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* '']'', a symbiosis that can survive in extreme ]<ref>{{cite web|url=http://faculty.ucc.edu/biology-ombrello/pow/resurrection_plant.htm |title=Resurrection Plant |publisher=Faculty.ucc.edu |date= |accessdate=2012-01-30}}</ref> | * '']'', a symbiosis that can survive in extreme ]<ref>{{cite web|url=http://faculty.ucc.edu/biology-ombrello/pow/resurrection_plant.htm |title=Resurrection Plant |publisher=Faculty.ucc.edu |date= |accessdate=2012-01-30}}</ref> | ||
Certain resurrection plants have long been sold in their dry, "lifeless" form as curiosities. This custom was noted by many 19th century authors, and continues today |
Certain resurrection plants have long been sold in their dry, "lifeless" form as curiosities. This custom was noted by many 19th century authors, and continues today. | ||
In December, 2015, resurrection plants were featured in a ] given by Professor ] | In December, 2015, resurrection plants were featured in a ] given by Professor ] |
Revision as of 22:19, 1 March 2016
A resurrection plant is any poikilohydric plant that can survive extreme dehydration, even over months or years.
Examples include
- Anastatica hierochuntica, also known as the Rose of Jericho, a plant species native to deserts of North Africa
- Asteriscus (plant);
- Boea hygrometrica
- Haberlea rhodopensis
- Mesembryanthemum.
- Tillandsia
- Myrothamnus flabellifolius, a plant species native to Southern Africa
- Ramonda serbica, a species in the Gesneriaceae family
- Selaginella lepidophylla, a plant species native to North America, Central and South America, and sold as a novelty
- Lichen, a symbiosis that can survive in extreme desiccation
Certain resurrection plants have long been sold in their dry, "lifeless" form as curiosities. This custom was noted by many 19th century authors, and continues today.
In December, 2015, resurrection plants were featured in a TED talk given by Professor Jill Farrant , Molecular and Cell Biology, University of Cape Town, South Africa, who performs targeted genetic modification of crop plants to make them tolerate desiccation by activating genes that are already there but not natively expressed in response to drought.
See also
- Dehydration
- Cryptobiosis
- Anhydrobiosis
- Hygrochasy
- Pleopeltis polypodioides, the resurrection fern
References
- ^ Liberty Hyde Bailey (1916). The Standard Cyclopedia of Horticulture. Vol. 5. The Macmillan company. pp. 2920–2921, 3639.
- Zhang, T.; Fang, Y.; Wang, X.; Deng, X.; Zhang, X.; Hu, S.; Yu, J. (2012). Badger, Jonathan H (ed.). "The Complete Chloroplast and Mitochondrial Genome Sequences of Boea hygrometrica: Insights into the Evolution of Plant Organellar Genomes". PLoS ONE. 7 (1): e30531. doi:10.1371/journal.pone.0030531. PMC 3264610. PMID 22291979.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - "Resurrection Plant". Faculty.ucc.edu. Retrieved 2012-01-30.
- "TED Speaker: Jill Farrant". TED.com. Retrieved 2016-01-21.
- "TED Talk: How we can make crops survive without water". TED.com. Retrieved 2016-01-21.
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