The gang discusses a few papers that illustrate how different evolutionary processes can generate very similar morphological structures. Yes, we're talking about convergence again. But this time, things get kind of weird in the second half. Meanwhile, Amanda wrestles with the love of her cats, Curt understands his place in the group, and James invents a brand new way for birds to fly.
Up-Goer Five (Amanda Edition):
Today our friends talk about things that are not close but look a lot like each other. The first part is about animals that eat other things that are living. They say that sometimes it is the world around things that make them look like each other. Sometimes it is things like how much rain there is or how fast they grow up. So it is not always the fact that they all eat the same thing. But it might be. More things need to be done to see more about animals that eat other things. The second part is about things that fly and have no teeth, but also big angry animals with big teeth and no hair. They say that there is a part of where the leg ends that points behind that has parts that make the back part of the animal move, and that it is part of how the big angry animals with big teeth and no hair breathe. But they don't say how they figure this out very well. They confuse our friends. Then they say that this part of where the leg ends that points behind and the parts that make the back part of the animal move are important because they help the animals that can fly with no teeth fly the best of any big animal that can fly. They say it is important for the animals that can fly with no teeth to jump up when they fly. Our friends do not agree.
Tseng, Z. Jack, and John J. Flynn. "Structure-function covariation with nonfeeding ecological variables influences evolution of feeding specialization in Carnivora." Science advances 4.2 (2018): eaao5441.
Macaluso, Loredana, and Emanuel Tschopp. "Evolutionary changes in pubic orientation in dinosaurs are more strongly correlated with the ventilation system than with herbivory." Palaeontology (2018).