Biological life cycle

Life cycle of a mosquito. An adult (imago) lays eggs which develop through several stages to adulthood. Reproduction completes and perpetuates the cycle.

Life cycle of the single-celled parasite Babesia.

In biology, a life cycle is a series of changes in form that an organism undergoes, returning to the starting state. "The concept is closely related to those of the life history, development and ontogeny, but differs from them in stressing renewal."^[1] Transitions of form may involve growth, asexual reproduction, and/or sexual reproduction.

In some organisms, different "generations" of the species succeed each other during the life cycle. For plants and many algae, there are two multicellular stages, and the life cycle is referred to as alternation of generations. The term life history is often used,^{[citation needed]} particularly for organisms such as the red algae which have three multicellular stages (or more), rather than two.^[2]

Life cycles that include sexual reproduction involve alternating haploid (n) and diploid (2n) stages, i.e., a change of ploidy is involved. To return from a diploid stage to a haploid stage, meiosis must occur. In regard to changes of ploidy, there are 3 types of cycles:

• haplontic life cycle — the haploid stage is multicellular and the diploid stage is a single cell, meiosis is "zygotic".
• diplontic life cycle — the diploid stage is multicellular and haploid gametes are formed, meiosis is "gametic".
• haplodiplontic life cycle (also referred to as diplohaplontic, diplobiontic, or dibiontic life cycle) — multicellular diploid and haploid stages occur, meiosis is "sporic".

The cycles differ in when mitosis (growth) occurs. Zygotic meiosis and gametic meiosis have one mitotic stage: mitosis occurs during the n phase in zygotic meiosis and during the 2n phase in gametic meiosis. Therefore, zygotic and gametic meiosis are collectively termed haplobiontic (single mitotic phase, not to be confused with haplontic). Sporic meiosis, on the other hand, has mitosis in two stages, both the diploid and haploid stages, termed diplobiontic (not to be confused with diplontic).

Discovery

The study of reproduction and development in organisms was carried out by many botanists and zoologists.

Wilhelm Hofmeister demonstrated that alternation of generations is a feature that unites plants, and published this result in 1851 (see plant sexuality).

Some terms (haplobiont and diplobiont) used for the description of life cycles were proposed initially^{[citation needed]} for algae by Nils Svedelius,^[3] and then became used for other organisms.^{[citation needed]} Other terms (gametogamy, autogamy and gamontogamy) used in protist life cycles were introduced by Karl Gottlieb Grell.^[4]

The description of the complex life cycles of various organisms contributed to the disproof of the ideas of spontaneous generation in the 1840s and 1850s.^[5]

Haplontic life cycle

Zygotic meiosis

A zygotic meiosis is a meiosis of a zygote immediately after karyogamy, which is the fusion of two cell nuclei. This way, the organism ends its diploid phase and produces several haploid cells. These cells divide mitotically to form either larger, multicellular individuals, or more haploid cells. Two opposite types of gametes (e.g., male and female) from these individuals or cells fuse to become a zygote.

In the whole cycle, zygotes are the only diploid cell; mitosis occurs only in the haploid phase.

The individuals or cells as a result of mitosis are haplonts, hence this life cycle is also called haplontic life cycle. Haplonts are:

• In archaeplastidans: some green algae (e.g., Chlamydomonas, Zygnema, Chara)^[6]
• In stramenopiles: some golden algae^[6]
• In alveolates: many dinoflagellates, some apicomplexans (e.g., Plasmodium)^[7]
• In rhizarians: some euglyphids,^[8] ascetosporeans
• In excavates: some parabasalids^[9]
• In amoebozoans: Dictyostelium^[6]
• In opisthokonts: most fungi (some chytrids, zygomycetes, some ascomycetes, basidiomycetes)^[6][10]

Diplontic life cycle

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Gametic meiosis

In gametic meiosis, instead of immediately dividing meiotically to produce haploid cells, the zygote divides mitotically to produce a multicellular diploid individual or a group of more unicellular diploid cells. Cells from the diploid individuals then undergo meiosis to produce haploid cells or gametes. Haploid cells may divide again (by mitosis) to form more haploid cells, as in many yeasts, but the haploid phase is not the predominant life cycle phase. In most diplonts, mitosis occurs only in the diploid phase, i.e. gametes usually form quickly and fuse to produce diploid zygotes.

In the whole cycle, gametes are usually the only haploid cells, and mitosis usually occurs only in the diploid phase.

The diploid multicellular individual is a diplont, hence a gametic meiosis is also called a diplontic life cycle. Diplonts are:

• In archaeplastidans: some green algae (e.g., Cladophora glomerata,^[11] Acetabularia^[6])
• In stramenopiles: some brown algae (the Fucales, however, their life cycle can also be interpreted as strongly heteromorphic-diplohaplontic, with a highly reduced gametophyte phase, as in the flowering plants),^[12] some xanthophytes (e.g., Vaucheria),^[13] most diatoms,^[9] some oomycetes (e.g., Saprolegnia, Plasmopara viticola),^[6] opalines,^[9] some "heliozoans" (e.g., Actinophrys, Actinosphaerium)^[9][14]
• In alveolates: ciliates ^[9]
• In excavates: some parabasalids ^[9]
• In opisthokonts: animals, some fungi (e.g., some ascomycetes)^[6]

Haplodiplontic life cycle

Sporic meiosis

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In sporic meiosis (also commonly known as intermediary meiosis), the zygote divides mitotically to produce a multicellular diploid sporophyte. The sporophyte creates spores via meiosis which also then divide mitotically producing haploid individuals called gametophytes. The gametophytes produce gametes via mitosis. In some plants the gametophyte is not only small-sized but also short-lived; in other plants and many algae, the gametophyte is the "dominant" stage of the life cycle.

