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1.
The crenistria Limestone is a set of three autochthonous massive limestone beds occurring with great lithological persistence in the Kulm Facies (cd III , upper Viséan) of the eastern Rheinisches Schiefergebirge. Microfacies analysis reveals mainly minipeloidal fabrics and homogeneous micrite. Uncrushed, sediment-filled conchs of goniatites represent loci of sheltered preservation of primary carbonate textures. Calcified radiolarians are abundant, forming between 20 and 80% of total rock volume. The alleged algal genus Rectangulina is common in the crenistria Limestone. It is reinterpreted to represent the faeces of goniatites. For the first time the presence of in situ preserved sponges is reported. They can be recognized as delicate networks of microsparitic needles embedded in peloidal fabrics. Hexactinellids with primary spicule arrangements can be found embedded in homogeneous micrite. The carbonate forming the limestone beds was produced microbially during decomposition of soft tissue of the radiolarians and sponges. During the cd III , anoxia in the bottom waters of the Kulm Basin persisted for long periods due to stable density stratification of the water column under humid climatic conditions. Oxic conditions in the bottom waters during formation of the limestone are indicated by bioturbation, the presence of sponges and the high Mn-contents of the carbonate. The latter derived from reduction of Mn-oxides during microbial carbonate formation. 相似文献
2.
Very few basal attachments of the spiralled fenestrate bryozoan Archimedes are known. A newly discovered specimen is interpreted to have grown on a thin cylindrical ephemeral substratum that extended above the sediment-water interface, allowing paired spirals to develop and to extend in opposite directions when the colony was very small. 相似文献
3.
MENDEL N. GRAMM 《Lethaia: An International Journal of Palaeontology and Stratigraphy》1984,17(2):125-132
A duplicature with a very broad inner calcified lamella is revealed in representatives of the genus Janischewskya Batalina 1926. The presence of this structure necessitates the elimination of Janischewskya from the family Hollinidae. A new family of unknown ordinal disposition – Janischewskyidae – is erected. At present, a duplicature is ascertained in four groups of Palaeozoic ostracodes – Podocopina, Parapodocopina, Selebratina-Coryellina , Janischewskyidae. □stracoda, Janischewskyidae, inner calcified la-mella, Carboniferous.
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4.
ALWYN WILLIAMS MAGGIE CUSACK 《Lethaia: An International Journal of Palaeontology and Stratigraphy》1996,29(4):349-360
Organophosphatic shells of the brachiopod Lingula squarniformis , collected from Scottish Lower Carboniferous shales and mudstones of intertidal to sublittoral provenance, have been studied to ascertain chemico-structural changes resulting from fossilization. Enough original shell has been preserved at ultrastructural and molecular levels to confirm that Carboniferous and Recent integuments are homologous with stratiform successions of apatitic to organic laminae forming rhythmic sets. One of the main organic constituents, the acidic, hydrophilic gel glycosaminoglycans (GAGs), is the dominant component towards the tops of rhythms. During fossilization of the Carboniferous shells, GAGs degraded incrementally without disturbing apatitic ultrastructures, and the spaces so created became partly filled with sheets of recrystal-lized apatite with some kaolinite or with books and plates of kaolinite. The kaolinite in the shells contrasts with the illite of the entombing sediments and suggests that degrading acidic GAGs mediated in clay formation in situ . The sediments also contain framboidal pyrite, which is virtually absent from the shells themselves but is usually even more abundant, with a greater range of trace metals, in the sedimentary fills of complete shells. This imbalance suggests mediation by another gel, the glycocalyx, secreted by the inner epithelium of the brachiopod mantle. The glycocalyx would have lined the shell interior and could have served as a sorption film for dissolved metals precipitated as compounds on decomposition of body tissue. 相似文献
5.
The history of Devonian-Carboniferous reef communities: Extinctions,effects, recovery 总被引:1,自引:0,他引:1
Dr. J. A. Fagerstrom 《Facies》1994,30(1):177-191
Summary Analysis of the taxonomic composition, diversity and guild structure of five “typical” reef and mud mound communities ranging
in age from Late Devonian-Early Carboniferous indicates that each of these aspects of community organization changed dramatically
in relation to three extinction events. These events include a major or mass extinction at the end of the Frasnian; reef communities
were also effected by less drastic end-Givetian and mid-late Famennian extinctions of reef-building higher taxa.
