Isolasi reproduktif

Mekanisme isolasi reproduktif atau penghalang hibridisasi adalah kumpulan mekanisme, perilaku dan proses fisiologis yang mencegah anggota dari dua spesies yang berbeda yang disilangkan atau kawin dari menghasilkan keturunan, atau yang memastikan bahwa setiap anak yang mungkin dihasilkan steril. Hambatan ini menjaga integritas spesies dari waktu ke waktu, mengurangi atau langsung menghambat aliran gen antara individu dari spesies yang berbeda, yang memungkinkan konservasi karakteristik masing-masing spesies.^[1]^[2]^[3]^[4]

Lihat pula sunting

Catatan sunting

a. ^{^} The DNA of the mitochondria and chloroplasts is inherited from the maternal line, i.e. all the progeny derived from a particular cross possess the same cytoplasm (and genetic factors located in it) as the female progenitor. This is because the zygote possesses the same cytoplasm as the ovule, although its nucleus comes equally from the father and the mother.^[3]

Bibliografi sunting

Barton N., Bengtsson B. O. (1986), "The barrier to genetic exchange between hybridising populations", Heredity, 57 (3): 357–376, doi:10.1038/hdy.1986.135, PMID 3804765.
Barton N., Hewitt G. M. (1985), "Analysis of hybrid zones", Annual Review of Ecology and Systematics, 16 (1): 113–148, doi:10.1146/annurev.es.16.110185.000553.
Baker H G (1959), "Reproductive methods as factors in speciation in flowering plants", Cold Spring Harb Symp quant Biol, 24: 177–191, doi:10.1101/sqb.1959.024.01.019, PMID 13796002.
Grant V (1966), "The selective origin of incompatibility barriers in the plant genus Gilia", Am Nat, 100 (911): 99–118, doi:10.1086/282404.
Grant K, Grant V (1964), "Mechanical isolation of Salvia apiana and Salvia mellifera (Labiatae)", Evolution, 18 (2): 196–212, doi:10.2307/2406392, JSTOR 2406392.
Grun P, Radlow A (1961), "Evolution of barriers to crossing of self-incompatible and self-compatible species of Solanum", Heredity, 16 (2): 137–143, doi:10.1038/hdy.1961.16.
Jain S K, Bradshaw A D (1966), "Evolutionary divergence among adjacent plant populations. I. The evidence and its theoretical analysis", Heredity, 21 (3): 407–441, doi:10.1038/hdy.1966.42.
Mayr, E. 1963. Animal species and evolution. Harvard University Press, Cambridge.
McNeilly T (1967), "Evolution in closely adjacent plant populations. III. Agrostis tenuis on a small copper mine", Heredity, 23 (1): 99–108, doi:10.1038/hdy.1968.8.
Stebbins G L (1958), "The inviability, weakness, and sterility of interspecific hybrids", Adv Genet, 9: 147–215, doi:10.1016/S0065-2660(08)60162-5, PMID 13520442.
Strickberger, M. 1978. Genética. Omega, Barcelona, España, p.: 874-879. ISBN 84-282-0369-5

Referensi sunting

^ Baker, H G (1959). "Reproductive methods as factors in speciation in flowering plants". Cold Spring Harb Symp quant Biol. 24: 177–191. doi:10.1101/sqb.1959.024.01.019. PMID 13796002.
^ Barton N., Bengtsson B. O. (1986), "The barrier to genetic exchange between hybridising populations", Heredity, 57 (3): 357–376, doi:10.1038/hdy.1986.135, PMID 3804765.
^ ^a ^b Strickberger, M. 1978. Genética. Omega, Barcelona, España, p.: 874-879. ISBN 84-282-0369-5.
^ FUTUYMA, D. 1998. Evolutionary biology (3ª edición). Sinauer, Sunderland.

[T.Baker-1] Baker, H G (1959). "Reproductive methods as factors in speciation in flowering plants". Cold Spring Harb Symp quant Biol. 24: 177–191. doi:10.1101/sqb.1959.024.01.019. PMID 13796002.

[Barton-2] Barton N., Bengtsson B. O. (1986), "The barrier to genetic exchange between hybridising populations", Heredity, 57 (3): 357–376, doi:10.1038/hdy.1986.135, PMID 3804765.

[Strickberger-3] Strickberger, M. 1978. Genética. Omega, Barcelona, España, p.: 874-879. ISBN 84-282-0369-5.

[FUTUYMA-4] FUTUYMA, D. 1998. Evolutionary biology (3ª edición). Sinauer, Sunderland.

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