Vernalization

Vernalization (from Latin vernus 'of the spring') is the induction of a plant's flowering process by exposure to the prolonged cold of winter, or by an artificial equivalent. After vernalization, plants have acquired the ability to flower, but they may require additional seasonal cues or weeks of growth before they will actually do so. The term is sometimes used to refer to the need of herbal (non-woody) plants for a period of cold dormancy in order to produce new shoots and leaves,^[1] but this usage is discouraged.^[2]

Many plants grown in temperate climates require vernalization and must experience a period of low winter temperature to initiate or accelerate the flowering process. This ensures that reproductive development and seed production occurs in spring and winters, rather than in autumn.^[3] The needed cold is often expressed in chill hours. Typical vernalization temperatures are between 1 and 7 degrees Celsius (34 and 45 degrees Fahrenheit).^[4]

For many perennial plants, such as fruit tree species, a period of cold is needed first to induce dormancy and then later, after the requisite period, re-emerge from that dormancy prior to flowering. Many monocarpic winter annuals and biennials, including some ecotypes of Arabidopsis thaliana^[5] and winter cereals such as wheat, must go through a prolonged period of cold before flowering occurs.

^ Sokolski, K.; Dovholuk, A.; Dovholuk, L.; Faletra, P. (1997). "Axenic seed culture and micropropagation of Cypripedium reginae". Selbyana. 18 (2): 172–82. JSTOR 41760430.
^ Chouard, P. (June 1960). "Vernalization and its relations to dormancy". Annual Review of Plant Physiology. 11. Annual Reviews: 191–238. doi:10.1146/annurev.pp.11.060160.001203.
^ Sung, Sibum; He, Yuehui; Eshoo, Tifani W; Tamada, Yosuke; Johnson, Lianna; Nakahigashi, Kenji; Goto, Koji; Jacobsen, Steve E; Amasino, Richard M (2006). "Epigenetic maintenance of the vernalized state in Arabidopsis thaliana requires LIKE HETEROCHROMATIN PROTEIN 1". Nature Genetics. 38 (6): 706–10. doi:10.1038/ng1795. PMID 16682972. S2CID 2855447.
^ Taiz, Lincoln; Murphy, Angus (2015). Plant Physiology and Development. Sunderland, Massachusetts (USA): Sinauer Associates. p. 605. ISBN 978-1-60535-255-8.
^ Michaels, Scott D.; He, Yuehui; Scortecci, Katia C.; Amasino, Richard M. (2003). "Attenuation of FLOWERING LOCUS C activity as a mechanism for the evolution of summer-annual flowering behavior in Arabidopsis". Proceedings of the National Academy of Sciences. 100 (17): 10102–7. Bibcode:2003PNAS..10010102M. doi:10.1073/pnas.1531467100. JSTOR 3147669. PMC 187779. PMID 12904584.

[1] Sokolski, K.; Dovholuk, A.; Dovholuk, L.; Faletra, P. (1997). "Axenic seed culture and micropropagation of Cypripedium reginae". Selbyana. 18 (2): 172–82. JSTOR 41760430.

[chouard-2] Chouard, P. (June 1960). "Vernalization and its relations to dormancy". Annual Review of Plant Physiology. 11. Annual Reviews: 191–238. doi:10.1146/annurev.pp.11.060160.001203.

[sung-3] Sung, Sibum; He, Yuehui; Eshoo, Tifani W; Tamada, Yosuke; Johnson, Lianna; Nakahigashi, Kenji; Goto, Koji; Jacobsen, Steve E; Amasino, Richard M (2006). "Epigenetic maintenance of the vernalized state in Arabidopsis thaliana requires LIKE HETEROCHROMATIN PROTEIN 1". Nature Genetics. 38 (6): 706–10. doi:10.1038/ng1795. PMID 16682972. S2CID 2855447.

[4] Taiz, Lincoln; Murphy, Angus (2015). Plant Physiology and Development. Sunderland, Massachusetts (USA): Sinauer Associates. p. 605. ISBN 978-1-60535-255-8.

[5] Michaels, Scott D.; He, Yuehui; Scortecci, Katia C.; Amasino, Richard M. (2003). "Attenuation of FLOWERING LOCUS C activity as a mechanism for the evolution of summer-annual flowering behavior in Arabidopsis". Proceedings of the National Academy of Sciences. 100 (17): 10102–7. Bibcode:2003PNAS..10010102M. doi:10.1073/pnas.1531467100. JSTOR 3147669. PMC 187779. PMID 12904584.

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