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Delay in flowering occurs due to the deficiency of(a) $mathrm{N}$(b) $mathrm{S}$(c) Mo(d) All of these...

Question

Delay in flowering occurs due to the deficiency of(a) $mathrm{N}$(b) $mathrm{S}$(c) Mo(d) All of these

Delay in flowering occurs due to the deficiency of (a) $mathrm{N}$ (b) $mathrm{S}$ (c) Mo (d) All of these



Answers

A mineral deficiency is likely to affect older leaves more than (A) the minineral is a micronutrient. (B) the mineral is very mobile within the plant. (C) the mineral is required for chlorophyll synthesis. (D) the mineral is a macronutrient.

Okay, So let's discuss mineral deficiencies in plants in order to help you with your question a little bit. And in our example, there is Claro sis of the older leaves taking place right and closest is the yellowing of leaves. If you recall. So that's happening to our older leaves or old growth on the new leaves are staying bright green. So your multiple choice question lists a few options here, right? But all of these options actually will cause claro sis at one point or another. It's just determining how this question is worded or what? What concepts that expects you to walk through in order to reach the conclusion. So a deficiency of minerals required for chlorophyll? Yes, that is going to give you Claro, sis. Ah, macro nutrient deficiency. It will give you Claire Asus and a micronutrient deficiency is extremely uncommon. But that could also give you a little bit of Claire Asus. Now, the key here is thinking we're talking about claro sis in old leaves. Old growth not in the new growth. Okay. And so what is going to separate all of these things for us in her head now? The key, the true clue then is gonna lie in the mobility. Okay, that's how you're gonna find your answer. The mobility of nutrients is going to make a big difference in where you see the claro sis, right? Whether you see it in old growth or new growth, because what we're thinking about mobility and nutrient mobility. More importantly, what happens is if you have old growth and you have new growth happening, where do you think the plant is going to want to send its valuable nutrients? You know, Is it gonna want to keep all those valuable nutrients and the old already well developed growth? Or is it gonna want to send it on over to that new growth that's trying desperately to branch out, make new leaves, make new reproductive things? You know it's going to send it on to this new growth. Importantly, mobility will be your clue here. So let's think about this a little bit. You have micro or macro nutrients within a plant. It doesn't matter, and those nutrients are being held and used within this old growth, and suddenly there's new growth. And so the old girls has no problem volunteering. It's nutrients to this new growth in order to help the overall well being of the plant. But by doing so, if let's say thes nutrients are in a limited amount. Okay, let's say these nutrients are very limited. You only have so many. And this new growth is like, Geez, I'd really like to use it, but I'll send it to the new growth. Well, where does that leave Old growth, right. That means that here in the old growth, we're creating a deficiency. And so maybe you're going to see a little bit of yellowing right now. The key to remember here is that the more mobile nutrients are, the less of those nutrients the old growth is going to have. So the more mobile nutrients are the Mork Leros ISS that we're going to see in the old growth. And that right there is your answer, guys, your selection should be be. If the mineral is very mobile, then Claro sis of the older leaves will present. And I hope that clears it up for you. And you have some happy studying

Problem, 51 explores. The idea of photo period is, um, or the response to day or night length by plants. So photo period is, um, works through this elegant fighter chrome system that if we'd text the relative amounts of different wavelengths of light, um, president at different times of the year and a few that system plants can detect, basically, whether the night is short or long, is able to compare night length from one night to the next in order to determine what time of here it is. So plant the flowers in response to a lengthening nights likely blooms either in the spring. A be summer, see autumn or de winter. Now what we know about the progression of the cycle of night think of the year is short. Nights mostly exists in the summer. They gradually lengthen through autumn until winter, where the longest nights are and then shortened again over spring and summer. So a plank that compares these wavelengths of light two basically determine when nights are becoming longer. Um, most likely blooms either in the late summer or early autumn, when temperatures were still favorable. Light conditions were still favorable, But there's credible, readily detectable, longer nights. So the best answer for this question is likely autumn, because the nights are so surely becoming longer. But conditions are still favorable for, uh, flower.

Hello, everyone. I hope all is well. And today all would be helping you through the problem for of the chapter 24 problems that so what problem for is trying to have you do is tryingto and identify which of the following answers is not a vegetative Oregon. So the keyword within this problem is vegetative Oregon. So for those of you who do not know, vegetative organs are organs of the plant that are not directly involved in sexual reproduction. So actually plants can be identified and divided into 22 sectors, really, or two divisions, which is sexual organs and vegetative organ. So vegetative organs are not involved in are not directly involved in sexual reproduction. So out of all of these, um, so vegetative organs, in fact include everything about the whole entire plant, except for reproductive structures of flowers, seeds and fruits. So when looking at this problem, there's only one answer that stands out, which is seeds. Sow seeds is the right answer because you know that it's directly related in reproduction s. So it's a sexual organ, and that's because it gives rise to new plants. And if you're to go through with these through process of elimination. You know that leaves don't create new plants. Stems don't create new plants. Also, woody stems are the dead parts of the of the plant like this island. And then the roots are used for absorption and not for reproductions. That is why the seeds would be the correct answer. I hope you found this helpful. Thank you very much.

Everybody today, I'm gonna be walking through problem number 10 from chapter 40. So we'll be talking about no estrogenic diabetes in sickness. This is not related to diabetes. Manages just the insulin disorders. These are a th disorders. Um, Debbie desensitizes in its various forms and never genic diabetes and syphilis. The kidneys don't respond to 80 Agent Moore. So we have a access of a TH plus it would loss, um so which were moving conditioner, Miss Smashed. That be too much of a th. This would be an example of devotees in sickness or specifically pathogenic Debbie's. It's in this, so


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