Yunia Dichotoma, a Lower Devonian Plant from Yunnan, China

Yunia Dichotoma, a Lower Devonian Plant from Yunnan, China

Review qf Palaeobotany and Palynology, 68 (1991): 181 195 181 Elsevier Science Publishers B.V., Amsterdam Yunia dichotoma, a Lower Devonian plant from Yunnan, China Hao Shou-Gang a and Charles B. Beck b "Department q[Geology, Peking UniversiO', Be(ring 100871, China bMuseum o[ Paleontology and Department o[" Biology, University o[" Michigan, Ann Arbor 48109, MI, U.S.A. (Received August 20, 1990; revised and accepted December 6, 1990) ABSTRACT Hao, S.-G. and Beck, C.B., 1991. Yunia dichotoma, a Lower Devonian plant from Yunnan, China. Rev. Palaeobot. Palynol., 68: 181-195. This paper describes a new genus and species, Yunia dichotoma, collected from the Posonchong Formation of Siegenian age in the Wenshan district of Yunnan, China. The spiny axes are characterized by cruciate dichotomy. Associated, but not in organic connection, with the vegetative axes, are numerous elongate elliptical or ovoid sporangia. One small branching system consisting of a single dichotomy bears the basal part of a sporangium, suggesting the possibility that the sporangia were borne terminally in pairs. Sections of permineralized segments of the axis reveal a columnar protostele, circular to elliptical in transverse section containing one or two roughly circular to transversely elongate (often lunate) regions of large parenchyma cells sparsely interspersed peripherally with tracheids of small diameter. We interpret these regions of parenchyma and tracheids to be protoxylem strands and development of primary xylem to be centrarch. During branching of an axis, the initially single protoxylem region in a branch stele divides precociously prior to the separation of the daughter axes. Thus, the stele may contain two protoxylem strands through considerable lengths of daughter axes between levels of dichotomy. Yunia is tentatively assigned to the Trimerophytales. Introduction phytes) or exarch (zosterophyllophytes and lyco- phytes). Additional anatomical diversity is reflected, It has been 142 years since J.W. Dawson for example, in the stellate xylem column of established the genus, Psilophyton. The discovery Baragwanathia (see: Grierson and Banks, 1963) and of the Rhynie plants in the mid 1920's stimulated the deeply three-ribbed stele of a plant described by great interest in, and resulted in increased research Gensel (1984) from the upper Lower Devonian of activity on, early Devonian plants for several Gaspe, Canada. The plant described in this paper decades. More recently, the recognition by H. P. exhibits still further anatomical diversity. Perhaps Banks (1968, 1975) of three major groups of this is not surprising since several plants from the primitive vascular plants, the rhyniophytes, zoster- Lower Devonian, Posonchong formation of Yun- ophyllophytes and trimerophytes, has resulted, nan have been discovered recently that demonstrate during the last three decades, in a renewal of remarkable diversity in external morphology -- interest in the first land plants and the development morphologies quite different from those commonly of a wealth of new anatomical and morphological attributed to early vascular plants that lived on information, other equatorial continental plates during the early Anatomically, most vascular plants of Lower Devonian [see: e.g., Stachyophyton, Huia (Geng, Devonian age are characterized by a solid circular 1983, 1985), Eophyllophyton (Hao, 1988), Discalis or elliptical stelar column with primary xylem (Hao, 1989a), Gumuia (Hao, 1989b) and Catenalis development centrarch (rhyniophytes, trimero- (Hao and Beck, in press)]. 0034-6667/91/$03.50 ~".' 1991 -- Elsevier Science Publishers B.V. 182 tlAO SHOU-GANG AND CB. BECK The main accumulation of knowledge about fig.l, 2 for a stratigraphic chart and p.165 for a early vascular plants has been derived from fossils discussion of this age designation). The section of plants that comprised the flora of Laurussia outcrops about 150 m west of Zhichang village, (that today includes central and northern Europe, Gumu, on the west side of the highway leading Greenland and North America) during the early from Wenshan to Maguan County in southeastern Devonian. Whereas eastern Yunnan, a part of the Yunnan. South China Block, was probably a part of The plant specimens were preserved largely as Gondwana during the early Paleozoic (see: Fang, compressions in two thin-bedded layers, each 1989), Fang and Van der Voo (1989) conclude that about 3-5 cm thick. The lower layer is a dark gray by Devonian times it occupied an equatorial mudstone, directly overlain by a light purple-gray position. Consequently, these plants probably argillaceous sandstone. Ten specimens containing evolved under conditions of temperature and dichotomously branched axes and numerous as- photoperiod very similar to those experienced by sociated sporangia were collected. The four speci- vascular plants evolving concurrently in Laurussia. mens from the upper layer contained several And yet, they differed from these