Avsnitt
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The gang discusses two papers about encrusting organisms. The first paper looks at evolutionary patterns of bryozoans to infer environmental triggers for shifts in the ways bryozoans calcify. The second paper uses the distribution of encrusting organisms on spirifd brachiopods to infer the ecology of both the encrusters and the brachiopod they grew on top of. Meanwhile, James discovers new foods, Amanda constructs a worm, and Curt gets confused and makes it everyone's problem.
Up-Goer Five (Curt Edition):
The friends talk about two papers that look at animals that do not move around much and live stuck to other animals. The first paper looks at a group of animals that grow together with their friends and grow really well on top of other things. This group makes hard parts out of stuff it gets from the water it lives in. When there are changes in ways big rocks move, this changes the types and number of things in the water that can be used to make hard parts, which can make one way of making hard parts easier than others. Most of these animals today make hard parts in the way that is not the way that is easy with how the water is today, but there are some groups that do use the easy way. This paper looks at how these groups changed over time using a family tree for the group, and they find that these groups that make their hard parts the easy way today may have started doing this when the water changed to the way it is today.
The second paper looks at a group of animals with hard parts on the top and bottom that lives on the bottom of the water place and eats food by moving water into it to pull the food from the water. These animals do not move around much and they have big hard parts, so they are places where these animals that grow on top of other animals like to grow on top of. This paper looks at how these animals grew on top of these other animals to see if there are anythings that are the same or different between groups of animals that are growing over these animals. This is also used to see if we can learn things about how the animals with hard parts on the top and bottom which are having things grown on top of them are living, because some ways things grow over these animal could only happen if the animal with hard parts on the bottom and top are already dead. This paper shows that a lot of the ideas we had about how this animal with hard parts on the top and bottom lived are wrong. These animals did not change the way they sat at the bottom as they got bigger, and we know this because the parts of the animal that would be in the ground are not covered with animals that would grow on top. The only times we see these parts covered are when the animals that grow over would grow over the parts where the animal with hard parts on the bottom and the top would use to get water into to eat, which means that animal must already be dead.
References:
Saulsbury, James G., et al. "Evolution of skeletal mineralogy in cheilostome bryozoans from calcite to aragonite seas." Geology 53.11 (2025): 914-918.
Vantoorenburg, Haley N., et al. "Palaeoecology of Middle Devonian epizoans and their Paraspirifer hosts." Palaeontology 69.2 (2026): e70050.
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The gang discusses two papers about fossil cephalopods. The first paper uses new methods to reassess the taxonomy of what was previously considered to be the oldest octopod, and the second paper uses preserved beaks to reconstruct large body sizes of Mesozoic octopods. Meanwhile, Amanda keeps it within Michigan, James brings up THE cephalopod talk, and Curt ascends.
Up-Goer Five (Curt Edition):
Our friends talk about two papers that look at animals with many arms and a sharp mouth. The first paper looks at some parts of a very old animal with many arms. People thought that it might be an animal with many arms that does not have a hard home to live inside and carry around with it. But this paper looks over that animal and finds that the animal is an animal that lived in a hard home that it carried, but after it died it fell out of that home when it started to fall to pieces. The second paper looks at another animal with many arms and uses the size of the mouth to see how big the animal was. They find that these animals with many arms were very very big. They also say that this means they were really sharp which the friends talk about a lot.
References:
Clements, Thomas, et al. "Synchrotron data reveal nautiloid characters in Pohlsepia mazonensis, refuting a Palaeozoic origin for octobrachians." Proceedings of the Royal Society B: Biological Sciences 293.2068 (2026).
Ikegami, Shin, et al. "Earliest octopuses were giant top predators in Cretaceous oceans." Science 392.6796 (2026): 406-410.
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Saknas det avsnitt?
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The gang discusses two papers that investigate phenotypic plasticity. The first paper reviews the pathways by which phenotype can be plastic, and the second paper looks at plasticity of breeding times in urban vs rural bird populations. Meanwhile, James manages a basement, Amanda names the papers, and Curt makes allegations.
