Eh, big stretch we knew their young grew so fast when there is so little fossil evidence to indicate as such. I mean, there’s very few complete t tex fossil finds, and even fewer that are juvenile. You’d likely have more success throwing darts at a dart board than predicting anything based on what we’ve found. As for being optimised for running, were still not sure how that worked. I mean, a lot of big cats are optimised for running, but very few run for sustained periods. See lions, cheetahs, tigers, etc.
Yeah, they could enter a torpid state, but that doesn’t mean they have to be vulnerable. We have many large reptiles now that do the same and aren’t at a significant risk of predation, if they were they wouldn’t do it. Also, we have some mammals that do the same and they aren’t predated to the point that they stop doing it.
Not a stretch at all considering the very well studied nature of the over 40 remarkably complete specimens we have. We can tell how much an animal grew from the thickness of bone rings, very much like tree rings. Tyrannosaurus in particular had massive growth after their thirteenth year, matching humans maximum growth spurt sustanied over 5 years or so.
Tyrannosaurus feet bones were shaped to lock together and function as a sigle unit. This reduces the energy cost of walking and is only found in a few other groups of dinosaurs, all of which are long-distance runners. A similar situation can be seen in horses and other ungulates, and to some extent humans and wolves. Cats on the other hand have very open foot structures, being optimized for sprinting and flexibility rather than running.
As for torpor, that was an offhanded idea, thinking about it again, torpor is usually used to conserve heat, so probably not necessary for T. rex.
Eh, big stretch we knew their young grew so fast when there is so little fossil evidence to indicate as such. I mean, there’s very few complete t tex fossil finds, and even fewer that are juvenile. You’d likely have more success throwing darts at a dart board than predicting anything based on what we’ve found. As for being optimised for running, were still not sure how that worked. I mean, a lot of big cats are optimised for running, but very few run for sustained periods. See lions, cheetahs, tigers, etc.
Yeah, they could enter a torpid state, but that doesn’t mean they have to be vulnerable. We have many large reptiles now that do the same and aren’t at a significant risk of predation, if they were they wouldn’t do it. Also, we have some mammals that do the same and they aren’t predated to the point that they stop doing it.
Not a stretch at all considering the very well studied nature of the over 40 remarkably complete specimens we have. We can tell how much an animal grew from the thickness of bone rings, very much like tree rings. Tyrannosaurus in particular had massive growth after their thirteenth year, matching humans maximum growth spurt sustanied over 5 years or so.
Tyrannosaurus feet bones were shaped to lock together and function as a sigle unit. This reduces the energy cost of walking and is only found in a few other groups of dinosaurs, all of which are long-distance runners. A similar situation can be seen in horses and other ungulates, and to some extent humans and wolves. Cats on the other hand have very open foot structures, being optimized for sprinting and flexibility rather than running.
As for torpor, that was an offhanded idea, thinking about it again, torpor is usually used to conserve heat, so probably not necessary for T. rex.