Biology:Torreya

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Short description: Genus of conifers


Torreya
Temporal range:
Middle Eocene - Recent 45mya - 0
Torreya nucifera bgiu.jpg
Torreya nucifera
Scientific classification e
Kingdom: Plantae
Clade: Tracheophytes
Clade: Gymnospermae
Division: Pinophyta
Class: Pinopsida
Order: Cupressales
Family: Taxaceae
Genus: Torreya
Arn.
Type species
Torreya taxifolia
Arn.
Species
  • see text
Synonyms
  • Caryotaxus Zuccarini ex Henkel & Hochstetter
  • Foetataxus Nelson
  • Tumion Raf. ex Greene[1]

Torreya is a genus of conifers comprising six or seven species placed in the family Taxaceae, though sometimes formerly placed in Cephalotaxaceae.[2][3][4][5] Four species are native to eastern Asia; the other two are native to North America. They are small to medium-sized evergreen trees reaching 5–20 m, rarely 25 m, tall. Common names include nutmeg yew.[6]

The genus is one example of the Arcto-Tertiary Geoflora in paleoecology. The pattern of highly disjunct distribution of geographic ranges of the species within such a genus spans temperate plant zones of continents in the Northern Hemisphere. This geographic pattern is attributed to genus origins in much warmer times of the Tertiary Period, when zones of temperate climate were found in poleward latitudes whereby land connections facilitated range expansions and migrations of plants between Asia and North America and sometimes between Europe and North America.[7]

The leaves are spirally arranged on the shoots, but twisted at the base to lie in two flat ranks; they are linear, 2–8 cm long and 3–4 mm broad, hard in texture, with a sharp spine tip.

Torreya can be monoecious, dioecious, or subdioecious (documented in Japanese Torreya and Florida Torreya).[8][9] When monoecious, the male and female cones are often on different branches. The male (pollen) cones are 5–8 mm long, grouped in lines along the underside of a shoot. The female (seed) cones are single or grouped two to eight together on a short stem; minute at first, they mature in about 18 months to a drupe-like structure with the single large nut-like seed 2–4 cm long surrounded by a fleshy covering, green to purple at full maturity. In some species, notably the Japan ese Torreya nucifera ('kaya'), and unusually for members of Taxaceae, the seed is edible. Natural dispersal is thought to be aided by squirrels which bury the seeds for a winter food source; any seeds left uneaten are then able to germinate.

The genus is named after the American botanist John Torrey.

Fossil record

Ripe seeds of Torreya taxifolia

Torreya clarnensis has been described from Middle Eocene fossils found in the Clarno Formation of Central Oregon, United States .[10] Leafy branch fossils of †Torreya bilinica are known from Oligocene strata of Zichov near Bílina, Czech Republic, early Miocene deposits of Güvem central Anatolia, Turkey and late Miocene deposits of Spain . A single Torreya nucifera needle leaf is known from a late Miocene deposit in Abkhazia. More complete records of Torreya nucifera are known from Pliocene deposits of France .[11]

Fossil pollen of genus Torreya and other genera within Taxaceae is generally deemed indistinguishable, one from another, and also from genera within families Taxodiaceae and Cupressaceae.[12] Therefore, it is generally difficult to support past presence or absence of such genera in geographic locales where macrofossil plant material is rare or absent, even if substantial pollen (as in Quaternary bogs) is available.

Adaptive growth forms of this subcanopy genus

Yellow cartouche
Red cartouche
LEFT: Stems of the Torreya species in California extend horizontally and become moss-covered in the shade of Coast redwood canopy. RIGHT: Road-building in Yosemite National Park produced a clearing where vertical growth resumed in this California Torreya.

Species within this genus are all adapted to establish and grow slowly as subcanopy woody plants in forest habitats of moderate to dense shade. Stems will lean in very shady conditions, with branches and additional stems arising from the root crown growing more horizontally than vertically. If and when a canopy opening occurs, upward growth will be stimulated and even the leaf form and orientation will shift.[13]

Seed production occurs on female branches (and trees) only in the presence of direct sunlight. Therefore, wild trees tended and planted trees cultivated for local or market seed consumption in Asia (usually, Torreya grandis) will have their surroundings managed accordingly through human intervention.

