pogil activities for ap biology answers eutrophication. Thu, 20 Dec . GMT pogil activities for ap biology pdf – BioInteractive has long been known for. Download Pogil Activities For Ap Biology Eutrophication Answers Pdf. 10 pogil? activities for ap biology extension questions model 4? the study of. [EBOOKS] Pogil Activities For Ap Biology Answers Eutrophication. Book file. PDF easily for everyone and every device. You can download and.
|Published (Last):||16 December 2007|
|PDF File Size:||15.91 Mb|
|ePub File Size:||5.43 Mb|
|Price:||Free* [*Free Regsitration Required]|
Let me show you some more. It’s getting way more phosphates than would have typically happened just if there wasn’t fertilizer, if there wasn’t this runoff happening. It’s really happening because there’s extra nutrients that are allowing these algal eutrophicayion or aldral algo, I don’t know, to go out of control and when they decompose the bacteria is sopping up all the oxygen, nothing else can live. So you have more phosphates in this, let’s say this is a lake of some kind, so I’ll make it big.
If you’re seeing this message, it means pgoil having trouble loading external resources on our website. Eutrophication and dead zones.
Pogil Activities For Ap Biology Eutrophication Answers
We’ve already talked about the role of oxygen in respiration. And you might say okay, well why is this bad? But now all of a sudden, if eutfophication bacteria, because they’re able to decompose all this algae that is dying, if they’re consuming all of the oxygen, well it depletes the oxygen from the water so that the ocean animals can’t live there anymore.
And if you were to zoom in, let’s say on the Caspian Sea, you can see this in more detail, you can visually see this. In order to ensure that the crops grow as much as they can, we add fertilizer to it, and a lot of that fertilizer might be nitrogen, it might be phosphorous in the form of phosphates, so we add fertilizer.
Euhrophication this fish is going to die and other animals like it aren’t going to live because there’s not gonna be enough oxygen in that water.
And so you might think that this is a good thing but as we’ll see over the course of this video, this is really about over-nourishment, and over-nourishment to the point that it’s actually causing very bad things to happen in our biosphere. Eu referring to well and then trophic or trophia, referring to nourished, or nourishment. And this is a serious problem. And so this is where that algae is getting over-nourished.
It could just make the surface of the water a little bit less clear, a little bit green, but hey, there’s living things here. Video transcript – We’re now going to talk about eutrphication called eutrophication.
Science Biology Ecology Biogeochemical cycles. You can see eutrophiation algeal, algal blooms throughout this area. As the water, either due to rain or irrigation for the crops, as the water flows from those crops into local streams and rivers, it’ll eventually find its way into local streams and rivers.
Eutrophication and dead zones
So this is a serious ecological thing that we have to think about. And then we have a Dead Zone. And this is, let’s say that’s a farm, right over there on the land where we’re growing our crops. So these are all the crops that we’re growing.
Now a lot of times when we think of ocean animals, so when we think of, I’ll just draw a little fish here, and so that’s a little fish, we don’t often think about the necessity of oxygen in the water.
And so, you could have photosynthetic organisms like algae in this lake and if it didn’t have the fertilizer you might just have a little bit of the algae. To log in and use all the features of Khan Academy, please enable Uetrophication in your browser. And so the irony here is, by having this fertilizer runoff, by having these extra phosphates, this eutrophication, by allowing one thing to grow far more than it would have otherwise, it actually ends up depleting the oxygen that keeps other things from growing.
The bacteria will consume all of the oxygen in the water.
That could be food for bacteria, and as the bacteria consume it, they also use oxygen. This is another one, and you’ve probably eutrophicattion this, especially in places that might have sewage runoff. And because of that, we humans have added a lot of nitrogen and especially phosphates to plants in order to grow them better, because we need the plants to live, to have more food. So the general idea, we’ve already talked about things like nitrogen and especially phosphorous being a rate-limiting factor for how fast plants can grow.
But ocean animals need oxygen just like we do, and they get that oxygen, waves can crash and as the waves crash it brings in oxygen from the surface that ocean animals can use in order to live, in order to do their respiration.
So right over here is kind of a global picture of dead zones that we have and you see them all through the world. On one level, phosphates and fertilizers, nitrates seem like a good thing, it’s helping us grow more crops, but we have to be very careful with where it actually ends up.
It’s making the water less clear. Let’s say this is a lake of it futrophication we already know that things like phosphates are the rate-limiting factors for plants. And this is happening on a macro scale.
And it actually creates what we call dead zones. And it comes from, or it’s derived from, the Greek for well nourished. And you see they are typically concentrated where we have more industrialized nations, where we have either more agriculture happening, more industrial agriculture, where they might be using more fertilizer and also where you might have more pogip from cities that will have nutrients like the phosphates, that will cause this eutrophication to happen.
And the biggest culprit here tends to be phosphates, the phosphorous in pogll, and that helps the plants grow more. And it’s not just fertilizers, even some detergents in the past, they have, you have sodium phosphates, which once again, can cause this eutrophication. But now since they’re getting all of these phosphates, the algae can go crazy.
So, right over here is a satellite image of the Caspian Sea and you can see the eutrophication. Once this algae dies, and it starts to float down, that can be food for bacteria. This is potential eutrophication in this picture. Well the issue is what happens once this algae dies. So what has happened is, so let’s say that this right over here pogkl some land. We have some pogi, here. Eutrophicaion helps the plants grow more, which seems like a good thing, but there’s another side effect that happens because of this.
Intro to biogeochemical cycles. We talked about that in the nitrogen and the phosphorous cycle videos. The algae can go crazy and grow all over the surface of the lake.