The life cycle of plants is quite different from the life cycle of animals. Plants go through a cycle called alternation of generations which means that there are two multicellular stages. One is diploid, called the sporophyte, and one is haploid, called the gametophyte. In contrast, our animal life cycle has only one multicellular stage, the adult that we are all in as we read/write this.
These two multicellular stages mean that there are a lot of other facets in the plant life cycle that may be unfamiliar to those of us with animal life cycles. The one that I am going to focus on here is the difference between spores and gametes. In dipoid organisms, like us, we have no spores. Our only single cell stage are our gametes. But plants have both spores and gametes and this can lead to some confusion because there are some similarities between the two. Spores and gametes are singles celled, and they are both haploid. But these are pretty much the only similarities you will find.
Fundamentally, spores and gametes are very different. One difference is in the type of reproduction that each are involved in. Spores are used in asexual reproduction, while gametes are used in sexual reproduction. Another difference is in what each needs to develop into the next stage in the life cycle. A spore has the ability to grow into the adult gametophyte all by itself. It does not need to interact with any other cell to do this, all it needs is to find favorable growing conditions. A gamete has to fuse with another gamete before it can form a zygote that then can grow into the adult sporophyte. A third difference is in the life span of these cells. Spores have a very tough outer layer that allows them to remain dormant, but viable, for extremely long periods of time (sometimes decades or even longer) in order to persist through periods of poor conditions until better growing conditions arise. Gametes are much more delicate and generally only remain viable for a matter of days, and so must find another gamete quickly. A fourth difference, related to the how long each cell lasts, is dispersal ability. Especially in more basally derived plant lineages, spores can disperse very, very long distances. They are small and light, and so can be carried by the wind for hundreds, or even thousands, of miles. Gametes, on the other hand can only disperse very short distances. The egg, the larger gamete, is generally retained and so does not disperse at all while the sperm, the small gamete, will swim to find an egg, but will generally only swim a few inches. Yet another difference between spores and gametes is the process by which they are created. Spores are created through meiosis. The structure that produces a spore is diploid and so must go through a process of chromosome reduction in order to create the haploid spores. Gametes are produced by mitosis. The structure that produces a gamete is already haploid and so does not need to change the number of chromosomes it has in order to produce haploid gametes.
So, hopefully this post explains how different spores and gametes are. I wanted to highlight this information because I see it as a common source of error.
abirdingnaturalist 
Very well explained and so helpful
Thank you so much.
You are very welcome. I’m glad this post was useful!
Thanks for the information!
My pleasure! Glad you found it useful.
Madam, after the fartlization the sporophyte plans are spate form gemetophyte?
Hi Laiq,
Thanks for reading my blog and for asking the question! Yes. Once fertilization takes place, the sporophyte grows into an independent plant that is different from the gametophyte..
thank you for the explaination,it was very helpful.
Glad you found it useful, and thanks for reading my blog! If there are other areas of biology that you are finding confusing, let me know. I am happy to write further posts.
Thank you for your explanation.It is very clear and useful for me.
Thanks for reading my blog! I am glad you found this helpful. If there are other concepts or areas of interest that you would like to see up here, let me know, and I will see what I can do.
That was a great explanation, thank you.
I am glad it was useful! Thanks for reading.
Thank you for the explanation. Aren’t gametes produced by meiosis as well?
Not always. They certainly are in animals. However, in plants the gametophyte is what produces gametes. Since the gametophyte is 1N, and gametes are 1N, gamete production does not require any change in chromosome number. So plant gametes are produced by mitosis.
Gametes in plants are also meiosis product. what stated above is wrong. Both male and female gametophytes are product of meiosis. The gametes are reduced because they go through meiosis.
Thanks for reading my blog and for thinking about this topic.
I think you may want to reexamine the definitions of mitosis and meiosis. Mitosis is the division of a cell with the daughter cells containing the same number of chromosomes as the parent cell. Meiosis is the division of a cell with the daughter cells containing half the number of chromosomes as the parent cell.
Plant gametes are produced by the gametophyte. The gametophyte is 1N and the gametes are 1N. Since the daughter cells have the same number of chromosomes as the parent cell, this is mitosis, not meiosis. In plants, meiosis occurs at an earlier stage in the life cycle.
Thank you for this helpful information.
Thanks for reading my blog, and I am glad it was useful. Feel free to let me know if there is any other biology-related-topic you would like explanations on or if you have questions.
I am still so confused. How does a gametophyte produce gametes?
How does a spore grow into a gametophye?
What is the purpose in a spore being able to travel far distances?
I am probably not thinking openly enough about this, as I am trying to relate it only to angiosperms to try picture it, but I’d really appreciate some help.
Hi Heather,
I am going to answer your questions somewhat out of order because I think things will make a bit more sense that way.