Haplodiplonts are:

• In archaeplastidans: red algae (which have two sporophyte generations), some green algae (e.g., Ulva), land plants^[6]
• In stramenopiles: most brown algae^[6]
• In rhizarians: many foraminiferans,^[9] plasmodiophoromycetes^[6]
• In amoebozoa: myxogastrids
• In opisthokonts: some fungi (some chytrids, some ascomycetes like the brewer's yeast)^[6]
• Other eukaryotes: haptophytes^[9]

Some animals have a sex-determination system called haplodiploid, but this is not related to the haplodiplontic life cycle.

Vegetative meiosis

Some red algae (such as Bonnemaisonia^[15] and Lemanea) and green algae (such as Prasiola) have vegetative meiosis, also called somatic meiosis, which is a rare phenomenon.^[16] Vegetative meiosis can occur in haplodiplontic and also in diplontic life cycles. The gametophytes remain attached to and part of the sporophyte. Vegetative (non-reproductive) diploid cells undergo meiosis, generating vegetative haploid cells. These undergo many mitosis, and produces gametes.

A different phenomenon, called vegetative diploidization, a type of apomixis, occurs in some brown algae (e.g., Elachista stellaris).^[17] Cells in a haploid part of the plant spontaneously duplicate their chromosomes to produce diploid tissue.

Evolution

The primitive type of life cycle probably had haploid individuals with asexual reproduction.^[9] Bacteria and archaea exhibit a life cycle like this, and some eukaryotes apparently do too (e.g., Cryptophyta, Choanoflagellata, many Euglenozoa, many Amoebozoa, some red algae, some green algae, the imperfect fungi, some rotifers and many other groups, not necessarily haploid).^[18] However, these eukaryotes probably are not primitively asexual, but have lost their sexual reproduction, or it just was not observed yet.^[19][20] Many eukaryotes (including animals and plants) exhibit asexual reproduction, which may be facultative or obligate in the life cycle, with sexual reproduction occurring more or less frequently.^[21]

See also

• Apomixis
• Eel life history
• Haplodiploidy
• Monocarpic, plants bloom once and then die
• Parasexual cycle
• Parasitic life cycles
• Parthenogenesis
• Reproductive biology

References

1. ↑ Lua error in package.lua at line 80: module 'strict' not found.
2. ↑ Dixon, P.S. 1973. Biology of the Rhodophyta. Oliver & Boyd. ISBN 0 05 002485 X
3. ↑ Svedelius, N. 1931. Nuclear Phases and Alternation in the Rhodophyceae. In: Beihefte zum Botanischen Centralblatt. Band 48/1: 38-59.
4. ↑ Margulis, L. (1996): Archaeal-eubacterial mergers in the origin of Eukarya: Phylogenetic classification of life.
5. ↑ Moselio Schaechter (2009). Encyclopedia of Microbiology. Academic Press. Volume 4, p. 85. [1].
6. ↑ ^{6.00 6.01 6.02 6.03 6.04 6.05 6.06 6.07 6.08 6.09 6.10} Díaz González, T.E., C. Fernandez-Carvajal Alvarez & J.A. Fernández Prieto. (2004). Curso de Botánica. Gijón: Trea. Online material: Botánica: Ciclos biológicos de vegetales (Vegetal life cycles, in Spanish). Departamento de Biología de Organismos y Sistemas, Universidad de Oviedo.
7. ↑ Lua error in package.lua at line 80: module 'strict' not found.
8. ↑ Lua error in package.lua at line 80: module 'strict' not found.
9. ↑ ^{9.0 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8} Ruppert, E. E., Fox, R. S., & Barnes, R. D. (2004). Invertebrate zoology: a functional evolutionary approach. Belmont, CA: Thomas-Brooks/Cole, p.26.
10. ↑ van den Hoek, C., D.G. Mann, and H.M. Jahns (1995). Algae: an introduction to phycology, p. 15, [2]. Cambridge University Press (623 pp).
11. ↑ O. P. Sharma. Textbook of Algae, p. 189
12. ↑ van den Hoek, C. et al. (1995), p. 207, [3].
13. ↑ van den Hoek, C. et al. (1995), pp. 124, 129.
14. ↑ Bell, G. (1989). Sex and Death in Protozoa. Cambridge University Press, p. 11, [4].
15. ↑ http://www.ingentaconnect.com/content/tandf/tejp/2009/00000044/00000003/art00012
16. ↑ van den Hoek, C. et al. (1995), pp. 82, 453.
17. ↑ Lua error in package.lua at line 80: module 'strict' not found.
18. ↑ Lua error in package.lua at line 80: module 'strict' not found.
19. ↑ Lua error in package.lua at line 80: module 'strict' not found.
20. ↑ Speijer, D., Lukeš, J., & Eliáš, M. (2015). Sex is a ubiquitous, ancient, and inherent attribute of eukaryotic life. PNAS, 112(29), 8827-8834, [5]
21. ↑ Lua error in package.lua at line 80: module 'strict' not found.

External links

Wikimedia Commons has media related to Life cycles.

• Silk worm Life cycle photos
• Life Cycles: Reflections of an Evolutionary Biologist. John Tyler Bonner. Princeton University Press, Princeton (New Jersey).
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