中国晚泥盆世两种木本石松植物的研究

木本石松植物在晚古生代植物群中一直引人注目，它们是最早在中、晚泥盆世发展乔木和异孢习性的陆生维管植物谱系之一。在这篇报告中，中国两种晚泥盆世（距今约354-370百万年）的木本石松植物被详细地研究了。这两项研究增进了我们对泥盆纪木本石松植物的进化发育生物学的认识。 作者从中国西北部新疆准噶尔盆地上泥盆统的地层中描述了一个新种新疆鳞孢穗Lepidostrobus xinjiangensis sp.nov.，它为我们研究晚泥盆世石松植物的生殖分化和系统发育关系提供了新的认识。这个孢子叶球不同于任何草本石松植物的生殖器官，而与木本石松植物的生殖器官更为相似，它符合鳞孢穗属Lepidostrobus的鉴别性状。它的每个孢子叶由一个楔形的叶柄和一个三角形的叶片构成。孢子叶水平地着生在穗轴上，呈低角度的螺旋排列。叶柄具有侧翼和一个远轴面的脊，其远端延伸为一个上翻的叶片和一个下翻的踵，形成了一种盾状的外貌。孢子囊呈辐向加长、背腹扁的卵球形，具有顶端的纵向开裂。每个孢子囊基部纵向着生在叶柄的近轴面上。在孢子囊中发现了一个柱状的亚孢原组织垫。一个可能的叶舌出现在叶柄近轴面靠孢子囊远端。这个生殖器官是一个小孢子叶球，含石松孢Lycospora型孢子，具有粒状纹饰和赤道凸缘。基于这个鳞孢穗新种，木本石松植物从泥盆纪到石炭纪以来的生殖分化和演化式样在一个系统发育的框架中被讨论了。作者提出，木本石松植物由两性孢子叶球和单孢子叶球所代表的生殖策略到了晚泥盆世已经发展得相当完备，这暗示着系统发育上生有鳞孢穗孢子叶球的木本石松植物比过去所认为得起源要早。 作者重新调查了一个过去描述于中国湖北晚泥盆世（弗拉斯期）黄家磴组地层中的斜方薄皮木Leptophloeum thombicum的树干，并提出关于这个木本石松植物生长结构的新观点。这个树干保存为压扁的硅化化石，具有不均匀渗矿化的初生维管组织和螺旋排列的斜方形叶座。叶座特征符合晚泥盆世广泛分布的植物斜方薄皮木Leptophloeum rhombicum Dawson的鉴别性状。分类上，斜方薄皮木被归入薄皮木科Leptophloeaceae和广义水韭目Isoetales s.l.。这个树干在不同水平的解剖特征证明，斜方薄皮木的个体发育可能符合一种有限的生长方式。结合过去的资料和当前的生长结构分析，作者提出斜方薄皮木具有假单轴分枝的习性，而不是过去所认为的那样长着等二叉分枝的树冠。作者重新复原了这个植物的总体生长形态，它由一个根座式根状茎、一个主干和侧枝三类主要的生长结构单元构成。当这些结果组合了近期的系统发育工作后，它表明斜方薄皮木已经发育了与一些晚泥盆世法门期和石炭纪木本石松植物相似的生长结构，可能代表了早期水韭目植物祖先的生长结构类型之一。

Lycopodiopsis derbyi Renault from the Corumbatai Formation in the state of Sao Paulo (Guadalupian of Parana Basin, Southern Brazil): New data from compressed silicified stems

Lycopodiopsis derbyi Renault was analyzed on the basis of compressed silicified stems from four Guadalupian outcrops of the Parana Basin (Corumbatai Formation) in the State of Sao Paulo, Southern Brazil. Dichotomous stems have been recorded, and three different branch regions related to apoxogenesis are described. The most proximal region has larger, clearly rhomboidal leaf cushions, with protruding upper edges; the intermediate transitional region also has rhombic leaf cushions, but they are smaller and less elongated than the lower in the same axis; finally, the most distal region reveals only incipient cushions, with inconspicuous infrafoliar bladders; interspersed microphylls were still attached. A well preserved branch representative of this most distal region was sectioned; it has a siphonostelic cylinder similar to that previously described for L derbyi. The cortex, however, shows new traits, such as a short portion of elongated cells between the periderm and the external cortex (or leaf cushion tissue). The stems were apparently silicified prior to their final burial but were probably not transported for long distances. Their final burial may have taken place during storm events, which were common during the deposition of the Corumbatai Formation. These stems are commonly deformed due to compression, mainly because the internal cortical portions rapidly decayed prior to silicification due to their thin-walled tissue, and are therefore not preserved. The common alkalinity of a shallow marine environment such as that in which the Corumbatai Formation was deposited, should mobilize the silica and favors petrifaction. Based on the new data, an emended diagnosis is proposed and a modification of the identification key published by Thomas and Meyen in 1984 for Upper Paleozoic Lycopsida is suggested. (C) 2009 Elsevier B.V. All rights reserved.