Wikipedia description
Canella is a monospecific genus containing the species Canella winterana, a tree native to the Caribbean from the Florida Keys to Barbados. Its bark is used as a spice similar to cinnamon, giving rise to the common names "cinnamon bark", "wild cinnamon", and "white cinnamon".
The wood of Canella is very heavy and exceedingly hard, strong, and close-grained, with numerous thin, inconspicuous medullary rays; it is dark red-brown,and the thick sapwood consists of 25 to 30 layers of annual growth, light brown or yellow in color. The specific gravity of the absolutely dry wood grown in Florida is 0.9893; a cubic foot of the dry wood weighs 61.65 pounds.
Canella attains in Florida a height of 25 to 30 feet, with a straight trunk eight to 10 inches in diameter. On the mountains of Jamaica, it is said to grow sometimes to the height of 50 feet. The principal branches are slender, horizontal, and spreading, forming a compact round-headed top. The light gray bark of the trunk is an eighth of an inch thick, the surface is broken into many short thick scales rarely more than 2-3 in long, and about twice the thickness of the pale yellow, aromatic inner bark. The leaves are obovate, round or slightly emarginate at the apex, and contracted into a short, stout, grooved petiole; they are 3.5-5.0 in long, 1.5-2.0 in broad, bright deep green, and lustrous. The flowers open in the autumn, and the fruit ripens in March and April, when it is bright crimson, soft, and fleshy, and is eaten by many birds.
Scientific classification
Samples
Sample name | Sample code | Tissue | RNA extractor | Sample provider | BLAST | SRA data | Assembly data |
---|---|---|---|---|---|---|---|
DDEV-Canella_winterana-Soltis | DDEV | young leaves | I. Jordon-Thaden | D. Soltis | |||
IFCJ-Canella_winterana-Soltis_B |
IFCJ
This sample is NOT available in BLAST service, because it was identified as mislabeled and/or contaminated and not analyzed for the 1KP publication [Nature 574, 679–685 (2019)]. Its data was released nonetheless as some find even these data useful. More information is given at [GigaScience 8, giz126 (2019)], including estimates of which particular sequences might be problematic. | young leaves | M. Melkonian | M. Melkonian | -- |