there's a couple of like, so there are the main, I think, like five hormones. There's auxins, cytokinins, Gibberellins, there's abscisic acid, and I think, like ethylene is classified as like a hormone. This is stuff that the ad world uses a lot, actually, like, so auxins, for example, I don't know if you've heard of a chemical called Two, 4d, but that is a potent herbicide. And basically what that herbicide does is it mimics auxins at a very high like, a very high efficacy, like, it mimics auxins very strongly, like how aspartame is, like 100 times sweeter than sugar. Two 4d is like 100 times stronger than normal plant produced auxin, so it basically makes the plant grow to death. That's what two 4d does. It's crazy, right? Wow. So these auxins are used, these hormones are used in the conventional ag and the turf and ornamental world a lot to exploit the way that plants grow, to either kill them or to make them better, something like cytokinins. Cytokinins are also applied to turf a lot, because you get the cytokinins in the soil, and that makes the top of the plant, the blade, blades of grass, go yo. We got a lot of cytokinins. We need to boost the grass production, big tall grass blades. So golf courses use that gibberellins are. We're just in the 2000s kind of scratching the surface on a lot of the actions of gibberellins. Everyone knows the the main actions, like they do cell elongation. If any guy's ever gotten like pro jib or some sort of gibberellic acid and sprayed it on their plants, they'll see the plants go, they stretch up, and then they two leave three leaf and they freak out. That's because the stretching out. We've kind of figured that out through certain metabolic pathways, like the two leafing, three leafing, all those like, kind of secondary symptoms of gibberellic acid application. We don't know, like no one's fully done all of the studies in all of the different plants, because the problem is, gibberellin is kind of like a, like a catch all trigger hormone in certain plants. It will induce, like, certain growth, like small like dwarfism, in the same family of plants, different cultivars, it will induce elongation. So it's like, man, it's very genetically dependent. A lot of the times they're used in things like like gibberellin, for example, if you need the stretch, but you don't really worry about anything else, rice. You need to keep the rice over the patty. You add the gibberellin to get the stretch, but then you stop, and then you don't really need any of the other properties. You let the plant grow naturally. So in certain phases, Gibberellins are very can be very important to certain growers. I don't have enough knowledge about how it plays into cannabis cultivation, and I haven't found a like personally, a normal use of gibberellic acid in the course of growing auxins for rooting, cytokinins to improve cell differentiation, branching and upward growth, but Gibberellins, I generally don't recommend people do anything with that. Same with ABA abscisic acid, I don't know enough about it. I don't think there's been enough research about it. Ethylene. There's been some research that definitely shows that it finishes out flowers, or it shortens your senescence time, like the time it takes for the plant to naturally kind of die off. So that is actually can be good or bad, depending on if you're trying to fit your cycle in a time window or or not, but generally, ethylene, abscisic acid and Gibberellins, I don't recommend for cannabis until there's more research that shows this genetic. This genotype responds this way to gibberellic acid. Until we have that data, it's kind of too much of a risk. And I think if you just focus on just even cytokines during growth, you'll get the benefits of adding a exogenous hormone without risking your crop at all. If that makes