Sassafras hesperia
Sassafras hesperia,
Eocene, Washington state
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Magnoliids
Order: Laurales
Family: Lauraceae
Genus: Sassafras
Species:
S. hesperia
Binomial name
Sassafras hesperia
(Berry) Wolfe & Wehr, 1987
Synonyms

Sassafras selwyni

Sassafras hesperia is an extinct species of flowering plant in the family Lauraceae.

Distribution

The species is known from fossil leaves found in the early Eocene, Ypresian stage, Klondike Mountain Formation deposits of northern Washington state, United States and similar aged formations in British Columbia, Canada, including the Allenby Formation near Princeton, the McAbee Fossil Beds near Kamloops and Driftwood Canyon Provincial Park near Smithers.[1][2][3] S. hesperia is related to three modern species, S. albidum, which is native to the eastern United States, S. tzumu native to central China, and S. randaiense native to Taiwan.[4] The modern species form a noted disjunct distribution.[4]

History

The original type description of the new species by paleobotanist Edward W. Berry, based on a compression fossil leaf specimen, was published in 1929.[5] When first published the holotype specimen's type locality was misidentified as being part of the Latah Formation of Spokane.[1] Roland W. Brown (1937) corrected the type locality to the older Republic area strata,[6] but occasional confusion as to the species age still occurred: notably Daniel I. Axelrod (1966) in his paper on the Copper Basin flora of Nevada considered the age of S. hesperia as Oligocene.[1]

Working from specimens collected in the Republic, Washington area in the early 1980s, the species was redescribed in 1987 by Jack A. Wolfe and Wesley C. Wehr.[1] Wolfe and Wehr noted S. hesperia to be one of the most common dicots in the Klondike Mountain Formation, that it occurs in the related Princeton and Joseph Creek floras, and in the Thunder Mountain flora of Idaho, of similar age. However they reject the assignment to S. hesperia of the single known Sassafras species leaf from the Eocene Florissant formation. Wolf and Wehr also note that the early Oligocene S. ashleyi is closely related and may have evolved from S. hesperia.[1]

Description

1929 Holotype leaf

Sassafras hesperia leaves are large, with fossils over 13.5 centimetres (5.3 in) known. the species appears to have been possibly evergreen, based on the notably thick leaf remains, thicker than the younger S. ashleyi and S. columbiana. This contrasts with modern Sassafras species, which are deciduous, suggesting that an evergreen state is ancestral in Sassafras.[1]

References

  1. 1 2 3 4 5 6 Wolfe, J.A.; Wehr, W.C. (1987). "Middle Eocene dicotyledonous plants from Republic, northeastern Washington". United States Geological Survey Bulletin. 1597: 1–25.
  2. Greenwood, D.R.; Archibald, S.B.; Mathewes, R.W; Moss, P.T. (2005). "Fossil biotas from the Okanagan Highlands, southern British Columbia and northeastern Washington State: climates and ecosystems across an Eocene landscape". Canadian Journal of Earth Sciences. 42 (2): 167–185. Bibcode:2005CaJES..42..167G. doi:10.1139/E04-100.
  3. Archibald, S.B., Greenwood, D.R., Smith, R.Y., Mathewes, R.W., and Basinger, J.F. 2012. Great Canadian Lagerstätten 1. Early Eocene Lagerstätten of the Okanagan Highlands (British Columbia and Washington State). Geoscience Canada, v. 38(4), p. 155–164.
  4. 1 2 Nie, Z.-L.; Wen, J.; Sun, H. (2007). "Phylogeny and biogeography of Sassafras (Lauraceae) disjunct between eastern Asia and eastern North America". Plant Systematics and Evolution. 267 (1–4): 0378–2697. CiteSeerX 10.1.1.669.8487. doi:10.1007/s00606-007-0550-1. S2CID 44051126.
  5. Berry, E.W. (1929). A revision of the flora of the Latah Formation (Report). Professional Paper. United States Geological Survey. pp. 225–265. doi:10.3133/pp154h. 154-H.
  6. Brown, R. W. (1937). "J - Additions to some fossil floras of the Western United States". Shorter contributions to general geology (PDF). Professional Paper. Vol. 186. United States Geological Survey. pp. 163–206. doi:10.3133/pp186J.
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