Sarcandraxylon sanjosense, Pipo & Iglesias & Bodnar, 2020

Sarcandraxylon sanjosense sp. nov.

PFNR: PFN001017.

Etymology: From the San José pass (James Ross Island), a nearest locality where the fossil was found.

Holotype: IAA-Pb 621, a stem 3 mm long and 5 mm wide in a rock sample mounted on SEM stub; six cellulose-acetate peels mounted in glass slides (three in transverse section; and three in tangential section). Type locality: San Jose Pass (equivalent to CF cite from Iglesias 2016), northern James Ross Island, Antarctic Peninsula (63°54’14” S; 57°54’40” W; Fig. 1 View Fig ). GoogleMaps

Type horizon: Early–middle Campanian (~83–77 Ma), Late Cretaceous, Upper Beta Member, Santa Marta Formation, Marambio Group, James Ross Basin.

Diagnosis.—Secondary vascular cylinder with interfascicular rays and axial elements in segments. Homocellular and heterogenous interfascicular rays consisting of square and procumbent parenchyma cells. The secondary xylem segments contain tracheids and uniseriate homocellular and homogeneous rays with elongated upright cells. Growth rings are indistinct. Secondary phloem with fibers arranged in caps. Bark composed by dead cells of secondary phloem and cork cells which are accumulated in a multilayered rhytidome.

Description.—The slender stem is 5 mm in diameter, circular in transverse section ( Fig. 2A View Fig ). Although its periphery is not completely preserved, the whole shape remains almost intact. The central circular pith is 1.87 mm in diameter. It is composed of large isodiametric parenchyma cells (40– 70 μm; mean 50.36 μm). The primary vascular system is formed by one cycle of collateral vascular bundles, only 19 could be counted due to preservation (although may reach almost 30 in the whole), with endarch protoxylem (cell sizes 2.5–5 μm), and metaxylem cells size 5–7.5 μm (mean diameter 5.92 μm) ( Fig. 2B View Fig ). The secondary vascular cylinder is radially dissected, due to a cambial variant derived from one vascular cambium with differential activity, in which the interfascicular cambium only produces ray parenchyma cells resulting in axial vascular elements in segments (AVES pattern). The secondary xylem lacks vessels, and is composed by tracheids (cellular diameters range 12.5–25 μm; mean diameter 17.9 μm) and uniseriate homocellular and homogenous rays. These fascicular rays are two cells high and composed of elongated upright parenchyma cells ( Figs. 2C, E View Fig , 3A, C, D View Fig ). Growth rings and axial parenchyma are absent. The radial thickness of xylem segments is up to 202.5 μm. The interfascicular rays are broad (67 μm), multiseriate (5–6, up to 8 cells wide), homocellular, and heterogenous; consisting of square and procumbent parenchyma cells (5– 10 μm; mean 7.33 μm) ( Fig. 3B View Fig ). The secondary phloem is arranged in half-moon shaped bundles and wide interfascicular rays ( Fig. 2D View Fig ). Phloem cells are poorly preserved; only some collapsed cells were identified, leaving a large central gap from the center to the base of bundles. Caps of phloem fibers are present externally in the bundles, with a mean size of 26.25 μm per 68.75 μm. The fibers are hard to measure because they are small and poorly preserved. The bark is composed by dead cells of secondary phloem, and cork cells which are accumulated in a multilayered rhytidome (mean bark growth 50 μm). It has a sinuous shape, with external shallow valleys in the interfascicular areas of phloem, and pronounced ribs over the phloem fiber caps ( Fig. 2D View Fig ).

Stratigraphic and geographic range.— Type locality and horizon only.