The Cordaitales are a Late Palaeozoic order of gymnosperms closely related to conifers and characterized by strap-shaped leaves, dense, pycnoxylic wood, axillary branching, and flat, platyspermic seeds (Rothwell 1988). The overall diversity of this group is probably greatly underestimated because Cordaites leaves (the most commonly preserved organ) show a highly conservative morphology (Šimůnek 2000; Zodrow et al. 2000). In palaeotropical Euramerica, where cordaitalean ecology is best understood, plants include forms that grew in lagoons, peat mires, coastal plains, alluvial fans, and in mountainous terrains (Falcon-Lang and Bashforth 2005).

Cordaitaleans are very common in the Lower Pennsylvanian Joggins Formation of Nova Scotia (Latitude 45°42'N; Longitude 64°26'W; Fig. 1; Falcon-Lang et al. 2006). A small number of cordaitalean fossils, especially those found in well-drained alluvial plain facies (Davies and Gibling 2003), show anatomical preservation as calcite permineralizations and charcoal (Falcon-Lang and Scott 2000). These fossils include three morphospecies of pycnoxylic Dadoxylon wood (Falcon-Lang 2003a) and a woody axis showing mesarch maturation and a non-sympodial vasculature assigned to Mesoxylon, cf. M. sutcliffii (Falcon-Lang 2003b). Here I describe a new cordaitalean axis from the Joggins Formation that differs from material previously reported insofar as that it shows endarch maturation and a sympodial vasculature. It is assigned to the morphogenus Cordaixylon.

The systematics of cordaitalean axes is currently in need of revision. The traditional approach, still widely used, involves the separation of morphogenera based on the type of primary xylem maturation and cauline vascular architecture (Scott and Maslen 1910; Traverse 1950; Trivett and Rothwell 1988). Two morphogenera are recognized in this system: the Cordaixylon concept comprises axes showing endarch maturation and sympodial vasculature (Rothwell and Warner 1984), whereas the Mesoxylon concept comprises mesarch maturation and nonsympodial vasculature (Trivett and Rothwell 1985). However, specimens have been reported that show overlapping suites of characters raising problems for this approach (Trivett and Rothwell 1988, 1991). Although cladistic analyses attempted to resolve the position of these specimens (Trivett 1992), the systematics of cordaitalean axes remains problematic.

Following the tradition approach, the new specimen from the Joggins Formation falls within the Cordaixylon concept (Rothwell and Warner 1984; Trivett 1992), being endarch with a sympodial vasculature (Fig. 2D-F). Unlike the new specimen (Fig. 2A, B), Cordaixylon axes commonly show a septate pith, although a solid parenchymatous pith is seen in basal or apical regions of some axes, as well as being the normal characteristic of the roots (Rothwell and Warner 1984; Constanza 1985; Trivett 1992). In the absence of extraxylary tissues (Fig. 2A), or any information concerning attached fertile organs, it is impossible to assign the new material to a species. If found in isolation, the secondary xylem of the new specimen of Cordaixylon would be referred to Dadoxylon recentium; this morphogenus is locally present in the Joggins Formation (Falcon-Lang 2003a).

The new discovery broadens knowledge of cordaitalean plant diversity in the Joggins Formation. Adding to the previously reported occurrence of Mesoxylon showing mesarch and non-sympodial organisation (Falcon-Lang 2003b), the Cordaixylon specimen proves the existence of cordaitaleans with endarch and sympodial organization at this locality for the first time. Furthermore, the association of the new specimen with red bed facies, interpreted as well-drained alluvial plain deposits (Davies et al. 2005), improves knowledge of cordaitalean ecology in general. Remains of Cordaixylon whole-plants are extremely abundant in some Pennsylvanian coals in the USA, where they flourished as peat mire trees (DiMichele and Phillips 1994). Here I show that at least some Cordaixylon whole-plants were capable of existing in dryland environments as well (Falcon-Lang et al. 2004).