There’s a reason grass is so common - it’s because it’s a wildly effective life strategy. Grass is actually quite hard to eat - there’s basically no nutrition in the leaves themselves, and grass evolved to incorporate silica “needles” in its leaves, so that it wears down your teeth when you try to eat it anyways.
Not to say that it’s impossible to eat grass, but you need to undergo a ton of highly specialized adaptations to make it possible. For most animals (including humans), it’s just not worth the effort
Ruminants that eat it have like several stomachs, they regurgitate the food they eat to re-eat it, and they require specialized gut bacteria to digest it. They have to spend like all of their time eating.
There’s a reason grass is so common - it’s because it’s a wildly effective life strategy. Grass is actually quite hard to eat - there’s basically no nutrition in the leaves themselves, and grass evolved to incorporate silica “needles” in its leaves, so that it wears down your teeth when you try to eat it anyways.
Not to say that it’s impossible to eat grass, but you need to undergo a ton of highly specialized adaptations to make it possible. For most animals (including humans), it’s just not worth the effort
Ruminants that eat it have like several stomachs, they regurgitate the food they eat to re-eat it, and they require specialized gut bacteria to digest it. They have to spend like all of their time eating.
I’d like a source on the silica needles?
Basically all grasses contain silica phytoliths but they likely don’t significantly contribute to teeth wear. https://www.sciencedirect.com/science/article/abs/pii/S0305440306001245
Thank you very much Sis! ✨
Interesting, thanks for sharing that. I wasn’t aware that there has been newer research countering the tooth wear model