and one day, everyone will know our names. but this moment is ours alone
Stranger Things

★
sheepfilms

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Kaledo Art
DEAR READER
PUT YOUR BEARD IN MY MOUTH
noise dept.
h

Origami Around
KIROKAZE
Peter Solarz
"I'm Dorothy Gale from Kansas"

❣ Chile in a Photography ❣

pixel skylines

oozey mess

if i look back, i am lost
Cosmic Funnies
NASA
Keni
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@geolensgist
and one day, everyone will know our names. but this moment is ours alone
Kalakocetus aurorae was an early cetacean that lived during the Eocene, about 50-48 million years ago, in what is now the northwestern region of the Indian subcontinent.
It represents the (currently) most basal known branch of the whale lineage, with teeth that are transitional between the crushing herbivorous-omnivorous molars of the closely-related raoellids and the shearing carnivorous molars of later archaeocetes.
Only known from a lower jaw and teeth, its full life appearance is unknown — but based on the body proportions of other early cetaceans it would have been a roughly cat-sized animal, around 60cm long (~2'), possibly resembling a smaller version of its better-known relative Pakicetus. It was also probably similarly semiaquatic, wading into rivers to hunt fish and other small freshwater prey.
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NixIllustration.com | Tumblr | Patreon
[You should look a gift ungulate in the mouth: Using 2D occlusal cheek tooth morphology to study the evolution of molarization in ungulates]
Ashbaugh et al. (2026)
Canyon contrasts
(c) riverwindphotography, May 2026
A view from the South Rim of the Grand Canyon National Park.
Result from the Florissant Formation #paleostream! While it doesn't look like this this has been one of the most intensely researched pieces of the whole series, but more on that later. On this a late summer evening a Megacerops steps onto a clearing to take a sip from a...
puddle, but two oreodonts are already here. The clearing is the product of a volcanic avalanche, a lahar, that ripped through this part of the forest. These hot mud slides are the reason for the biggest claim to fame of this formation: huge well preserved redwood tree-stumps.
Today they form the center of a national monument that preserves the incredible natural heritage of this late Eocene formation. Redwoods might make you think of the Californian forests but the climate around this time was much warmer and so you might be faced with some cognitive...
dissonance when one part of the flora looked like Redwood Forest and the other like modern day Florida. The plant preservation form here is exceptional but not only that, it carries over to other organisms as well.
Beeches and oak relatives are among the most common plants here with tons of tree but very few preserved herbaceous plants. Subsequently the lowest tier of plants here is filled by seedlings of the tree Cedralospermum that take advantage of the sudden opening of the canopy.
When it comes to vertebrates the assemblage isn't as diverse as other Eocene localities and we have an interesting lack of amphibians and reptiles so far, but all of that just meant that we where able to focus more on the real stars of the show:
The invertebrates! So far more than 1500 species have been described, with many more still waiting. We have whole families here that didn't even get one member in. With the size and time given less than 10% of all animals known from Florissant made it into the final piece. The...
preservation here is incredibly beautiful, with complete specimens being common and color preservation not a rarity. I have to give an enormous thank you this week once again to everyone involved who helped with the research and especially the size charts!
Huge shout out goes to Montana (who did the plants), Gnath (who did the vertebrates and parts of the inverts), JW (who did a portion of the inverts) and Avery (who ALSO did parts of the inverts!).
P.s. for people unaware: for various reasons we are switching to a biweekly rhythm for the formation pieces now! Meaning we will have more time for research, finding compositional ideas or reaching out to researchers for feedback or guest appearances!
in the cambrian period the ocean was shallow and the sun never set. every day was sunday morning and there was never any dark. the world was a watery wonderland and air didnt exist yet. animals had just invented eating eachh other and it was really funny. having eyeballs was all the rage
its true ❤
what do you know ❤
the ocean was made of sprite also
theres been a lot of people on this post trying to correct basically every aspect of what ive said but nobody's confronted me on "everyday was sunday morning"
everybody agrees everyday was sunday morning
deinosuchus wouldve loved a lamb souvlaki
Trails of the PCT - Pacific national crest trail, CA, April 2023
photo by: nature-hiking
Instagram: nature__hiking
Ok, lets have a look at this: Over the last few days a new paper in Science has led to MANY discussions in the paleo community and it appears to have breached containment into the wider world, judging by headlines and google results.
"Earliest octopuses were giant top predators in Cretaceous oceans" by Ikegami et. al describes a new beak of the basal octopus genus Nanaimoteuthis. And yeah, it's a whopper! Just look at the specimen next to a giant squid beak in this figure! They also note that...
...beak shows some intense, asymmetrical wear, indicating a lot of hard objects being processed by this beak. On top of that they assign the genus to the group Cirrata (finned octopuses and relatives) instead of Vampyromorpha as it was in past papers. This is were the hard facts end though.
Don't get me wrong: This must have been a huge animal, but I also think that anything beyond this is purely speculative. The authors give a total length of 7 to 19 meters, an enormous range, with an estimated mantle length of max 4.4 m. They base this on the proportions of finned octopuses and other close relatives but I would argue that is just math for the sake of math. We know VERY little about early octopuses. Their beaks are often the only thing preserved and their diversity in the Cretaceous remains murky.