latter plants in branching systems containing short axis segments some rather striking ways as, for example, the permineralized by limonite. unusual histology of the haplostele of Yunia, the Thirty transverse thin sections were prepared laminate appendages of Eophyllophyton (Hao, from 5 permineralized axis segments and numbered 1988) and the alga-like morphology of Catenalis in sequence proximally to distally. These sections (Hao and Beck, in press). One is, therefore, are identified as follows: HSII-1 (3 sections of a stimulated to ask why the plants of the Poson- first-order axis); HB-4 (6 sections of a first-order chong flora are so different from those represented axis); HB-1 (3 sections of a second-order axis); H B5 by fossils collected from early Devonian sediments and HB6 (18 sections of a more distal part of a in central and northern Europe and North branching system; although numbered separately, America. The long isolation during and prior to these segments represent a single axis). Five longitu- the early Devonian of the China plate (Bambach et dinal sections were prepared from two segments of al., 1980) may provide part of the reason for the first-order axes as follows: HSI 1-2 (1 section); HB-3 evolution of numerous endemics. Perhaps because (4 sections). Sections, cut at I mm intervals, were of a major ocean current flowing north along its prepared according to the technique of Stein et al., eastern coast (Ziegler et al., 1981) China was also (1982). Attempts to clear the sections in reagent HC1 warmer than other equatorial paleocontinents were largely unsuccessful. during early Devonian. Finally, we suggest that To obtain in situ spores, sporangia were unco- southeastern China was situated so that prevailing vered and removed from the matrix using steel winds were ineffective in transporting spores needles and macerated in a solution of 20% HF for westward toward Laurussia. 24 48 h. After washing, HCI was added to remove It is quite possible that current, widespread calcium fluoride and the sludge was neutralized concepts of primitive vs. advanced character states with sodium hydroxide, washed and mounted on are biased by the paleoecological conditions under glass slides. which the first vascular plants lived. As we learn Whereas the preparations described above were more about those that evolved on different parts of made primarily in the laboratory of CBB, a few the Earth under different paleoecological condi- sections (Plate III, 19-21) and the SEM photo- tions we may need to re-evaluate these concepts. graphs were made in the laboratory of HS in Beijing. Specimens were prepared for SEM obser- Materials and methods vations as follows: Permineralized axis segments were broken transversely and longitudinally. The specimens were collected from the fifth Appropriate fragments, observed and chosen with lithological unit of the Posonchong Formation of aid of a light microscope, were mounted on stubs Lower Devonian (Siegenian) age (see: Hao, 1989a, and gold coated for observation with an SEM. YUNIA DICHOTOMA, LOWER DEVONIAN PLANT FROM YUNNAN~ CHINA 183 Description elongate-elliptical to ovoid with a rounded apex and often narrow toward the base (Plate I, 4 6; Morphology of vegetative axes Fig.ld-m). Some still bear the slender basal stalks by which they were attached to the fertile branch The axes are 1.8 5.0 mm wide. The longest axis system. These short stalks, of variable length, observed is 9.0 cm in length and it is broken at measure 0.1-0.3mm in width. Some sporangia both ends. Branching is by isotomous dichotomy exhibit a peripheral rim, possibly thickened in life, (Plate I, 1, 2). Axes increase slightly in width just about 0.07 mm wide, which extends from near proximal to a dichotomy and the resulting pair of the base over the apex (PlateI, 6, arrows; axes are nearly the same width or slightly narrower Fig.le, g, m). Longitudinal dehiscence apparently than the parent axis. For example, Plate I, 2 (upper occurred along this zone separating the sporangia right) shows an axis 3.2 mm wide which increases into two equal valves (Plate I, 4, 5; Fig.l h, j-I). to 4.0mm just below a dichotomy. The two Occasionally, sporangia occur in pairs (Plate I, 1), resulting axes distal to the dichotomy are each suggesting the manner in which they were borne on about 3.0 mm wide. Dichotomies occur at wide the plant. angles of 50-70 ° (Plate I, 1, 2). Occasionally 4-6 surface striations may be observed on the inner Spores surface of a compression mold of an axis (Plate I, 2, arrows). Since they are not visible on Poorly preserved masses of spores (Plate IV, 28) the external surface of the compressed axes we and isolated spores were obtained from sporangia interpret them to represent longitudinal strands of by maceration. The spores, generally circular in tissue in the outer cortex. The axes are sparsely equatorial outline, range from 35.3-53.3 gm in covered by small spines that taper from a rather diameter. The trilete scar is simple, thin, often split broad base (Plate I, 2; Fig.lc).

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