Up-Goer Five (James Edition):
Today the group look at two papers that are interested in how animals change because of the type of place they live. The first paper is looking at different ways that animals can be changed, either by being changed as they grow or by changing things so that while the animal does not change right now its babies are different. The paper talks about how important the little bits that escape the brain to tell your body how to grow and what to make are and that many of the changes are caused by the different numbers of things escaping the brain because of the different places that the animal lives.
The other paper is looking at small angry animals that fly and seeing when they lay small round quiet babies in different places. They look at when the small round quiet babies first appear in places that are built by people and places that are built by trees and also look at how this time has changed over several years during which it has gotten hotter. They find that most small angry animals that fly have their small round quiet babies earlier in places that are built by people, and also that as things have gotten hotter that also makes them have their small round quiet babies earlier. The further up they are though it seems like the time between having small round quiet babies in place built by people and places built by trees is not as much.
References:
Seebacher, Frank, and Alexander G. Little. "Mechanisms underlying phenotypic plasticity in response to environmental change." Biological Reviews 101.2 (2026): 713-734.
Cuchot, Paul, et al. "Facing rising temperatures in urban environments: the role of phenological plasticity in an urban-dwelling passerine, Parus major." Proceedings of the Royal Society B: Biological Sciences 293.2068 (2026).
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The gang discusses two papers that investigate ancient bioherms. The first paper looks at the formation of early Phanerozoic reefs, and the second paper investigates patterns of reef building and collapse in the late Devonian. Meanwhile, James is being advertised to, Amanda plans unique roadtrips, and Curt solicits legal advice.
Up-Goer Five (Amanda Edition):
Today our friends talk about animals that have green friends that make hard bits. These animals that make hard parts are really important today because they make good places for other animals to live. But we don't know all about them and where they first came from and how they first started making hard parts for places to live. So the first paper looks at where these animals that make hard parts for other animals to live in come from. They look at really early animals that make hard parts and show what kinds of places they live in, and also how they stick themselves to the bottom. It looks like different animals got started in different ways, then went out to all sorts of different places and got better at making hard parts for other animals to live in, until that was all they could do.
The second paper talks about a bad time when everything died and how animals that make hard parts for other things to live in all died and tiny things we can't see without making them look big took over from them. At this time there were different animals that made hard parts for other animals to live in that lived together to make big areas of hard parts, but then they all died and never came back. But when we look at the rocks we find that tiny things we can't see without making them look big are all over the place while the animals that make hard bits for other animals to live in all die. This paper talks a lot about rocks, but the important thing is that they think the tiny things we can't see without making them look big might be the kind of thing that takes over all the places when times are bad and everything dies, but that might not be the case.
References:
Zhuravlev, Andrey Yurevich, and Rachel Wood. "On the origin of metazoan reefs." Proceedings of the Royal Society B: Biological Sciences 293.2068 (2026).
Xinsong, Zhang, et al. "How microbes replaced metazoans in reef ecosystem during the Late Devonian mass extinction: new insights from platform facies in South China." Lethaia 58.4 (2025): 1-22.
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The gang discusses two papers about the functional morphology of ancient groups of animals. The first paper is a review of how the life position of rangeomorph ediacaran taxa have been reconstructed, and the second paper conducts an actualistic experiment of Oviraptor nesting strategies. Meanwhile, Curt gets activated, James doesn't die, and Amanda relishes in details.
Up-Goer Five (James Edition):
The group look at two papers that focus of understanding how things are long dead lived. The first paper talks about strange things that might have either lived standing up or lying down at the bottom of the water which is big and you can not drink. It is hard to tell how these things lived because there are not any around today and so instead we need to look at their form and how they are found in the rock. Most of the things seem to have lived how we thought but one actually was lying down rather than standing up.
The second paper looks at how big angry animals without hair kept their round babies and helped them grow by making a form in the ground like they used and putting round babies in it. They looked at how the round babies did by themselves and how they did with a warm bag on top like their final big form. They decide that they probably had the final big form covering the round babies when they were growing but that they did not do it the same was a things that fly and do not have hair today.
References:
McIlroy, Duncan. "Determining the mode of life of Ediacaran rangeomorphs in deep marine settings of Peri-Gondwanan Avalonia." Assemblage 550.538Ma (2022).
