Sun, 30 September 2018
The gang discusses two papers that look at our amazing fossil insect record. One of these studies looks at preserved fly pupae and shows some unexpected evidence of parasitism. The other study tries to understand the properties of tree sap that allows amber to preserve such amazingly detailed fossil insects. Meanwhile, Amanda has a weather catastrophe, Curt can do better, and James is a dream warrior.
Up-Goer Five (Amanda Edition):
Today our friends talk about very small things with six legs that are often hard to find after they die. These very small things with six legs might get stuck in tree stuff and die. That is where we will usually find them. The first paper finds very small things with six legs inside the changing space of other even smaller very small things with six legs. These very small things with six legs would break into the changing space of the other even smaller very small things with six legs and eat them. We don't know if they ate them slowly or fast, but they ate them while they were not dead. This is not usual to find after things die so it is very good to find. The other paper talks about how very small things things with six legs get stuck in tree stuff and die. The idea is that if they dry out first maybe they are more probably not going away after getting stuck in tree stuff and dying. This paper says no, drying out will make these very small things with six legs go away more after they get stuck in tree stuff and die. They also look at the very very very small things inside the very small things with six legs and say that these very very very small things help make the very small things with six legs go away. If we make the very very very small things go away with doctor stuff then the very small things with six legs are going to stay when they get stuck in tree stuff and die.
van de Kamp, Thomas, et al. "Parasitoid biology preserved in mineralized fossils." Nature communications 9.1 (2018): 3325.
Sun, 16 September 2018
The gang discusses two papers that deal with the origins of biomineralization (how living things make hard minerals to serve as skeletal structures). Specifically, we look at one paper focused on the origins of bone and a second paper focusing on some of the first instances of biomineralization in the fossil record. Also, Curt keeps a promise, James knows how to make a good impression on the neighborhood, and Amanda gets blamed for the actions of her cats.
Up-Goer Five (Amanda Edition):
Today our friends talk about things that have hard parts before there were supposed to be hard parts and how important hard parts that are inside of animals first was made. Very early animals that have hard parts before there were supposed to be hard parts are the same as things that do not hard parts. This paper says that it is because the place that they lived had too much of stuff that makes parts hard. These animals took the stuff out of water not because they wanted to, then they had to make it go away or they would die. So they made parts of their body hard. Later on making parts of the body hard was really important and they started doing it more and more even if there wasn't too much stuff in the water that makes parts hard. The second paper talks about how a weird type of hard part that is one of the important hard parts inside animals came to be. Some people think it is a new type of hard part inside of animals, but others say it is not. It turns out it is actually not really new like we thought but is actually a type of important hard part inside animals that is still around today. It is just a type that is not around today anymore.
Wood, Rachel, Andrey Yu Ivantsov, and Andrey Yu Zhuravlev. "First macrobiota biomineralization was environmentally triggered." Proc. R. Soc. B 284.1851 (2017): 20170059.
Keating, Joseph N., et al. "The nature of aspidin and the evolutionary origin of bone." Nature ecology & evolution(2018): 1.
Sun, 2 September 2018
The gang discusses two papers that investigate the ways that tetrapods return to the sea. It's another opportunity for Amanda talk at length about her favorite topic, CONVERGENCE. Meanwhile, James has ideas about "moral fortitude", Curt makes slightly off references to 80s films, Amanda exercises her desire to be deadly, and Mr. Jowls has some opinions that need to be heard.
Up-Goer Five (Amanda Edition):
Today our friends talk about animals with four feet that go back to the water. This is just a reason for our friends to talk about why some animals that are not very close like brothers look very much the same. The first paper says that since the start of the time of large animals with no hair and big teeth, there are more animals with four feet that go back to the water. Many of the animals with four feet that go back to the water look so very the same it is sometimes hard to tell that they are different if you do not look close. They talk about things that make these animals with four feet that go back to the water better for being in water, and how whole big groups of animals do not all change the same, but small groups change faster or more than others. They also talk about how and why these animals are changing. The second paper is about an animal with four feet and a long neck that goes back to the water. It has funny teeth and did not eat very small things like the largest animals living today that have no teeth, even though some things about this animal with four feet and a long neck that goes back to the water that might make you think that they ate very small things. It also has very heavy inside hard parts like big heavy water animals that get hit by people in wood things that go fast. This makes it heavy in water so it does not stay on top of the water but goes down to the bottom. This is how it ate food maybe.
de Miguel Chaves, Carlos, Francisco Ortega, and Adán Pérez-García. "New highly pachyostotic nothosauroid interpreted as a filter-feeding Triassic marine reptile." Biology Letters 14.8 (2018): 20180130.
Kelley, Neil P., and Nicholas D. Pyenson. "Evolutionary innovation and ecology in marine tetrapods from the Triassic to the Anthropocene." Science 348.6232 (2015): aaa3716.