Prunus simonii
Simon plum fruit and leaves
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Rosales
Family: Rosaceae
Genus: Prunus
Subgenus: Prunus subg. Prunus
Section: Prunus sect. Prunus
Species:
P. simonii
Binomial name
Prunus simonii

Prunus simonii, called apricot plum and Simon plum, is a tree in the genus Prunus. It was first described by Elie-Abel Carrière in 1872 and is native to Hebei province, China.[1] The species is not known in a truly wild state.[2] It has been important for breeding commercial plum cultivars from crosses with other species of the genus Prunus.[3][4] The species is named for Gabriel Eugène Simon (1829–1896), a French botanist and diplomat who sent pits to the Paris Museum in the early 1860s while he was representing the French government in China.[5][6][7][8] Beginning about 1881, the species became commonly known in the United States; having been introduced there from France.[5]

Description

Prunus simonii is a small deciduous tree growing to about 6 meters (20 ft) in height.[2] The flowers produce almost no pollen; the fruit varies in quality, can be bitter or pleasant to eat, and is flat in shape.[2][9] Just like an apricot, the fruit flesh clings tightly to the pit. The taste is often bitter. Fruit production is not particularly bountiful. The fruit is dark red[5] or "brick red".[10] The branches are slender and the leaves oblong.[11] In appearance, the fruit is flatter than most plums, looking "tomato-like".[3] The fruit is particularly aromatic, much more so than Prunus salicina, with a comparatively high level of hexyl acetate, which gives apples their aroma.[12][13]

Uses

Plant breeder Luther Burbank devoted a lot of work to hybridizing this species with the Japanese plum (Prunus salicina) and developed a number of cultivars from the hybrid.[14] Of these, the cultivar 'Climax' was particularly notable for its importance to the fruit shipping industry of California.[9] Other influential plum cultivars that Burbank developed with P. simonii ancestry include 'Maynard', 'Chalco', 'Santa Rosa', and 'Formosa'.[15] Those two species and the European species Prunus cerasifera have contributed the majority of the genetic constitution of modern Japanese-type plum cultivars, with lesser contributions from three native American species P. americana, P. angustifolia, and P. munsoniana.[16]

References

  1. "Prunus simonii". Germplasm Resources Information Network. Agricultural Research Service, United States Department of Agriculture. Retrieved February 1, 2014.
  2. 1 2 3 "Plants for a Future". Retrieved February 1, 2014.
  3. 1 2 Burbank, Luther (2004) [First published 1914]. New Plums and Prunes in the Process of Making. Barcelona: Athena University Press. p. 27.
  4. Frecon, Jerome L.; Ward, Daniel L. (2012). "Fruit Notes". Fruit Notes. 77: 12–19.
  5. 1 2 3 Bailey, Liberty Hyde (1893). Four Types of New Fruits. Ithaca, NY: Cornell University Agricultural Experiment Station. pp. 34–37.
  6. Gledhill, D. (2008). The Names of Plants. Cambridge University Press, p. 353.
  7. Bretschneider, E. (1898). History of European Botanical Discoveries in China. London: Sampson Low, vol. 2, pp. 827-833.
  8. Baltet, Charles (1895). L'horticulture dans les cinq parties du monde. Paris: Société nationale d'horticulture, p. 406.
  9. 1 2 Jordan, David Starr (1905). "Some Experiments of Luther Burbank". The Popular Science Monthly. Vol. 66. pp. 201–225.
  10. Hedrick, U.P.; et al. (1910). The Plums of New York. p. 55 via BHL.
  11. Waugh, Frank (2009) [First published 1903]. Systematic Pomology. Bedford, MA: Applewood Books. p. 186. ISBN 978-1-4-290-1350-5.
  12. Gomez, Encarna; Ledbetter, Craig (1994). "Comparative Study of the Aromatic Profiles of Two Different Plum Species: Prunus salicina lindl and Prunus simonii L". Journal of the Science of Food and Agriculture. 65 (1): 111–115. doi:10.1002/jsfa.2740650116.
  13. "Prunus simonii | apricot plum /RHS Gardening".
  14. Jones, D. F. (1928). "Burbank's Results with Plums". Journal of Heredity. 19 (8): 359–372. doi:10.1093/oxfordjournals.jhered.a103021.
  15. Burbank, Luther (1921). How Plants Are Trained to Work for Man. Vol. V. New York: P. F. Collier and Son Co. p. 223 via BHL.
  16. Boonprakob, Unaroj; Byrne, David H.; Graham, Charles J.; Okie, W.R.; Beckman, Thomas; Smith, Brian R. (2001). "Genetic Relationships among Cultivated Diploid Plums and Their Progenitors as Determined by RAPD Markers" (PDF). Journal of the American Society for Horticultural Science. 126 (4): 451–461. doi:10.21273/JASHS.126.4.451.
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