Su, Chun-Yu, et al. "Heat transfer in a realistic clutch reveals a lower efficiency in incubation of oviraptorid dinosaurs than of modern birds." Frontiers in Ecology and Evolution 14 (2026): 1351288.
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The gang discusses two papers that use quantitative methods to investigate the biomechanical limitations of extinct organisms. The first paper models the range of jumping potential for a non-avian theropod dinosaur, and the other paper tests if an extinct bird could have skimmed the ocean for food. Meanwhile, James imagines a better future, Amanda is to blame, and Curt is heating up.
Up-Goer Five (Amanda Edition):
Today our friends look at two papers that talk about how things do stuff. The first paper looks at how a small one of large animals with thick skin and no hair would jump. It would jump very different than living animals with not thick skin with pieces that come off and have many parts. This is because they have long back parts that would get in the way and so they have to jump different. They could probably jump well, but just very different. The paper has very funny pictures that show this. The paper also has a computer do a pretend living animal with not thick skin with pieces that come off and have many parts, but they do not look at any living animals, just what the computer does.
The second paper looks at very big not living animal with not thick skin with pieces that come off and have many parts, that has not real teeth in its mouth and shows that it could not live like some living animals with not thick skin with pieces that come off and have many parts that have very long faces and the bottom part of their mouth is much longer than the top part. They go over water and use their mouth to eat things that live in water. But the not living animal with not thick skin with pieces that come off and have many parts was too big and too bad at flying to do this kind of living.
References:
Hellyer-Price, Olivia, Chris Venditti, and Stuart Humphries. "The largest extinct volant bird Pelagornis could not meet the energetic demands of skimming." Royal Society Open Science 13.2 (2026).
Charles, James P., Delyle T. Polet, and John R. Hutchinson. "Form–function relationships determining optimal jumping performance in an early bipedal dinosaur." Journal of The Royal Society Interface 23.235 (2026).
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The gang discusses two papers that are united by a fin. The first paper uses a computer algorithms to infer the shape of mosasaur tail fins, and the second paper looks at a new species of Spinosaurus with a crest. Meanwhile, James tastes flavor, Amanda tastes drink, and Curt tastes indifference.
Up-Goer Five - SERVER NOT FOUND! HELP!
References:
Song, Yang, and Johan Lindgren. "Convergence in aquatic locomotion: reconstructing mosasaurian (Squamata: Mosasauria) tail fins from osteological correlates and covariation with extant sharks." Paleobiology 52.1 (2026): 121-130.
Sereno, Paul C., et al. "Scimitar-crested Spinosaurus species from the Sahara caps stepwise spinosaurid radiation." Science 391.6787 (2026): eadx5486.
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The gang talk about two papers about extraordinary dinosaur fossils and the unique information that can be gleaned from them. The first paper looks at fossil skin data on a Cretaceous iguandodontian, and the second paper uses an exceptionally complete specimen to demonstrate the reality of Nanotyrannus. Meanwhile, James classifies, Amanda imagines T-rex, and Curt brings a unique energy.
Up-Goer Five (Curt Edition):
The friends look at two papers about big angry animals that everyone loves to talk about. The first paper is about the skin of one of these big angry animals. This skin has weird bits on it that are not like the weird bits we see in a lot of other animals that are close to these big angry animals. These bits do not look like the bits that would be used to stay warm or to move into the air. These bits look like they might hurt.
The second paper looks at a lot of stuff from one big angry animal that has been said by people in the past is just a young one of another big angry animal. The paper looks at the parts of this animal, how this animal grew, and a lot of other things to show that, no, this animal is not this other animal. This animal is its own type of animal.References:
Huang, Jiandong, et al. "Cellular-level preservation of cutaneous spikes in an Early Cretaceous iguanodontian dinosaur." Nature Ecology & Evolution (2026): 1-8.
Zanno, Lindsay E., and James G. Napoli. "Nanotyrannus and Tyrannosaurus coexisted at the close of the Cretaceous." Nature (2025): 1-3.
