Occurrence of Sciadopitys-Like Fossil Wood (Coniferales) in the Jurassic of Western Liaoning and Its Evolutionary Implications

Occurrence of Sciadopitys-Like Fossil Wood (Coniferales) in the Jurassic of Western Liaoning and Its Evolutionary Implications

Letter Geology February 2012 Vol.57 No.6: 569572 doi: 10.1007/s11434-011-4850-z SPECIAL TOPICS: Occurrence of Sciadopitys-like fossil wood (Coniferales) in the Jurassic of western Liaoning and its evolutionary implications JIANG ZiKun1,3, WANG YongDong1*, ZHENG ShaoLin2,4, ZHANG Wu2 & TIAN Ning4 1 Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences, Nanjing 210008, China; 2 Shenyang Center of China Geological Survey, Shenyang Institute of Geology and Mineral Resources, Shenyang 110034, China; 3 Graduate University of Chinese Academy of Sciences, Beijing 100049, China; 4 Institute of Palaeontology, Shenyang Normal University, Shenyang 110034, China Received July 5, 2011; accepted October 8, 2011; published online November 19, 2011 The genus Sciadopitys, containing a single species (S. verticillata), is the only extant representative of the Family Sciadopityaceae (Coniferales), and is a remarkable living fossil. Although some leafy fossils have been ascribed to Sciadopityaceae, fossil xylem material with a close affinity to this family is very rare, and there have been no fossils found showing both pith and primary xylem structures, which are of great importance for wood identification. Thus, it has been difficult to use fossils for the understanding of wood anatomy evolution in the sciadopityaceous plants over geological time. In this note we briefly report on Sciadopitys-like fossil wood found in the Middle Jurassic of western Liaoning, which bears well-preserved Protosciadopityoxylon-type secondary xylem, endarch primary xylem and heterogeneous pith. This is the first report of fossil specimens of the Sciadopityaceae with such detailed preservation of wood structures. The discovery provides precise anatomical evidence for reconstructing the evolu- tionary history and geographical distribution of Sciadopityaceae, as well as contributing to understanding of the fossil diversity of the Jurassic Yanliao Flora in northern China. conifer, Sciadopityaceae, anatomical structure, Tiaojishan Formation, Middle Jurassic, western Liaoning Citation: Jiang Z K, Wang Y D, Zheng S L, et al. Occurrence of Sciadopitys-like fossil wood (Coniferales) in the Jurassic of western Liaoning and its evolutionary implications. Chin Sci Bull, 2012, 57: 569572, doi: 10.1007/s11434-011-4850-z The living fossil Sciadopitys is a monotypic genus with a Although Sciadopitys is limited in its current distribution, single species, S. verticillata (Thunb.) Sieb. et Zucc. en- closely related fossils have been reported from Europe and demic in Japan. This species was systematically assigned to North America, in addition to Japan. Fossil leaves of Sci- the Family Taxodiaceae [1–4]. However, some authors in- adopitys and its allies are known to occur in the Jurassic to sist on the establishment of the new Family Sciadopityaceae, Upper Cretaceous of Europe [10–17]. Other fossil leaves on the basis of morphological, ontogenetic, karyological referred to Sciadopityaceae are Sciadopityoides from the and immunological data [5–10]. Such a proposal has been Late Jurassic and Sciadopitophyllum in the Late Cretaceous accepted by many wood anatomists and botanists, and to Paleocene [18–21]. The fossil specimens “double needle adopted in a number of publications on gymnosperm classi- leaf ” documented by Florin [22,23] from the Tertiary hy- fication and systematics [11–14]. There is a close relation- drogenous coal in Germany were believed to be closely ship between Cupressaceae (including former Taxodiaceae) allied to or generically identical to Sciadopitys [24]. “Sci- and Sciadopityaceae in morphological aspects. Most molec- adopitys-like” leaves also have been described in the Late ular studies support the placement of Sciadopityaceae basal Jurassic to Early Cretaceous in Europe, including European to a Cupressaceae plus Taxaceae clade [15,16]. Russia, such as Tritaenia Maegdefrau et Rudolf [25,26]. Well-preserved seed cones of the Sciadopytiaceae have *Corresponding author (email: [email protected]) been documented from the Upper Cretaceous in Japan © The Author(s) 2011. This article is published with open access at Springerlink.com csb.scichina.com www.springer.com/scp 570 Jiang Z K, et al. Chin Sci Bull February (2012) Vol.57 No.6 [7,27]. These nodules are composed of clustered sclerenchyma The anatomical structures of secondary xylem of the liv- cells. The primary xylem is endarch with metaxylem grow- ing species, Sciadopitys verticillata have been studied in ing exocentrically. The radial wall pits on secondary xylem details [9,14,28,29]. The unique structure that distinguishes are of the transitional type; where uniseriate, the tracheids