That's the size part, what I have an actual problem with though is the way they deduce behavior, died and even cognition from this fossil. Based on the size, wear and asymmetry they propose that this animal would compete, maybe even hunt large marine reptiles, in a smart way.
That's plain bullshitting in my eyes. Intense wear on a beak suggests this animal would be durophagous, going after armored or hard shelled prey. cracking the bones of marines reptiles feels very contrived and modern day octopuses (that often eat crabs) don't look much different.
The asymmetry of the beaks is an interesting detail but I would NEVER derive an argument for higher cognition from that. Cognitive abilities are next to impossible to grasp from the fossil record even IF you have the brain. Which leaves the question what was this guy doing?
Short answer is: we don't know. As I hopefully illustrated here we have simply too few data points to make any concrete arguments for this animals appearance or lifestyle. HOWEVER
As people pointed out on Discord: crushing shells in an pelagic habitat is something that was a breeze in the Mesozoic. Ammonites in the cretaceous come in many different shapes but also sizes. 50 cm plus species are not rare.
We also know from the Jurassic there were likely other cephalopods that went after ammonites. So if the ammonites grew in the Cretaceous why shouldn't their predators as well? Beyond ammonites the Late Cretaceous also gave rise to a large to gigantic bivales like many inoceramids
This abundance of durophagous prey is also reflected in the predators, large sharks, mosasaurs and even giant chimeras took advantage of this plentiful food source. I therefore think a large ammonite predator is a much more likely niche for Nanaimoteuthis.
In my interpretation I pair the octopus with the giant ammonite Parapuzosia, these animals aren't known from the same localities but their time ranges overlap which makes it plausible to me that these guys, or close relatives, could have met.
Lastly I want to quickly talk about the promotion and reception of this publication. While I don't completely fault the authors for their writing - after all LOOK AT THE MODERN ACADEMIC CLIMATE - I do think it's troubling that the editor's note, the journal itself, immediately evokes the image of the Kraken, a mythological creature, to sell it's new paper. This in combination with Science being a high profile journal makes it feel as if the claims in this publication are standing on more solid ground than they do. This is just my personal opinion but I think this is just bad science communication. It is something that will echo through the online sphere for years to come and does not in any way promote the caution that I would expect when claims like these are presented. Subsequently the ideas and evocative speech of the paper have already spawned a large amount of paleoart that goes for the largest and most speculative sides of it. Again: I think the size estimates in the paper are certainly possible, but I also think a more critical examination of the text is warranted when presented with such incredible claims. I am not here to kill your fun. But I also think that we are maybe looking at something even more interesting that the (at this point) already rather old trope of the mosasaur eating squid. At least to me a giant mollusk eats mollusk world is cooler.
AS ALWAYS, these are simply my opinions on these matters, but I thought there was enough uncritical yay and nay saying about this paper that I felt like it should warrant a reaction. I think the paper describes fascinating material and I eagerly await more!
Saguaros (Carnegiea gigantea), Tanque Verde Canyon, Rincon Mountains, Arizona.
The view towards Cascade Canyon
(c) riverwindphotography, early April 226
The upper portion of Mount Rainier was built of many lava flows that erupted between 40,000 to roughly 15,000 years ago. You can clearly see some of these lava strata, or layers, in the side of Success Cleaver, pictured here.
These lava eruptions coincided with the last major ice age which peaked about 20,000 years ago. The massive ice age glaciers hemmed in the lava flows. Numerous thin layers of lava built up between the glaciers, creating the rough ridges that radiate from the summit of Mount Rainier. Modern glaciers, like the Success Glacier at the bottom of the photo, are much smaller than the ice age glaciers.
NPS Photo showing a detail of Success Cleaver viewed from Ricksecker Point, 10/19/18.
Along the Yavapai Vista Trail in the red rock country near Sedona, Arizona.
insect orders often end in -optera, meaning wings. for example, the order chiroptera is a group of large bugs commonly known as "bats"
[We’ve all been there: 11.47, swamped by a long stretch of dense scientific talks at a conference. Six slides into a hyper-technical presentation, the speaker suddenly cracks a joke. The room erupts. Shoulders relax. Minds re-engage. Humour is a powerful but underused tool in scientific communication, often sidelined by academic norms that view levity as unprofessional. Social biases can further shape who feels safe joking without risking credibility. At 14 biology-related conferences, we collected data on humour use across 531 talks. Jokes clustered at the beginnings and ends of talks, with an extra bump in successful jokes midway through. Most jokes (66%) earned only polite chuckles. Humour success was unrelated to the type of joke or form of delivery; however, male speakers told about 0.35 more jokes per talk, and both male and native speakers had a 10% higher probability of eliciting laughter. This suggests how social dynamics influence who feels comfortable using humour and whose jokes resonate with the audience. Until academia reckons with these biases, humour will remain a privilege. Still, for those brave enough or granted the social licence, a well-placed zinger can turn a forgettable talk into one people actually remember—and perhaps even enjoy.]
Mammola et al. (2026)
Torres del Paine, 2025