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The gang discuss two papers of odd fossils with exceptional preservation. The first paper looks at some Cambrian vertebrates and shows that soft tissue evidence suggests the presence of two sets of camera eyes (four eyes total), and they interpret the additional set of camera eyes as being a homolog to the modern parietal eye in vertebrates. The second paper uses exceptional preservation of the Rhynie Chert to test hypotheses for the taxonomic placement of the enigmatic Prototaxites and finds evidence that suggests it is not, as previously suggested, a fungus. Meanwhile, James is marooned by weather, Amanda accidentally traumatizes her cat, and Curt imagines the flesh trees.
Up-Goer Five (Curt Edition):
The friends talk about things that are weird. The first paper looks at a thing that is part of the big group that we are all a part of but is from a long long time ago and lived in the big blue wet thing. This thing has four eyes. Two of those eyes might be the things that become a part of the brain that is not the eyes today. But this shows that, early on, some of these animals could have had four eyes. This also means some animals we see later could have had parts of these other eyes that we have thought were other things.
The second paper looks at a thing that is weird that people thought was from a group that is not an animal but has some animal like things like eating other things but has walls in the cells. These weird things are from a long time ago and come from a place where the parts were saved from breaking down by glass getting inside the cells. This means you can see lots of cell stuff, and you can also break down the glass to get at some of the cell bits. This paper looks at a lot of this weird thing and they say that it is not part of the group people thought it was from. In fact, it is so weird that it is not like any group we have today. It is maybe something that is not around today that we did not know about.
References:
Loron, Corentin C., et al. "Prototaxites fossils are structurally and chemically distinct from extinct and extant Fungi." Science advances 12.4 (2026): eaec6277.
Lei, Xiangtong, et al. "Four camera-type eyes in the earliest vertebrates from the Cambrian Period." Nature (2026): 1-6.
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Listeners, I'm going to level with you. This podcast is cursed. Not because of the content, which is mostly a pretty straight forward discussion about two papers that look into the fossil record of Nimravids (early cats that are not true cats). No, this podcast is cursed because the file refused to be compiled, crashing Audacity 3 times and each time corrupting the save file. The fact that any mp3 file was able to be compiled at all was a minor miracle. I can only assume that this means this podcast data has gained sentience and did not want to be born. I have no control over what happens when this mp3 file gets released into the internet… so anyways enjoy the episode!
Up-Goer Five (Curt Edition):
The friends talk about two papers that both look at things we can see in the hard parts of animals that are like cats but are not cats and use those hard parts to figure out what these not cats are doing. These papers looks at different not cats and try and see what types of food they would eat and how they would get that food. Turns out that many of these not cats were doing things that are not the same as the cats we have today.
References:
Castellanos, Miguel. "Hunting types in North American Eocene–Oligocene carnivores and implications for the 'cat-gap'." Journal of Mammalian Evolution 32.2 (2025): 25.
Jiangzuo, Qigao, et al. "A new ecomorph of Nimravidae, and the early macrocarnivorous niche exploration in Carnivora." Proceedings of the Royal Society B: Biological Sciences 292.2059 (2025).
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The gang discusses two papers that use fragmentary fossils of animals to investigate the origins of major groups. The first paper describes an Early Ordovician eurypterid, and the second paper looks at mosaic evolutionary patterns in an early squamate. Meanwhile, James has bird opinions, Curt delights in not knowing, and Amanda will definitely be on time.
Up-Goer Five (Curt Edition):
The friends look at two papers that are using broken bits of things to learn a lot about animals from a long time ago. Both of these papers are looking at old animals that may give us new looks at how big groups of animals changed over time. These animals may be some of the first animals in these groups, or at least let us know what kinds of things those early animals could have been doing. The first paper looks at a group of animals that lived in the big blue wet thing a long time ago and are part of a group that today has animals that make homes that they use to catch food. The new parts this paper finds shows that this group may have come around a lot earlier than we thought. The second paper looks at parts from an animal that is in a group that is cold and has hard skin, some with legs and some without legs. These parts show that the early animals in this group had a lot of changes going on in their hard parts, maybe they changed more early on then they do today.
References:
Benson, Roger BJ, et al. "Mosaic anatomy in an early fossil squamate." Nature (2025): 1-7.
Van Roy, Peter, Jared C. Richards, and Javier Ortega-Hernández. "Early Ordovician sea scorpions from Morocco suggest Cambrian origins and main diversification of Eurypterida." Proceedings of the Royal Society B: Biological Sciences 292.2058 (2025).
