Plantae > Tracheophyta > Magnoliopsida > Rosales > Rosaceae > Prunus > Prunus bracteopadus

Prunus bracteopadus (apricot)

Synonyms: Prunus nepalensis

Attributes

Air Quality Improvement [1]  Low
Allergen Potential [1]  Medium-Low
Carbon Capture [1]  Low
Shade Percentage [1]  80 %
Temperature Reduction [1]  Low
Wind Reduction [1]  Low
Edible [2]  May be edible. See the Plants For A Future link below for details.
Flower Type [2]  Hermaphrodite
Hazards [2]  This species produces hydrogen cyanide, a poison that gives almonds their characteristic flavour. This toxin is found mainly in the leaves and seed and is readily detected by its bitter taste. Usually present in too small a quantity to do any harm, any very bitter seed or fruit should not be eaten; In small quantities, hydrogen cyanide has been shown to stimulate respiration and improve digestion, it is also claimed to be of benefit in the treatment of cancer. In excess, however, it can cause respiratory failure and even death.
Leaf Type [2]  Deciduous
Lifespan [3]  Perennial
Pollinators [2]  Insects, Lepidoptera
Specific Gravity [4]  0.675
Structure [2]  Tree
Usage [2]  An edible semi-drying oil is obtained from the seed; Used for lighting; The oil has a softening effect on the skin and so it is used in perfumery and cosmetics, and also in pharmaceuticals; A green dye can be obtained from the leaves; A dark grey to green dye can be obtained from the fruit; Wood - handsome, hard, durable. Agricultural implements etc;
Height [2]  30 feet (9 m)
Width [2]  20 feet (6 m)
Hardiness Zone Minimum [1]  USDA Zone: 6 Low Temperature: -10 F° (-23.3 C°) → 0 F° (-17.8 C°)
Hardiness Zone Maximum [1]  USDA Zone: 7 Low Temperature: 0 F° (-17.8 C°) → 10 F° (-12.2 C°)
Water Use [1]  Moderate
View Plants For A Future Record : Prunus bracteopadus

Protected Areas

Predators

Consumers

Parasitized by 
Aglenchus agricola[13]
Podosphaera tridactyla[5]
Tranzschelia discolor[5]

External References

USDA Plant Profile

Citations

Attributes / relations provided by
1i-Tree Species v. 4.0, developed by the USDA Forest Service's Northern Research Station and SUNY-ESF using the Horticopia, Inc. plant database.
2Plants For A Future licensed under a Creative Commons Attribution 4.0 License
3USDA Plants Database, U. S. Department of Agriculture
4Chave J, Coomes D, Jansen S, Lewis SL, Swenson NG, Zanne AE (2009) Towards a worldwide wood economics spectrum. Ecology Letters 12: 351-366. Zanne AE, Lopez-Gonzalez G, Coomes DA, Ilic J, Jansen S, Lewis SL, Miller RB, Swenson NG, Wiemann MC, Chave J (2009) Data from: Towards a worldwide wood economics spectrum. Dryad Digital Repository.
5Jorrit H. Poelen, James D. Simons and Chris J. Mungall. (2014). Global Biotic Interactions: An open infrastructure to share and analyze species-interaction datasets. Ecological Informatics.
6Biological Records Centre Database of Insects and their Food Plants
7HOSTS - a Database of the World's Lepidopteran Hostplants Gaden S. Robinson, Phillip R. Ackery, Ian J. Kitching, George W. Beccaloni AND Luis M. Hernández
8Norrbom, A.L. 2004. Fruit fly (Tephritidae) host plant database. Version Nov, 2004.
9Ben-Dov, Y., Miller, D.R. & Gibson, G.A.P. ScaleNet 4 November 2009
10New Zealand Institute for Plant & Food Research Plant-SyNZ™ database
11NOTES ON THE DIET OF THE CRIMSON-COLLARED GROSBEAK (RHODOTHRAUPIS CELAENO) IN NORTHEASTERN MEXICO, Jack Clinton Eitniear & Alvaro Aragon Tapia, ORNITOLOGIA NEOTROPICAL 11: 363–364, 2000
12del Hoyo, J., Elliott, A., Sargatal, J., Christie, D.A. & de Juana, E. (eds.). Handbook of the Birds of the World Alive. Lynx Edicions, Barcelona.
13Species Interactions of Australia Database, Atlas of Living Australia, Version ala-csv-2012-11-19
Species taxanomy provided by GBIF Secretariat (2022). GBIF Backbone Taxonomy. Checklist dataset https://doi.org/10.15468/39omei accessed via GBIF.org on 2023-06-13; License: CC BY 4.0