Silene stenophylla is a species of flowering plant in the family Caryophyllaceae. Commonly called narrow-leafed campion, it is a species in the genus Silene. It grows in the Arctic tundra of far eastern Siberia and the mountains of Northern Japan. Frozen samples, estimated via radiocarbon dating to be around 32,000 years old, were discovered in the same area as current living specimens, and in 2012 a team claimed to have successfully regenerated a plant from the samples.
Habitat and description
S. stenophylla grows in the Arctic tundra of far eastern Siberia and the mountains of Northern Japan. It is typically 5–25 cm (2–10 in) tall, has narrow leaves, and a large calyx. It blooms during the summer and has incised petals that are lilac, light pink, or white in color. It is a perennial that grows on stony cliffs and sandy shores. S. stenophylla is one of a few Beringian plant species that did not establish itself in North America.
Discovery of frozen remains
In 2007, frozen Silene stenophylla seeds were discovered in the Kolyma region of Siberia, in the plant's present day range. Using radiocarbon dating, the age of the seeds was estimated at between 20,000 and 40,000 years, dating the seeds to the Pleistocene epoch. The seeds were thought to have been buried by ground squirrels. The embryos were damaged, possibly by the animals' activity.
In February 2012, a team of scientists from the Institute of Cell Biophysics of the Russian Academy of Sciences announced they had successfully regenerated specimens from fruit that had been frozen for 31,800 (±300) years according to radiocarbon dating. The accomplishment has not yet been independently verified, and previous claims of ancient regeneration have often not held up under scrutiny. If proven, the accomplishment would represent the oldest plant material brought back to life, surpassing the previous record of 2000 years set by Judean date palm seeds. The team, led by David Gilichensky, used material found in about 70 ancient hibernation burrows made by ground squirrels in the genus Urocitellus and located at Duvanny Yar, near the bank of the lower Kolyma River. The burrows were found 20–40 meters (66–130 ft) below the present-day surface. Usually the rodents would eat the food in their larders, but in this case a flood or other weather event buried the whole area. Since the rodents had placed the larders at the level of the permafrost, the material froze almost immediately, and did not thaw out at any time since. More than 600,000 fruits and seeds were located at the site.
Initially the researchers attempted to germinate mature seeds recovered from the fruit. When these attempts failed, they turned to the fruit itself and were able to culture adult plants from placental tissue. The team grew 36 specimens from the tissue. The plants looked identical to modern specimens until they flowered, at which time the petals were observed to be longer and more widely spaced than modern versions of the plant. Seeds produced by the regenerated plants germinated at a 100% success rate, compared with 90% for modern plants. The reasons for the observed variations are not known.
According to Robin Probert of the Millennium Seed Bank, the demonstration is "by far the most extraordinary example of extreme longevity for material from higher plants" to date. It is not surprising to find living material this old, but is surprising that viable material could be recovered, she added. The Russian scientists speculated that the tissue cells were rich in sucrose which acted as a preservative. They also noted that DNA damage caused by gamma radiation from natural ground radioactivity at the site was unusually low for the plant material's age and is comparable to levels observed in 1300-year-old lotus (Nelumbo nucifera) seeds proven to germinate. Probert hopes that the techniques developed in the resurrection of Silene stenophylla may one day be used to resurrect extinct species. Paleontologist Grant Zazula, who has previously disproven claims of ancient regeneration, said: "This discovery raises the bar incredibly in terms of our understanding in terms of the viability of ancient life in the permafrost." He added that there is "no doubt in [his] mind" that the claim is legitimate.
- "Regeneration of whole fertile plants from 30,000-y-old fruit tissue buried in Siberian permafrost". Proceedings of the National Academy of Sciences of the United States of America (PNAS). Retrieved October 5, 2013.
- Hideo Toyokuni (1979-02-25). "On some Noteworthy Plants from Hokkaidô, Japan.". Journal of the Faculty of Liberal Arts (Shinshu University) 13: 127–133. ISSN 0583-0605. Retrieved 2012-02-22.
- Pavel Slabý. "Silene stenophylla Ledeb.". Rock Garden Plants Database. Retrieved 21 February 2012.
- S. G. Gorschkova (1936 [trans. 1970]). "Silene". In B. K. Schischkin. Flora of the U.S.S.R. Volume VI. (translated from original Izdatel'stvo Akademii Nauk SSSR, Moskau-Leningrad). Israel Program for Scientific Translations. p. 479.
- Ickert-Bond, Stefanie M.; Murray, David F.; DeChaine, Eric (2010). "Contrasting Patterns of Plant Distribution in Beringia". Alaska Park Science (Arctic Alaska Park Service Symposium and Beringia International Conference) 8 (2): 26–32. Retrieved 21 February 2012.
- V. Stakhov, G. Gyulai, Z. Szabó et al. (8 July 2007). "Pleistocene-age Silene stenophylla seeds excavated in Russia – a scanning electron microscopic analysis". Botany & Plant Biology 2007. Chicago, IL.
- Richard Black. "Ancient plants back to life after 30,000 frozen years". BBC News. Retrieved 21 February 2012.
- "Scientists regenerate a plant – 30,000 years on". AFP. 20 February 2012. Retrieved 21 February 2012.
- S. Yashina, S. Gubin, S. Maksimovich et al. (2012). "Regeneration of whole fertile plants from 30,000-y-old fruit tissue buried in Siberian permafrost". Published online before print 21 February 2012. Proceedings of the National Academy of Sciences USA. doi:10.1073/pnas.1118386109.
- Nicholas Wade (20 February 2012). "Dead for 32,000 Years, an Arctic Plant Is Revived". New York Times. Retrieved 21 February 2012.
- "Russian scientists germinate ice-age seed". CBC News. 20 February 2012. Retrieved 20 February 2012.