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The crew of the CS Perry struggle to extract themselves from their rapidly deteriorating situation.
"Lightless Dawn" , "Spacial Harvest", and "Crypto" from Kevin MacLeod (incompetech.com)
Licensed under Creative Commons: By Attribution 3.0
http://creativecommons.org/licenses/by/3.0/ -
The crew of the CS Perry, now trapped in a space station run by multiple hostile AI, work to figure out how best to salvage a mission gone very wrong.
"Lightless Dawn" and "Crypto" from Kevin MacLeod (incompetech.com)
Licensed under Creative Commons: By Attribution 3.0
http://creativecommons.org/licenses/by/3.0/ -
The crew of the CS Perry begin the negotiation process for the CA-chip, but the sales team wants an arm and a leg for the product.
"Lightless Dawn" and "Crypto" from Kevin MacLeod (incompetech.com)
Licensed under Creative Commons: By Attribution 3.0
http://creativecommons.org/licenses/by/3.0/ -
The crew of CS Perry were offered the perfect deal, a quick stop at an abandoned spaceport to grab some mothballed tech and they'd be set for life. What could possibly go wrong?
"Lightless Dawn" from Kevin MacLeod (incompetech.com)
Licensed under Creative Commons: By Attribution 3.0
http://creativecommons.org/licenses/by/3.0/ -
For our holiday episodes this year, James, Curt, Amanda, and Ants get together to play a game of the space horror tabletop RPG Mothership. Join us for our introductory episode where we discuss the setting, rules, and the main characters of our story.
"Lightless Dawn" from Kevin MacLeod (incompetech.com)
Licensed under Creative Commons: By Attribution 3.0
http://creativecommons.org/licenses/by/3.0/ -
The gang discusses two papers that are about dinosaurs, and that is all that connects them! The first paper investigates community structure during the Cretaceous, and the second paper describes a well preserved "mummy" of a duck-billed dinosaur. Meanwhile, Amanda is doing well (really she is now), Curt makes an awkward segue, and James has not seen Tremors.
Up-Goer Five (Curt Edition):
The friends talk about two papers about big angry animals from a long time ago. The first paper looks at how many types of big angry animals were in a place before something bad happened and all the big angry animals died. Lots of people have said that the big angry animals might have been in trouble before the bad thing happen, and lots of other people say that they were probably not in trouble but we just don't have a lot of places that have the big angry animals in them for us to look and see what is happening at that time. This paper looks at a place and shows that it was during the time we want to see and that the types of animals in a place were a lot like the types of animals in a place before, so that means that it does not look like these big angry animals were having a bad time before the bad thing happened.
The second paper looks at soft parts of a big angry animal that was dried out so that you can see skin and other bits under the skin. This lets the people find out what the feet look like for this animal, and other bits about how it moved.
References:
Flynn, Andrew G., et al. "Late-surviving New Mexican dinosaurs illuminate high end-Cretaceous diversity and provinciality." Science 390.6771 (2025): 400-404.
Sereno, Paul C., et al. "Duck-billed dinosaur fleshy midline and hooves reveal terrestrial clay-template "mummification"." Science (2025).
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The gang discusses two papers that have very little in common with each except for the word "stem". The first paper uses birth death models to simulate the fossil record in order investigate if neutral models can produce patterns similar to the "crown"/"stem" evolutionary dynamics that have been observed in real data. The second paper investigates stem mandibulate fossils to investigate the timing of major key innovations in the evolutionary history of this arthropod group. Meanwhile, Amanda decides, James bullies, and Curt explains.
Up-Goer Five (Curt Edition):
The friends talk about two papers that have very little to do with each other, other than the fact that they have one of the same words in them. The first paper looks at the ways in which animals change over time and how they make more of each other and how the ways things live and die can make it look like there are some groups that do better than others. The paper shows that some of this is something we should see even if it is just because of how things make more things and the fact that we care more about the things that live today than the things that do not live today.
The second paper looks at how animals that have many parts that repeat make their arms and legs. This paper looks at very very old animals from groups that are not around today but maybe could be close to those groups. The group of animals today that this group is close to has a lot of things that all of them share, like that they make mouths from a lot of arms, and also they have things on the front they use to feel things, and that they are three parts. This paper is using these old animals that are close to this group to try and see which things today in this group appeared first, and which things may have taken some time before they appeared.
