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User:Claredailley/Amazon molly

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There are 4 stages in the reproduction of the Amazon molly. In the first step there is a diploid cell that is activated by a sperm cell but does not incorporate the genetic makeup of the sperm. The second step shows the copying of the two single chromosomes to make two doubled chromosomes. In the third step the two chromosomes are being pulled apart to opposite sides of the cell. In the 4th and final step there are two daughter cells, each with two single chromosomes, an exact replica of the mother cell.
The Amazon molly reproduces through gynogenesis. This image shows that the genetic material of the male is not incorporated into the offspring of the female. And the daughter cells produced are copies of the mother cell. [1]

Reproduction is through gynogenesis, which is sperm-dependent parthenogenesis. This means although females must mate with a male of a closely related species, the sperm only triggers reproduction and is not incorporated into the already diploid egg cells the mother is carrying (except in extraordinary circumstances), resulting in clones of the mother being produced en masse.[2] This characteristic has led to the Amazon molly becoming an all-female species. [3] Other all-female species include the New Mexico Whiptail, desert grassland whiptail lizard, and Blue-spotted salamander.

In nature, the Amazon molly typically mates with a male from one of four different species, either P. latipinna, P. mexicana, P. latipunctata, or occasionally P. sphenops.[4] One other male that could possibly exist in the Amazon molly's natural range that could induce parthenogenesis in Amazon molly females is the triploid Amazon molly males. These triploid males are very rare in nature and are not necessary in the reproduction of the species, which is why the species is considered to be all female. Since the male's sperm is not contributing to the genetic makeup of the offspring, it may seem non beneficial for males of closely related species to participate in mating with the Amazon molly. But, research shows that other female species, such as the Atlantic molly, are trend conscious and are more likely to mate with a male of their species if they see that male mate with an Amazon molly.[5] Therefore, the Amazon molly can only live in habitats that are also occupied by a species of male that will reproduce with them. [3]

The Amazon molly reaches sexual maturity one to six months after birth. An Amazon molly will not lay eggs but birth a brood typically between 60 and 100 live fry (young) being delivered every 30–40 days. This lends itself to a large potential for population growth as long as host males are present. The wide variability in maturity dates and brood sizes is a result of genetic heritage, varying temperatures, and food availability. They become sexually mature faster and produce larger broods in warm (approximately 27 °C) water that provides an overabundance of food.[6]

The Amazon molly has been reproducing asexually for about 100,000-200,000 years[7]. This is about 500,000 generations of Amazon molly. Asexual lineages typically go extinct after 10.0-100.0 generations[2]. There is research being done to determine how the Amazon molly has not gone extinct or developed a Muller's ratchet of mutations. Researchers believe the answer is in the genome of the Amazon molly,[8] yet more research must be done to determine this.

  1. ^ Janko, Karel; Eisner, Jan; Mikulíček, Peter (2019-01-24). "Sperm-dependent asexual hybrids determine competition among sexual species". Scientific Reports. 9 (1): 1–14. doi:10.1038/s41598-018-35167-z. ISSN 2045-2322.
  2. ^ a b Heubel, Katja (2004). "Population Ecology and Sexual Preferences in the Mating Complex of the Unisexual Amazon Molly Poecilia Formosa". {{cite journal}}: Cite journal requires |journal= (help)
  3. ^ a b Schlupp, Ingo; Riesch, Rüdiger & Tobler, Michael (July 2007). "Amazon mollies". Current Biology. 17 (14): R536–R537. doi:10.1016/j.cub.2007.05.012.
  4. ^ Froese, Rainer and Pauly, Daniel, eds. (2019). "Poecilia formosa" in FishBase. February 2019 version.
  5. ^ Balcombe, Jonathan (2017). What a fish knows: the inner lives of our underwater cousins. Scientific American/Farrar, Straus, and Giroux. p. 190.
  6. ^ Fredjikrang. "The Importance of the Reproductive Techniques of Poecilia formosa". petfish.net. Archived from the original on 16 December 2006.
  7. ^ amazon-molly-genome-research (2019-01-09). "The Amazon Molly's Ability to Clone Itself". www.txstate.edu. Retrieved 2019-10-31.
  8. ^ "Survival of all-female fish species points to its DNA | Biodesign Institute | ASU". biodesign.asu.edu. Retrieved 2019-10-31.


Peer Review Response

I fixed the grammar mistake Paulina pointed out. I plan to find another source about research being done to write about. I might add some sections and headings.