Species

Phylogeny of Torreya[14][15]
Torreya

T. jackii Chun

T. nucifera (von Linné) Siebold & Zuccarini

T. taxifolia Arnott

T. californica Torrey

T. grandis Fortune ex Lindley

T. parvifolia Yi, Yang & Long

T. fargesii Franchet

Image Scientific name Common Name Distribution Description
H20090725-1435--Torreya californica--RPBG (13726974834).jpg Torreya californica California torreya California , USA It is the largest of the two species in North America.
Torreya fargesii Farges nutmeg tree China: Hubei, Hunan, Jiangxi, Shaanxi, Sichuan, and Yunnan provinces, and possibly in Anhui
Torreya grandis Merrillii1.jpg Torreya grandis Chinese nutmeg yew China: Fujian, Zhejiang, Jiangsu, Anhui, Guizhou, Hunan, and Jiangxi Cultivated extensively for its edible seed, and as an ornamental plant.
Torreya jackii Jack's nutmeg tree, longleaf torreya, Jack torreya, and weeping torreya China, in Zhejiang, Fujian, and Jiangxi provinces
Torreya nucifera bgiu.jpg Torreya nucifera kaya, Japanese torreya, or Japanese nutmeg-yew. southern Japan and to South Korea's Jeju Island
Torreya taxifolia foliage.jpg Torreya taxifolia Florida torreya or gopher wood restricted habitat within Torreya State Park, along the east bank of the Apalachicola River in the Florida Panhandle and immediately adjacent southernmost Georgia Limited to its peak glacial refuge, this species became the type example of "assisted species migration" for climate-endangered forest trees when a citizen group, Torreya Guardians, began planting it more than 600 kilometers poleward.

References

  1. Camp, W. H.; Rickett, H. W.; Weatherby, C. A. (1947). "International rules of botanical nomenclature, Appendix III: Nomina Generica Conservanda". Brittonia 6 (1): 1–120 (Section 10, page 47). doi:10.2307/2804665. 
  2. Christenhusz, J. M. M.; Reveal, J. L.; Martin, F. G.; Robert, R. M.; Chase, W. M. (2011). "Linear sequence, classification, synonymy, and bibliography of vascular plants: Lycophytes, ferns, gymnosperms and angiosperms". Phytotaxa 19: 1–134. doi:10.11646/phytotaxa.19.1.1. http://www.mapress.com/phytotaxa/content/2011/f/pt00019p070.pdf. 
  3. Cope, Edward A (1998). "Taxaceae: The Genera and Cultivated Species". Botanical Review 64 (4): 291–322. doi:10.1007/BF02857621. https://www.jstor.org/stable/4354329. Retrieved 6 January 2022. 
  4. Zhang, Xu (November 2019). "Plastome phylogenomic analysis of Torreya (Taxaceae)". Journal of Systematics and Evolution 57 (6): 607–615. doi:10.1111/jse.12482. 
  5. Philippe, Marc (April 2019). "A paleobiogeographical scenario for the Taxaceae based on a revised fossil wood record and embolism resistance". Review of Palaeobotany and Palynology 263: 147–158. doi:10.1016/j.revpalbo.2019.01.003. 
  6. Eckenwalder, J.E. 2009. Conifers of the World: The Complete Reference. Timber Press.
  7. Donaghue, Michael (November 2001). "Phylogenetic Patterns in Northern Hemisphere Plant Geography". International Journal of Plant Sciences 162 (S6): S41–S52. doi:10.1086/323278. https://doi.org/10.1086/323278. Retrieved 19 July 2021. 
  8. "Torreya nucifera / Japanese nutmeg-yew". https://conifersociety.org/conifers/torreya-nucifera/. 
  9. "About Torreya taxifolia". http://www.torreyaguardians.org/torreya.html. 
  10. Manchester, S.R. (1994). "Fruits and Seeds of the Middle Eocene Nut Beds Flora, Clarno Formation, Oregon". Palaeontographica Americana. 58: 30–31.
  11. The early Miocene flora of Güvem (Central Anatolia, Turkey): A window into early Neogene vegetation and environments in the Eastern Mediterranean by Thomas Denk, Tuncay H Güner, Zlatko Kvaček and Johannes M Bouchal - Acta Palaeobotanica 2017 - DOI: 101515/acpa-2017-0011
  12. Bouchal, Johannes (2020). "Low taxonomic resolution of papillate Cupressaceae pollen (former Taxodiaceae) impairs their applicability for palaeo-habitat reconstruction". Grana 59 (1): 71-93. doi:10.1080/00173134.2019.1701704. https://www.tandfonline.com/doi/abs/10.1080/00173134.2019.1701704. 
  13. Barlow, Connie. "Torreya californica (California torreya)". http://www.torreyaguardians.org/california.html. 
  14. Stull, Gregory W.Expression error: Unrecognized word "et". (2021). "Gene duplications and phylogenomic conflict underlie major pulses of phenotypic evolution in gymnosperms". Nature Plants 7 (8): 1015–1025. doi:10.1038/s41477-021-00964-4. PMID 34282286. https://www.nature.com/articles/s41477-021-00964-4. 
  15. Stull, Gregory W. (2021). main.dated.supermatrix.tree.T9.tre. Figshare. doi:10.6084/m9.figshare.14547354.v1. https://figshare.com/articles/dataset/Gene_duplications_and_genomic_conflict_underlie_major_pulses_of_phenotypic_evolution_in_gymnosperms/14547354. 

Wikidata ☰ Q429944 entry