts right through the building itself. I have personally tested it on Google Earth- (you will have to use an older version if you want to check for yourself, as they have torn down the building and it no longer appears in the G.E. database.)
Who needs movies when real life holds so much fantastical potential?
Mind=Blown (do a little research about “ Hillegom Hole”)
This map from the Batman movie was made specifically for this particular movie- in all others, the area called “Sandy Hook” is called “South Hinkley”. The man who made this map died mysteriously in a minor car accident just after the release of the movie- the man who designed it, is non-other that the Grand-nephew of infamous Satanist Aleister Crowley- (I am not making this up- a few minutes of research can confirm it) PRETTY wild stuff.
Popular lore suggests that the street layout of Washington, D.C., was designed so that the streets emanating from the White House would intersect with landmarks in the area to form a pentagram. The designers of the district were Freemasons, and the pentagram is one of a plethora of symbols important to the fraternity. Is there any truth to this strange tale of Washingtonomancy, or is it mere coincidence? Let's take a look.
L’artiste Ed Fairburn utilise des cartes de routes, de trains et de rivières pour ensuite créer ses portraits féminins à grande échelle. Tel la sculp
Pretty cool stuff!
Take a virtual tour of the Rocky Mountains without leaving your couch. Outdoor junkie Billy Brown shows you some of the best views Colorado has to offer....
Role: Cartographer, Author Project: This lidar image of the Willamette River was originally the result of visual experimentation with color ramps and lidar elevation ranges. The image is a digital…
The “legend” to the map- (and configuration I plan to display them in)
Plugging away-
The Benefits of Brain Mapping
“Many scientists now believe that real progress on learning how the brain works can be made only through highly funded, interdisciplinary big science of the kind promised by US President Barack Obama’s BRAIN Initiative (Brain Research through Advancing Innovative Neurotechnologies) and the European Commission’s Human Brain Project, both launched this year. The first steps will be to develop technologies to map the brain in unprecedented detail, in terms of activity and anatomy — and to develop theoretical neuroscience to make sense of it.
The approach is intimidating. Each of the big programmes is expected to absorb US$1 billion or more in the next decade (although not all of the money is yet in the bank). Some neuroscientists worry that pumping so much money into top-down programmes will reduce support for small, hypothesis-driven projects in individual labs. They are also concerned that the money could be wasted by pouring it into schemes that turn out to be unhelpful.”
Read the original story
photo credit
Fly Over the ‘Brainbow’
Four years ago, Harvard scientists devised a way to make mouse neurons glow in a breathtaking array of colors, a technique dubbed “Brainbow.” This allowed scientists to trace neurons’ long arms, known as the dendrites and axons, through the brain with incredible ease, revealing a map of neuron connections. Using a clever trick of genetic engineering, in which genes for three or more different fluorescent proteins were combined like paints to generate different hues, researchers created a system to make each neuron glow one of 100 different colors. The result was that the dendrites and axons of individual neurons, previously almost impossible to pick apart from their neighbors, could be traced through the mouse brain according to their color. Now, fruit fly researchers have a similar bonanza on their hands. Last week, two Brainbow-based methods for making fly neurons glow customized colors—called dBrainbow and Flybow—were published in Nature Methods. This is the first time that scientists have converted the technique to work in fruit flies, and because these organisms have a very sophisticated set of existing genetic tools, researchers can exert even greater control over when and where the fluorescent proteins are expressed. Because axons and dendrites are so long and fine, it’s hard to tell which neurons they are from. Researchers have traditionally had to stain just one or two neurons in each sample, painstakingly compiling data from many brains to build a map. In contrast, many neurons are easily discernible in this cross-section of a fly’s brain made using dBrainbow. Using dBrainbow images, Julie H. Simpson and colleagues at the Howard Hughes Medical Institute’s Janelia Farm could tell which motor neurons controlled parts of a fly’s proboscis, which it uses to take in food.
Credit: Phuong Chung, Stefanie Hampel, and Julie H. Simpson/HHMI
Brainbow is a term used to describe the process by which individual neurons in the brain can be distinguished from neighboring neurons using fluorescent proteins. By randomly expressing different ratios of red, green, and blue derivatives of green fluorescent protein in individual neurons, it is possible to flag each neuron with a distinctive color. This process has been a major contribution to the field of connectomics, or the study of neural connections in the brain.
The technique was originally developed in the Spring of 2007 by a team led by Jeff W. Lichtman and Joshua R. Sanes, both professors of Molecular & Cellular Biology in the Department of Neurobiology at Harvard Medical School. Their demonstration of the technique in mice first appeared in the November 1, 2007 issue of the journal Nature. The original technique has recently been adapted for use with other model organisms including Drosophila melanogaster and Caenorhabditis elegans.