Sciadopitys from other conifers is the cross-field dominated are circular and closely arranged (Figure 1d, left arrow); by window-like pits and sub-taxodioid pits with extended where biseriate, the tracheids are alternate and circular or pit apertures. Such characteristic anatomical structures are polygonal (Figure 1d, right arrow). The cross-field pits rarely documented in fossil xylem. Jurasky first described contain both sub-taxodioid pits with extended pit aperture, Sciadopityoxylon from the Tertiary of Germany [30]. The and window-like pits. (Figure 1e,f). The ray cells are nor- genus is characterized by uniseriate, separated and rounded mally uniseriate, in places biseriate, with a height of 2–26 bordered pits on radial walls, occasionally with biseriate cells, and longitudinally elliptical in shape. and opposite pits. The cross-field pits are of both win- According to the anatomical structures of the secondary dow-like and sub-taxodioid types. There are tracheids on xylem, namely the transitional type pitting of the radial wall the tangential walls, but spiral thickening and parenchyma and mixed window-like pits and sub-taxodioid cross-field are not present. The xylem rays are uniseriate, 1–6 cells pits with extended pit apertures [14], the secondary xylem high. Ray cells are smooth on the horizontal walls. Resin of our new fossil wood type should belong to the Protosci- canals are absent [31,32]. Recently, two sciadopityaceous adopityoxylon-type of the Sciadopityaceae (Coniferales). taxa, Sciadopityoxylon and Protosciadopityoxylon, have The presence of detailed anatomical structures of pith and been recorded in Early Jurassic and Cretaceous deposits in primary xylem enables us to establish a new morphogenus northeast China [31–33] with generally similar secondary for the present specimens (detailed description to be pub- xylem. These two genera show the same window-like and lished separately). It is the first time that Sciadopitys-like sub-taxodioid cross-field pitting as in the living species, but fossils with pith, primary xylem and secondary xylem have are different in pits on the radial walls. Pits on the radial been found in the world. The present specimen has no doubt walls of Protosciadopityoxylon are uniseriate and close, or close systematic affinities to Sciadopitys, Sciadopityoxylon biseriate and alternate, while Sciadopityoxylon are uniseri- and Protosciadopityoxylon because it resembles, in many ate and separate, or biseriate and opposite. Pits on the radial respects, the living genus and is generally similar to all walls of living Sciadopitys are uniseriate, seldom crowded three genera in the secondary wood structure. Two other [9]. The extant species S. verticillata is characterized by coniferous genera, Scotoxylon (Seward et Bancroft) Vo- star-shaped pith and endarch primary xylem [9,29]. Pre- gellehner and Yokoxylon (Holden) Vogellehner [36], may be viously, these anatomical features have been entirely un- comparable with the specimens from western Liaoning, in known in fossil material. Here, we report on new fossil co- having pith, primary and secondary xylem. The three genera niferous wood with Sciadopytiaceae affinity from the Juras- share several characteristics in the primary xylem, but are sic of western Liaoning, China, characterized by having different in pith and secondary xylem structures, especially well preserved pith, primary xylem and secondary xylem. in the features of cross-field pits. The secondary xylem of The specimens were found from the Middle Jurassic Scotoxylon is of the Protojuniperoxylon-type, whereas that Tiaojishan Formation in the Changgao area, Beipiao City of of Yokoxylon is of the Protocedroxylon-type. They are not western Liaoning. The Tiaojishan Formation is widely dis- related to Sciadopityaceae with Sciadopitys- (or Sci- tributed in western Liaoning and northern Hebei and is rep- adopityoxylon- and Protosciadopityoxylon-) type secondary resented by intermediate lava and pyroclastic rock, with xylem. The piths of both Scotoxylon and Yorkoxylon consist intercalated basic volcanic rocks and sedimentary deposits. of homogeneous parenchyma cells, whereas the pith of the This formation has three sedimentary interbeds containing new morphogenus from Liaoning is heterogeneous and con- well preserved fossil plants. A number of plant fossils have sists of parenchyma cells and scattered sclerenchyma cells. been reported from this formation, including leaf impres- Comparing the new genus with Sciadopityoxylon and Pro- sions and compressions, seeds and fruits, permineralized tosciadopityoxylon, their secondary xylem is almost the fern rhizomes and fossil wood [34]. According to plant fos- same, especially the cross-field pitting, except for some sil assemblages and isotopic dating [35], the Tiaojishan minor differences in radial wall pits with Sciadopityoxylon.

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