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In biology, a spore is a unit of sexual (in fungi) or asexual reproduction that may be adapted for dispersal and for survival, often for extended periods of time, in unfavourable conditions. Spores form part of the life cycles of many , algae, fungus and protozoa. They were thought to have appeared as early as the mid-late Ordovician period as an adaptation of early land plants.
are not part of a sexual cycle, but are resistant structures used for survival under unfavourable conditions. spores release amoeboid infectious germs ("amoebulae") into their hosts for parasitic infection, but also reproduce within the hosts through the pairing of two nuclei within the plasmodium, which develops from the amoebula.
In plants, spores are usually haploid and unicellular and are produced by meiosis in the sporangium of a diploid sporophyte. In some rare cases, a diploid spore is also produced in some algae, or fungi. Under favourable conditions, the spore can develop into a new organism using mitosis division, producing a multicellular gametophyte, which eventually goes on to produce gametes. Two gametes fuse to form a zygote, which develops into a new sporophyte. This cycle is known as alternation of generations.
The spores of are produced internally, and the megaspores (formed within the ovules) and the microspores are involved in the formation of more complex structures that form the dispersal units, the and pollen grains.
In common parlance, the difference between a "spore" and a "gamete" is that a spore will germinate and develop into a sporeling, while a gamete needs to combine with another gamete to form a zygote before developing further.
The main difference between spores and seeds as dispersal units is that spores are unicellular, the first cell of a gametophyte, while seeds contain within them a developing embryo (the multicellular sporophyte of the next generation), produced by the fusion of the male gamete of the pollen tube with the female gamete formed by the megagametophyte within the ovule. Spores germinate to give rise to haploid gametophytes, while seeds germinate to give rise to diploid sporophytes.
Heterosporous plants, such as , , quillworts, and of the order Salviniales produce spores of two different sizes: the larger spore (megaspore) in effect functioning as a "female" spore and the smaller (microspore) functioning as a "male". Such plants typically give rise to the two kind of spores from within separate sporangia, either a megasporangium that produces megaspores or a microsporangium that produces microspores. In flowering plants, these sporangia occur within the carpel and anthers, respectively.
Below is a table listing the mode of classification, name, identifying characteristic, examples, and images of different spore species.
| Spore Producing Structure | Sporangium | Produced by sporangium | Zygomycota | ||
| Produced by zygosporangium | Zygomycota | ]] | |||
| Ascus | Produced by ascus | Ascomycota | '']] | ||
| Produced by basidium | Basidiomycota | , including the basidiospore and basidium]] | |||
| Aeciospore | Produced by aecium | Rusts and Smuts | |||
| Produced by uredinium | Rusts and Smuts | ||||
| Produced by Telium | Rusts and Smuts | ||||
| Produced by oogonium | '']] | ||||
| Produced by carposophorophyte | Red algae | '' showing a carpospores and carposporophyte inside]] | |||
| Produced by Tetrasporaphyte | Red algae | '']] | |||
| Function | Chlamydospore | Thick-walled of fungi produced to survive in unfavorable conditions | Ascomycota | , chlamydospores and of Candida yeast.]] | |
| Parasitic Fungal Spore | Internal Spores | Germinate within a host | tree]] | ||
| External (Environmental) spores | Spores released by the host to infest other hosts | ||||
| Origin During Life Cycle | Meiospores | Produced sexually through meiosis, and give rise to a male gametophyte | Pollen in seed plants | , , and in some cases megaspores, are formed from all four products of meiosis.]] | |
| (macrospores) | Produced sexually through meiosis, and give rise to a female gametophyte | Ovule in seed plants | and heterosporous , only a single product of meiosis will become a megaspore (macrospore), with the rest degenerating.]] | ||
| Conidium | Produced asexually though mitosis | Ascomycota | |||
| Mobility | Mobile through Flagellum | Some algae and fungi | |||
| Aplanospores | Immobile, however still produce flagella | ||||
| Immobile spores that do not produce flagella | |||||
| Forcibly discharged from the fungal fruiting body due to internal force (such as built up pressure) | Basidiospores and/or part of the genus Pilobus | ||||
| Stratismospores | Forcibly discharged from the fungal fruting body due to external force (such as raindrops or passing animals) | ||||
The forcible discharge of single spores termed ballistospores involves formation of a small drop of water (Buller's drop), which upon contact with the spore leads to its projectile release with an initial acceleration of more than 10,000 G-force. Other fungi rely on alternative mechanisms for spore release, such as external mechanical forces, exemplified by puffballs. Attracting insects, such as flies, to fruiting structures, by virtue of their having lively colours and a putrid odour, for dispersal of fungal spores is yet another strategy, most prominently used by the stinkhorns.
In Common Smoothcap moss ( Atrichum undulatum), the vibration of sporophyte has been shown to be an important mechanism for spore release.Johansson, Lönnell, Sundberg and Hylander (2014) Release thresholds for moss spores: the importance of turbulence and sporophyte length. Journal of Ecology, n/a-n/a.
In the case of spore-shedding such as ferns, wind distribution of very light spores provides great capacity for dispersal. Also, spores are less subject to animal predation than seeds because they contain almost no food reserve; however they are more subject to fungal and bacterial predation. Their chief advantage is that, of all forms of progeny, spores require the least energy and materials to produce.
In the spikemoss Selaginella lepidophylla, dispersal is achieved in part by an unusual type of diaspore, a tumbleweed.
Whether spores arose before or after land plants, their contributions to topics in fields like paleontology and plant phylogenetics have been useful. The spores found in microfossils, also known as cryptospores, are well preserved due to the fixed material they are in as well as how abundant and widespread they were during their respective time periods. These microfossils are especially helpful when studying the early periods of earth as macrofossils such as plants are not common nor well preserved. Both cryptospores and modern spores have diverse morphology that indicate possible environmental conditions of earlier periods of Earth and evolutionary relationships of plant species.
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