References:
Budd, Graham E., and Richard P. Mann. "The dynamics of stem and crown groups." Science Advances 6.8 (2020): eaaz1626.
Liu, Yao, et al. "A tiny Cambrian stem-mandibulate reveals independent evolution of limb tagmatization and specialization in early euarthropods." Scientific Reports 15.1 (2025): 19115.
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The gang discusses two papers that investigate injuries in fossil bones. The first paper tests hypotheses about the causes of facial injuries in herrarasaurids, and the second paper tests if inferred hunting strategies map onto injury patterns in predators from the La Brea Tar Pits. Meanwhile, Curt provides some hypotheses, Amanda gets spiritual, and James is photogenic.
Up-Goer Five (Curt Edition):
The friends talk about two papers that look at why animals from a long time ago got hurt. The first paper looks at some very old and angry animals with no hair that all got hurt in the face. They try to see why these animals got hurt in the face. They look at all the ways that they could have got hurt in the face and find that it was probably other animals just like them that they lived with that probably hurt them in the face.
The second paper looks at two groups of animals that eat other animals. One group of animals is man's best friend, and the other group of animals is from a group that does not care if man lives or dies. Since these two groups of animals are old and from a long time ago we don't know really what they ate but we use other things to come up with thoughts on how they could eat. We look to animals today that are like these animals and think that maybe these old animals ate the same way. But, trying to eat other animals is hard and can get you hurt, and you can get hurt in a lot of the same ways if you jump or run. This paper looks at how they got hurt to see if this fits with how we think they would eat. Turns out that the ways they were hurt makes sense if they ate way we think they ate, with man's best friend running and man's not best friend running.
References:
Garcia, Mauricio S., Ricardo N. Martínez, and Rodrigo T. Müller. "Craniofacial lesions in the earliest predatory dinosaurs indicate intraspecific agonistic behaviour at the dawn of the dinosaur era." The Science of Nature 112.2 (2025): 1-12.
Brown, Caitlin, et al. "Skeletal trauma reflects hunting behaviour in extinct sabre-tooth cats and dire wolves." Nature Ecology & Evolution 1.5 (2017): 0131.
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The gang discusses two papers that use taphonomic experiments to test hypotheses about the paleo-environmental conditions of the Crato Formation. Meanwhile, Amanda has her daily requirements, James longs for the rack, Curt launched a new podcast concept, and no one on this podcast can keep to a topic for longer than five minutes.
Up-Goer Five (Curt Edition):
The friends talk about two papers that look at rocks that come from the same place. This place is a spot where you get a lot of soft things from animals in the rocks which would usually not be able to be in the rocks because they would get broken up and lost. These two papers look at the types of animals we see in these rocks to see if that can tell us about the place where these animals with very soft parts were able to be saved. The first paper looks at small animals with many legs that stick their food with points on their mouth. When these animals die their legs are pulled under them. But in these rocks, the legs are not like that. The people who wrote this paper took some of these animals and put them in water and also water with stuff in it that you put on food and makes food good to eat. They found that the animals in the water with the stuff that makes food good had legs that look like looked like the rocks. This would mean that these animals were in water that had this stuff in it.
The second paper looks at other small animals with soft things. These animals need to live in water and would not do well if the water had the stuff in it that the other paper said it did. Some people have said that maybe this means the animals got put in here and did not live in here. So the people who wrote this paper took dead animals and shook them to make it like they were moved to see what happened. They found that they could not have been moved because they break up easy when you try to move them. This means that the water must have had some times when it was just water and some times when the water had lots of stuff in it that makes food good.
References:
Downen, Matt R., Paul A. Selden, and Stephen T. Hasiotis. "Spider leg flexure as an indicator for estimating salinity in lacustrine paleoenvironments." Palaeogeography, Palaeoclimatology, Palaeoecology 445 (2016): 115-123.
Storari, Arianny P., et al. "Taphonomy of aquatic insects from the Crato Formation Lagerstätte (Aptian, Lower Cretaceous) under an actualistic look." Plos one 20.9 (2025): e0331656.
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