A spore is a haploid cell produced by meiosis. Being able to disperse long distances, and be viable over long time frames, allows spores to colonize new habitats that may be terrific to grow in, but far from the parent plant. It also allows them to be able to wait a long time for favorable growing conditions to occur. Both really important traits for plants.
Once the spore lands in a good spot, it grown in the haploid gametophyte. Since the gametophyte is already haploid, it does not need to change the number of chromosomes to produce a gamete and so the haploid gametophyte produces haploid gametes by mitosis.
Let me know if you have more questions or would like more clarification on any of this life cycle.
Brilliant! I see now! Is this correct: Once the male gametophyte is grown, then it will depend on external factors to disperse the pollen (wind, insects etc.), then once fertilisation has occurred the sporophyte will grow?
In Gymnosperms and Angiosperms, the male gametophyte and the pollen grain are two names for the same thing. And yes, for the pollen grain to get to the egg (or near enough to fertilize it), it relies on external factors (wind, water, insects, birds, bats, etc.). And you are also correct that once fertilization occurs, the sporophyte will grow. Sounds like you’ve got it!
Let me know if there are other subjects that you would like a piece written on, and I will see what I can do.
So, which Phyla use spores, and which use gametes?
All Phyla of plants use both spores and gametes. Having a multicellular gametophyte generation AND a multicellular sporophyte generation is one of the defining traits of plants.
This was a great explanation but I would like to know what is the point for a plant to have both spores and gametes… Thank you!
Hi AmeD,
Thanks for reading my blog! I am glad you found useful information here.
Each type of cell has pros and cons. Most plant gametes are fragile and do not remain viable for long; however, they are the mechanism for sexual recombination and so provide an important benefit for species adaptability and survival. Spores are very tough and can survive for long periods of time and through a wide range of very harsh conditions and so are very good for dispersal; however, they simply produce a clone of the sporophyte and so do not contribute much to adaptability.
By having both gametes and spores in their life cycles, plants benefit from the abilities to both disperse over large areas to find new regions to colonize, and also have the genetic flexibility to adapt to new conditions when they arise.
Thank you! This was very helpful.
Why gamete becomes sporophyte
and
spore becomes gametophyte
Sound Amazing…
The single-celled structures are named according to what produces them. So a gametophyte, the multicellular 1n body, produces the gamete. The sporophyte, the multicellular 2n body, produces the spore.
It helped me a lot. Thanks 😀
Hi Sadiq, I am glad this information was useful! Let me know if there are other topics that you would like information on.
Thank you so much for this♡
Hi Mani,
You are very welcome. i am glad this material proved useful. Let me know if there are other topics you would like discussed. I am happy to look into different topics and write about them if I can.
Aaron
Thank you. You helped me to complete my homework assignment 🤗🤗
I’m happy to hear you found my blog helpful! Thanks for reading!
Gametes are produced by mitosis. Sir can you explain it ??
Hi Abdul,
Gametes are mature haploid cells which are able to unite with another mature haploid cell in sexual reproduction to form a zygote. The gametophyte stage of the plant life cycle has a haploid body. So to produce haploid gametes, the haploid gametophyte causes some cells to divide. No change in chromosome number is needed. A cell division with no change in chromosome number is a process called mitosis. Does that address your question?
Thanks for the question and for reading my blog!
This is very interesting, in describing the difference in “characteristics” of spore and gamete. But it doesn’t really explain what the actual difference between a spore cell and a gamete cell is. Take single spore cell, whether a single-celled spore on its own dispersing thousands of miles, or part of a multi-cellular gametophyte, how is it different from a gamete? They are both haploid after all. Why can the spore not just be a gamete and join with another and be diploid? What happens in gametophyte when one of its cell turns into a gamete, or when a spore cell divides and becomes two gametes? How is a daughter gamete cell different that it’s parent spore cell? At a fundamental level, what has changed that now makes a gamete and allows it to fertilize or be fertilized by another? The growth of a gametophyte and the generation of a gamete are both by mitosis, so what changes?
Thank you!!
In this article, you describe the functional difference between spores and gametes, but you did not explain where the difference comes from. Spores and gametes are cells that can have exactly the same haploid nucleus, so where does the difference lie? What makes that a spore can germinate and a gamete can not?
Olivier
Hi Olivier,
One of the big differences is how these cells form. One is a product of mitosis and the other is a product of meiosis. Those are two distinctly different processes that come from distinctly different body forms (haploid vs diploid). But exactly what allows a spore to germinate pretty much on its own, while a gamete requires the fusion with another gamete to develop is beyond my knowledge of this subject. If you learn something about this, let me know!
Thank you very much
I was having a doubt in thi topic for a very long time but now because of your post my doubt has been cleared.
Thank you so much for this!
You are very welcome! Thanks for reading my blog!