Peak Paleozoic generic diversities for reef-building stromatoporoids and rugose corals occurred in the Eifelian-Givetian;
reef-building calcareous algal taxa were longranging with peak diversity in the Devonian. These three higher taxa dominated
all reef-building guilds (Constructor, Binder, Baffler) in the Frasnian and formed fossil reef communities with balanced guild
structures. The extinction of nearly all reef-building stromatoporoids and rugose corals at the end of the Frasnian and the
survival of nearly all calcareous algac produced mid-late Famennian reef communities dominated by the Binder Guild. Despite
the survival of most calcareous algae and tabulate corals, the mid-late Famennian extinction of all remaining Paleozoic stromatoporoids
and nearly all shelf-dwelling Rugosa brought the already diminished Devonian reef-building to a halt. These Devonian extinctions
differ from mass extinctions by the absence of a statistically significant drop in taxonomic diversity and by their successional
and cumulative effects on reef communities.
Tournaisian mud mounds contain communities markedly different from the frame-building communities in Late Devonian and Visean
reefs. Mound-building biotas consist of an unusual association dominated by erect, weakly skeletonized members of the Baffler
Guild (chiefly fenestrate Bryozoa; Pelmatozoa) and laterally expanded, mud-binding algae/stromatolites and reptant Bryozoa.
The initial recovery to reefs with skeletal frameworks in the Visean was largely due to the re-appearance of new species of
abundant colonial rugose corals (Constructor Guild) and fenestrate Bryozoa.
This Frasnian-Visean evolution in the taxonomic composition and structure of the reef-building guilds is also expressed by
abrupt changes in biofacies and petrology of the reef limestones they produced. Thus, “typical” Frasnian reef limestones with
balanced guild structures are framestones-boundstones-bafflestones, Famennian reefs are predominantly boundstones, Tournaisian
mud mounds are bafflestones and Visean reefs are bafflestones-framestones. 相似文献
6.
Summary A calciturbidite bed from the lower part of the Kieselkalk Formation (late cd II) at Wallau, eastern Rheinisches Schiefergebirge,
displays ideal grading of reworked calcareous shallow-water microbiota, ranging from plurimillimetric agglutinated foraminifers
and fragments of calcareous algae (Koninckopora sp.) to plurimicronic calcispheres, radiolarians and sponge spicules. Microbiota derived from all levels of the platform.
Correspondingly, several carbonate microfacies types could be discerned. The early diagenetic micrite base of the turbidite
preserved the anoxic basinal facies.
The turbidite bed belongs to Foraminiferal Zone 15 (V3bα), theAlbaillella cartalla Zone (radiolarian chronology), and is the Lower and part of the Uppertexanus Zone (standard conodont zonation). From the few published data on foraminifers, the Kieselkalk is thought to range from Mid
Viséan V2b to Late Viséan V3b gamma. 相似文献
7.
8.
文章通过贵州盘新塘原下二叠统下部紫松阶珊瑚化石的分析,将该地层划归上石炭统上部。描述上炭统威宁阶,过岩阶和紫松阶的四射珊瑚6属7种,其中5新种,通过对这些珊瑚的形态构造进行了剖析,略述了该地区在晚石炭世的环境特征。 相似文献
9.
Acrocyathus是一类块状体或丛状体的四射珊瑚,在北美分布于下石炭统,我国见于上石炭统,但丛状体的在我国系首次发现。在连续切片上,可见两个生长阶段,其繁殖方式有侧芽繁殖和边缘泡沫板内繁殖,系统分类上另置独立的科级分类。根据形态分析,该珊瑚栖息在动水,能量略高及食料丰富的浅水环境。当前标本为一新种:A.jiyuanensissp.nov.。 相似文献
10.
The gastropod fauna of the Upper Devonian Baggy and Pilton formations in south‐west England is revised and includes some 30 taxa. The topmost part of the Upper Famennian succession in Devon is represented by clastic near‐shore and shallow shelf sediments, indicating a short‐term transgressive phase (‘Strunian Transgression’). The sequence yields a highly diverse fauna dominated by brachiopods and ostracodes, locally supplemented by crinoids, bryozoans, trilobites and molluscs. The taxa ‘Patellostium’britannicum sp. nov., Angyomphalus (Angyomphalus) junius sp. nov. and Dictyotomaria eurocapillaria sp. nov. are erected; a junior homonym is replaced by Macrochilina? piltonensis nom. nov. The gastropod fauna displays an independent character, where latest Devonian faunal elements overlap with Late Palaeozoic taxa expressing a transition similar to that of the bivalves, brachiopods, echinoderms and corals, without a sharp faunal break at the Devonian/Carboniferous boundary. Apart from the Caenogastropoda, all subclasses of gastropods are represented. Members of the bellerophontoids, pleurotomarioids and loxonematoids are most abundant, followed by murchisonioids, naticimorphs, euomphalomorphs and platyceratoids. The various gastropod groups represent different ecological demands and trophic categories, and together with the accompanying fauna indicate that nearly all habitats and niches were occupied in the shallow South Laurussian Shelf. 相似文献