Image description: Filaments of a bacteria named Thiomargarita magnifica, placed next to a dime for scale. It is the largest bacteria ever observed, and each filament seen here is a single cell.
Despite having visited the US many times, I have not the slightest idea of how big a dime is (or what it is worth), so it isn't a useful indicator of scale to me and, I suspect, much of the rest of the world.
I see this being downvoted, but images are copyrighted. Using an image for illustrative purposes is not fair use, is it? Therefore the articles can't just share the same images.
> Using an image for illustrative purposes is not fair use, is it?
Often it is; the paradigm would be commentary. If you're going to talk about the image, to some extent it's necessary to let people see what you're talking about. Reproducing the Mohammed cartoons ( https://en.wikipedia.org/wiki/Jyllands-Posten_Muhammad_carto... ) in a discussion of them would obviously be fair use.
As with most aspects of the legal system, there is no standard for what is or isn't fair use.
Hmm. I could swear that, when I first clicked on it, there was a picture of several of them, next to a dime. (Also, left-right reversed - you could tell by the writing on the dime.)
In San Pedro CA there's a beach called White Point Park, named for the mats of white sulfur oxidizing bacteria that grow in geothermal spring water. A Japanese family ran a bath house with the water from a geothermal spring but an earthquake damaged the flow and then being sent to internment camps ended it. I was gazing in the tide pools there when I got a whiff of sulfur, like at a hot spring, and followed my nose to a tide pool full of white fuzzy sulfur oxidizing bacteria (I think).
The imprisonment and terrorization of thousands of innocent civilians just because of their skin color and race... please dont go along with the attempt at calling these things just "internment camps"
> The imprisonment and terrorization of thousands of innocent civilians just because of their skin color and race... please dont go along with the attempt at calling these things just "internment camps"
What do you think internment camps usually are? “Concentration camp” would be accurate, though it's problematic because the use of that as a euphemism for the Nazi extermination camps tends to get people to view it as misuse when it is used in its original and literal sense.
This is the only case I ever hear anyone use the word “internment” so to me “internment camp” is just a synonym for “the place America put Japanese people.”
And “concentration camp” similarly means “the place the Germans put Jewish people (and other groups).”
I don’t think one word is inherently more intense than the other. The difference in how I think about the two is mainly down to what happened in the camps. Both were evil places where the government imprisoned innocent people. Only the Nazis were killing everyone.
Since we are cherry-picking terms, what most people imagine when the term 'nazi concentration camp' is mentioned is actually extermination/death camp. Organized mass murders predominantly via gas chambers or shooting. Wikipedia mentions 6 of those - Chełmno, Belzec, Sobibor, Treblinka, Majdanek and Auschwitz.
Concentration camps per se were just as name suggest - place to concentrate large group of undesirables, either for further sending ie to death camps, or organized hard labor of anything reich required. That horrible things happened en masse and conditions for survival were slim also here was just down to humans (at least in appearance) who ran it.
Reminds me of slime molds. If I'm not mistaken, they can switch between multicellular and unicellular forms, where their separate cells merge into a single giant one, though still with multiple nuclei.
No taste aside from slightly salty. The texture was a turn off as well. I would compare it to eating Ulva straight from the culture tank. I suggest Red Ogo with a crisp texture and a slightly salty cucumber flavor. I also use it as the last ingredient in chevichee, before the lemon juice begins to break down the texture
This is one of those cases where the genetic material is repeated multiple times inside the same "organism". It would be considered to be a filament made up of multiple cells, except that there isn't anything separating the individual cells, so it's technically "one cell".
It's like roping together 200 boats and claiming that you've created a mile long boat. You sort of did, but it's not really the first thing people think of when they see that phrase.
Are you saying that this is a multicellular bacterium? That might be even more spectacular. Although it also sounds a bit like this might be some new type of eukaryote.
It's a multiprocessor. The multiple available genes allow more expressiveness. Three genomes reacting to environmental changes exposes its resources 3 times as fast.
Or maybe the chromosomes are spatially optimal in a centimeter long rod.
Or maybe it's evolved to suppress the genes/proteins that would be excessive if it had 3 working copies being transcripted repeatedly.
I guess being long and thin they don't violate the square/cube laws that normally keep bacteria from getting too big given that they have to use their outer walls rather than mitochondria to respirate. Still very impressive.
I happened to write a paper on just this issue (shameless plug)! You're right: With a sphere, the metabolic consumption grows like R^3 but nutrient capture goes like the surface area, which scales like R^2. The result is a max radius R where nutrient in can support the consumption. However, for long thin object, both the volume and area grow like L, the length. The result is that -- rather than plateauing to a finite limit -- a long thin bacterium can actually maintain exponential growth indefinitely! and that is what is actually seen in the lab.
Some larger bacteria use a water sac inside to push all the living components close to the surface. So osmosis can feed them oxygen. I wonder if this one does that?
Aside: Searching for "Valonia ventricosa" in YouTube gives me absolutely atrocious results. A bunch of clickbait medical things and random gross-out stuff. Bleh. Anyone else?
Hum... I'm unsure and my sea spider sense is tingling. My first impression would be an egg sack like those from Opisthobranchia that could explain the DNA in pouches, or maybe a small bryozoa. If is covered in bacteria it could explain the genetic analysis.
Another possibility would be some kind of crystals growing from sulfur and covered in bacteria.
We need and electronic microscope image here and hystological cuts stained with gram.
"That turned out not to be the case. When the researchers peered inside the bacterial noodles with electron microscopes, they realized each one was its own gigantic cell. The average cell measured about 9,000 microns long, and the biggest was 20,000 microns — long enough to span the diameter of a penny."
The cytoplasm of those are very interesting. It has multiple partitions, and the cytoplasm is very viscous. They don't "pop" if there is damage or leak all their contents into the water. They can repair some amount of damage.
More even if the think that the structure is inside a fluid and subject to strong forces of pressure, currents and tides and bombed with sand each day. And we have a thin 1cm long cell that still somehow navigates it and don't break. It just does not feel right physically.
Those have got glial cells to help support the parts far from the nucleus. Plus they're in a cooperative multicellar environment, not off by their lonesome.
I need to find a good youtube video on the physics of cell membranes and cytoskeletons. It's completely wild that a lipid bilayer can be strong enough for an ostrich egg or flexible enough for an amoeba.
UPDATE: My bad, there are plenty of pictures in the supplemental materials downloadable further down the page