Trochodendron beckii (HERGERT et H.K.PHINNEY) R.A.SCOTT et E.A.WHEELER, 1982

Wheeler, Elisabeth A. & Manchester, Steven R., 2021, A Diverse Assemblage Of Late Eocene Woods From Oregon, Western Usa, Fossil Imprint 77 (2), pp. 299-329 : 322-323

publication ID	https://doi.org/10.37520/fi.2021.022
persistent identifier	https://treatment.plazi.org/id/039787B7-FF86-FF88-FC87-DF7FB1F2F8C7
treatment provided by	Felipe (2022-10-08 20:22:25, last updated by Plazi 2023-11-07 16:07:21)
scientific name	Trochodendron beckii (HERGERT et H.K.PHINNEY) R.A.SCOTT et E.A.WHEELER, 1982
status

Treatment

Text-fig. 11j–m View Text-fig

M a t e r i a l. UF279-24558 (estimated minimum diameter of stem 15 cm), USNM 326709 (holotype, estimated minimum diameter 18 cm).

D e s c r i p t i o n. Growth rings distinct, marked by noded rays and abrupt transition in radial diameters of latewood tracheids to the subsequent ring’s earlywood tracheids. Vessels absent. Transition from earlywood to latewood abrupt. Tangential diameter of earlywood tracheids 29 (7), 15–51 µm; tangential diameter of latewood tracheids 26 (5) µm, 17–42; scalariform intertracheary pitting observed on radial walls; axial parenchyma rare, occasional isolated cells; rays of two distinct sizes: uniseriates and multiseriates up to 15 cells wide; uniseriates numerous, composed

1. Watari (1952), 2. Takahashi and Suzuki (1988), 3. Wheeler and Manchester (2002), 4.Wheeler and Dillhoff (2008), 5. Jeong et al. (2009), 6. Bayam et al. (2018), 7. Akkemik et al. (2016)

* 50–600 reported as range, with 750 µm given as outlier.

exclusively of upright cells; central cells of multiseriate rays procumbent, with up to 10 marginal rows of upright cells, heights of multiseriate portions of the rays 0.7–1.56 mm.

Note: We did not measure total ray height including the uniseriate margins because it was difficult to be sure of where the uniseriate margins ended.

R e m a r k s. Vesselless woods are rare among angiosperms, and this specimen with its wide heterocellular rays and scalariform bordered pits has features of Trochodendraceae ( Bailey and Nast 1945, Hergert and Phinney 1954). This specimen from the Post Hammer locality (UF 279) further documents the occurrence of Trochodendron wood in the Eocene of Oregon ( Scott and Wheeler 1982). This species was previously recognized from the Miocene of Oregon ( Hergert and Phinney 1954) from the same formation where fossil trochodendraceous infructescences and leaves have been recognized ( Manchester et al. 2018). There are differences in the quantitative features (tracheid diameters, ray width) between the woods from these separate occurrences, but we don’t consider them to be great enough to treat them as different species. Although the two extant genera of this family, Trochodendron and Tetracentron , are confined to eastern Asia, the family is well represented in the Cenozoic of western North America and known from leaves and fruits of both modern and extinct genera ranging from Paleocene to Miocene ( Manchester et al. 2018, Manchester et al. 2021).

References

Akkemik, U., Arslan, M., Poole, I., Tosun, S., Kose, N., Kilic, N. K., Aydin, A. (2016): Silicified woods from two previously undescribed early Miocene forest sites near Seben, northwest Turkey. - Review of Palaeobotany and Palynology, 235: 31 - 51.

Bailey, I. W., Nast, C. G. (1945): Morphology and relationships of Trochodendron and Tetracentron, I. Stem, root, and leaf. - Journal of the Arnold Arboretum, 26 (2): 143 - 154. https: // doi. org / 10.5962 / p. 185529

Bayam, N. N. A., Akkemik, U., Poole, I., Akarsu, F. (2018): Further contributions to the early Miocene forest vegetation of the Galatian Volcanic Province, Turkey. - Palaeontologica Electronica, 21 (3): 40 (42 pp.). https: // doi. org / 10.26879 / 816

Hergert, H., Phinney, H. K. (1954): Trochodendroxylon beckii gen. et sp. nov. from the Tertiary of Oregon. - Bulletin of the Torrey Botanical Club, 81: 118 - 122. https: // doi. org / 10.2307 / 2481846

Jeong, K., Kim, K., Suzuki, M., Kim, J. W. (2009): Fossil woods from the lower coal-bearing formation of the Janggi Group (Early Miocene) in the Pohang Basin, Korea. - Review of Palaeobotany and Palynology, 153: 124 - 138. https: // doi. org / 10.1016 / j. revpalbo. 2008.07.006

Manchester, S. R., Pigg, K. B., DeVore, M. L. (2018): Trochodendraceous fruits and foliage in the Miocene of western North America. - Fossil Imprint, 74: 45 - 54. https: // doi. org / 10.2478 / if- 2018 - 0004

Manchester, S. R., Kvacek, Z., Judd, W. S. (2021): Morphology, anatomy, phylogenetics and distribution of fossil and extant Trochodendraceae in the Northern Hemisphere. - Botanical Journal of the Linnean Society, 195 (3): 467 - 484. https: // doi. org / 10.1093 / botlinnean / boaa 046

Scott, R. A., Wheeler, E. A. (1982): Fossil woods from the Eocene Clarno Formation of Oregon. - IAWA Bulletin, n. s., 3: 135 - 154. https: // doi. org / 10.1163 / 22941932 - 90000829

Takahashi, A., Suzuki, M. (1988): Two new fossil woods of Acer and a new combination of Prunus from the Tertiary of Japan. - Botanical Magazine, Tokyo, 101: 474 - 481. https: // doi. org / 10.1007 / BF 02488089

Watari, S. (1952): Dicotyledonous woods from the Miocene along the Japan-Sea of Honsyu. - Journal of the Faculty of Sciences, University of Tokyo, Sect. III, Botany, 6: 97 - 134.

Wheeler, E. A., Manchester, S. R. (2002): Woods of the Middle Eocene Nut Beds Flora, Clarno Formation, Oregon, USA. - IAWA Journal, Supplement 3: 1 - 188.

Figures

Text-fig. 11. Acer Post Hammer species 1, UF 279-34456. a, b: Diffuse-porous wood with distinct growth rings, marked by marginal parenchyma, vessels solitary and in short radial multiples, TS. c: Crowded alternate intervessel pits, TLS. d: Simple perforation plates, helical thickenings in vessel elements, TLS. e: Rays 2–3-seriate, gum deposit in vessel element, TLS. Acer Post Hammer species 2. UF279-34466. f: Diffuse-porous wood with distinct growth rings, marked by marginal parenchyma, vessels solitary and in short radial multiples, TS. g: Alternate intervessel pits, helical thickenings in vessel elements, TLS. h: Rays 1–4(–5)-seriate, TLS. i: Crystalliferous strand, multiseriate ray, TLS. Trochodendron beckii, UF 279-24558. j, k: Distinct growth rings, abrupt transition from earlywood to latewood, vesselless, wide raysnoded atgrowth ring boundaries, TS. l:Rays of two distinct sizes, uniseriate and multiseriates>10-seriate, TLS. m. Scalariform intertracheary pits. RLS. Scale bars: 500 µm in j; 200 µm in a, f, k, l; 100 µm in b, h; 50 µm in c, d, e, g, i, m.