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Androdioecy

Presence of males and hermaphrodites in a population From Wikipedia, the free encyclopedia

Androdioecy /ˌændroʊdaɪˈiːsi/ is a reproductive system characterized by the coexistence of males and hermaphrodites. Androdioecy is rare in comparison with the other major reproductive systems: dioecy, gynodioecy and hermaphroditism.^[1] In animals, androdioecy has been considered a stepping stone in the transition from dioecy to hermaphroditism, and vice versa.^[2]

Androdioecy, trioecy and gynodioecy are sometimes referred to as a mixed mating systems.^[3] Androdioecy is a dimorphic sexual system in plants comparable with gynodioecy and dioecy.^[4]

Evolution of androdioecy

Summarize

Perspective

The fitness requirements for androdioecy to arise and sustain itself are theoretically so improbable that it was long considered that such systems do not exist.^[5]^[6] Particularly, males and hermaphrodites have to have the same fitness, in other words produce the same number of offspring, in order to be maintained. However, males only have offspring by fertilizing eggs or ovules of hermaphrodites, while hermaphrodites have offspring both through fertilizing eggs or ovules of other hermaphrodites and their own ovules. This means that all else being equal, males have to fertilize twice as many eggs or ovules as hermaphrodites to make up for the lack of female reproduction.^[7]^[8]

Androdioecy can evolve either from hermaphroditic ancestors through the invasion of males or from dioecious ancestors through the invasion of hermaphrodites. The ancestral state is important because conditions under which androdioecy can evolve differ significantly.^{[citation needed]}

Androdioecy with dioecious ancestry

In roundworms, clam shrimp, tadpole shrimp and cancrid shrimps, androdioecy has evolved from dioecy. In these systems, hermaphrodites can only fertilize their own eggs (self-fertilize) and do not mate with other hermaphrodites. Males are the only means of outcrossing. Hermaphrodites may be beneficial in colonizing new habitats, because a single hermaphrodite can generate many other individuals.^[9]

In the well-studied roundworm Caenorhabditis elegans, males are very rare and only occur in populations that are in bad condition or stressed.^[10] In Caenorhabditis elegans androdioecy is thought to have evolved from dioecy, through a trioecous intermediate.^[11]

Androdioecy with hermaphroditic ancestry

In barnacles, androdioecy evolved from hermaphroditism.^[3] Many plants self-fertilize, and males may be sustained in a population when inbreeding depression is severe because males guarantee outcrossing.^{[citation needed]}

Types of androdioecy

The most common form of androdioecy in animals involves hermaphrodites that can reproduce by autogamy or allogamy through ovum with males. However, this type does not involve outcrossing with sperm. This type of androdioecy generally occurs in predominantly gonochoric taxonomy groups.^[12]^: 21

One type of androdioecy contains outcrossing hermaphrodites which is present in some angiosperms.^[12]^: 21

Another type of androdioecy has males and simultaneous hermaphrodites in a population due to developmental or conditional sex allocation. Like in some fish species small individuals are hermaphrodites and under circumstances of high density, large individuals become male.^[12]^: 21

Androdioecious species

Summarize

Perspective

Despite their unlikely evolution, 115 androdioecious animal and about 50 androdioecious plant species are known.^[2]^[13] These species include

Anthozoa (Corals)

Nematoda (Roundworms)

Rhabditidae (Order Rhabditida)

Caenorhabditis briggsae
Caenorhabditis elegans^[10]
Caenorhabditis sp. 11
Oscheius myriophila
Oscheius dolchura
Oscheius tipulae
Oscheius guentheri
Rhabditis rainai
Rhabditis sp. (AF5)
Rhabdias nigrovenosum
Rhabdias rubrovenosa
Rhabdias ranae
Entomelas entomelas

Diplogastridae (Order Rhabditida)

Steinernematidae (Order Rhabditida)

Steinernema hermaphroditum

Allanotnematidae (Order Rhabditida)

Allantonema mirabile
Bradynema rigidum

Dorylaimida

Dorylaimus liratus

Nemertea (Ribbon worms)

Prostoma eilhardi^{[citation needed]}

Arthropoda

Clam shrimp

Eulimnadia texana^[22]
Eulimnadia africana
Eulimnadia agassizii
Eulimnadia antlei
Eulimnadia braueriana
Eulimnadia brasiliensis
Eulimnadia colombiensis
Eulimnadia cylondrova
Eulimnadia dahli
Eulimnadia diversa
Eulimnadia feriensis
Eulimnadia follisimilis
Eulimnadia thompsoni
Eulimnadia sp. A
Eulimnadia sp. B
Eulimnadia sp. C

Tadpole shrimp

Lysmata wurdemanni
Lysmata amboinensis
Lysmata californica
Lysmata bahia
Lysmata intermedia
Lysmata grabhami
Lysmata seticaudata
Lysmata nilita
Lysmata hochi
Lysmata nayaritensis
Lysmata rafa
Lysmata boggessi
Lysmata ankeri
Lysmata pederseni
Lysmata debelius
Lysmata galapaguensis
Lysmata cf. trisetacea

Icerya bimaculata
Icerya purchasi
Crypticerya zeteki

Annelida (Ringed worms)

Salvatoria clavata
Ophryotrocha gracilis
Ophryotrocha hartmanni
Ophryotrocha diadema
Ophryotrocha bacci
Ophryotrocha maculata
Ophryotrocha socialis

Chordata

Angiosperms (Flowering plants)

Some Acer (maple) species^[31]
Castilla elastica^[32]
Culcita macrocarpa
Datisca cannabina (false hemp)
Datisca glomerata (Durango root)
Fraxinus lanuginosa (Japanese ash)
Fraxinus ornus
Fuchsia microphylla
Gagea serotina
Mercurialis annua (Annual mercury)^[33]
Neobuxbaumia mezcalaensis^[34]
Nephelium lappaceum (Rambutan)
Panax trifolius (Ginseng)
Oxalis suksdorfii
Phillyrea angustifolia
Phillyrea latifolia
Ricinocarpos pinifolius^[35]
Sagittaria lancifolia (sub-androdioecy)^[36]
Saxifraga cernua
Schizopepon bryoniaefolius
Spinifex littoreus
Ulmus minor^[37]

See also

References

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External links

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