西伯利亚西部侏罗纪植物微体化石的热变质作用

研究了西伯利亚西部几个地点钻孔侏罗纪岩芯样中的植物微体化石。在有关组合中,Lycopodium sp., Coniopteris spp.和Gleicheniidites sp.的孢子少,Klukiasporites sp.极少;代表性花为有Pinus exilioides,P.disulgaus,sciadopites sp.和Classopollis;微体浮游植物占优势,例如Crassisphaera sp.,Tasmanites sp.,Pterospermopsis eurypteris. P.harti和Cymatiosphaera sp.颇丰富,有时出现Pareodinia sp.和Trichodinium sp.。虽然各个组合中孢子、花粉、微体浮游植物在含量上有变化,但总的组成在西伯利亚西部不同地区尚稳定,此等微化石的颜色或有变化,它们（特别是微体浮游植物）可用来检测沉积有机质受热变质的成熟度级别。     

Garnet-filled trails associated with carbonaceous matter mimicking microbial filaments in Archean basalt

The study of the earliest traces of life on Earth can be complicated by abiotically formed biomorphs. We report here the finding of clustered micrometer-sized filaments of iron- and calcium-rich garnets associated with carbonaceous matter in an agate amygdale from a 2.7-billion-year-old basalt of the Maddina Formation, Western Australia. The distribution of carbonaceous matter and the mineral phases composing the filaments were analyzed using a combination of confocal laser scanning microscopy, laser-Raman micro-spectroscopy, focused ion beam sectioning and transmission electron microscopy. The results allow consideration of possible biogenic and abiotic processes that produced the filamentous structures. The filaments have a range of sizes, morphologies and distributions similar to those of certain modern iron-mineralized filamentous bacteria and some ancient filamentous structures interpreted as microfossils. They also share a high morphological similarity with tubular structures produced by microbial boring activity. However, the microstructures and the distribution of carbonaceous matter are more suggestive of an abiotic origin for the filaments. They are characteristic features of trails produced by the displacement of inclusions associated with local dissolution of their silica matrix. Organic compounds found in kerogen or bitumen inclusions may have contributed significantly to the dissolution of the quartz (or silica gel) matrix driving filamentous growth. Discriminating the products of such abiotic organic-mediated processes from filamentous microfossils or microbial borings is important to the interpretation of the scarce Precambrian fossil record and requires investigation down to the nanoscale.     

The microfossil record of early land plants

Dispersed microfossils (spores and phytodebris) provide the earliest evidence for land plants. They are first reported from the Llanvirn (Mid-Ordovician). More or less identical assemblages occur from the Llanvirn (Mid-Ordovician) to the late Llandovery (Early Silurian), suggesting a period of relative stasis some 40 Myr in duration. Various lines of evidence suggest that these early dispersed microfossils derive from parent plants that were bryophyte-like if not in fact bryophytes. In the late Llandovery (late Early Silurian) there was a major change in the nature of dispersed spore assemblages as the separated products of dyads (hilate monads) and tetrads (trilete spores) became relatively abundant. The inception of trilete spores probably represents the appearance of vascular plants or their immediate progenitors. A little later in time, in the Wenlock (early Late Silurian), the earliest unequivocal land plant megafossils occur. They are represented by rhyniophytoids. It is only from the Late Silurian onwards that the microfossil/ megafossil record can be integrated and utilized in interpretation of the flora. Dispersed microfossils are preserved in vast numbers, in a variety of environments, and have a reasonable spatial and temporal fossil record. The fossil record of plant megafossils by comparison is poor and biased, with only a dozen or so known pre-Devonian assemblages. In this paper, the early land plant microfossil record, and its interpretation, are reviewed. New discoveries, novel techniques and fresh lines of inquiry are outlined and discussed.     

Microfossils from the middle Precambrian McArthur Group,Northern Territory,Australia

Microfossils have been detected in several formations of the McArthur Group (about 1600 m.y. old), in petrological thin sections and in macerations. Some of these occur associated with a lead-zinc ore body; others have been found in well-preserved dolomites and cherts. The variety of microfossils observed is considerable, and their state of preservation is good. Large numbers of singlecelled, colonial and multicellular organisms occur; in the latter, at least one clear case of cell differentiation can be demonstrated. Some of the organisms are morphologically comparable with blue-green algae such as the Chroococaceae, but, unlike the well-known Bitter Springs microflora, the assemblage is notably poor in filamentous algae. The filaments that do occur are not septate, and may represent discarded blue-green algal sheaths. Many of the microorganisms are extremely small in size, and in some cases, colonial structures composed of large numbers of 1 m diameter cells are present, that may represent bacterial remains. Most of the microfossils occur in stromatolitic cherts, but the lead-zinc orebody from which some were obtained is a fine-grained dolomitic shale.Stratigraphically, this new assemblage occurs in sediments of age intermediate between the well-known Gunflint Chert assemblage and the equally well-known Bitter Springs flora. The level of organization of the microfossils represents a great advance on the of the Gunflint Chert microfossils, in that demonstrably colonial and large multicellular microorganisms occur, as well as cells of a relatively large size. No convincing evidence for the presence of nuclei or nuclear membranes has yet been found in McArthur Group microorganisms, but the large size and organizational complexity of some of the structures suggests that the origin of the eukaryotic cell may occur rather earlier in geologic times than previous indications have suggested.     

Re-Exposure of Tapes at High Temperature and Pressure in the Lycopodium Clavatum Spore Exine

Lamellations are visualizable through the staining commonly used in transmission electron microscopy during exine formation on Lycopodium and other spores, and the nexine of pollen grains. The lamellations so exposed consist-of dark tapes at either side of an unstained (white) line. Neither tapes nor white lines are visualizable in the exine of mature spores of Lycopodium. The continued presence of lamellations having tape-white line spacing has been demonstrated with inorganic tracers in the nexine of pollen in which lamellations otherwise appeared to be absent. Through high contrast staining methods for TEM we have observed lamellations in the residual exine following heat treatment (350[ddot]C) of mature spores of Lycopodium clavatum. The surface of these residual exines was etched by treatment with hot 2-aminoethanol and filaments were observed to protrude from the etched surfaces. The residual exine stained darkly. Lycopodium spores heated to 300[ddot]C at 1 kb pressure had long filaments exposed at the surface of the residual exine (sporopollenin). Sections of the pellet remaining after heat and pressure treatment also included bundles of closely parallel filaments and masses of isolated filaments. The filaments were stained while the exine residue, assumed to include sporopollenin, was not. Isolated filaments produce a stable metachromasia with toluidine blue indicating the presence of many closely spaced sites of negative charge. The staining of intact exines with basic dyes may result from anionic sites on filaments embedded within the exine rather than being due to sporopollenin. The results of our experiments indicate that the filaments are more resistant to heat and pressure and 2-aminoethanol than is sporopollenin. We propose that the trilamellar elements commonly called tapes and white lines might be composed of two filaments bridged by polybasic molecules.     

A DISCUSSION AND PROPOSAL CONCERNING THE USE OF THE TERM CALCISPHERES

Abstract:  The terminology and grouping of spherical, calcareous microfossils of unknown biological affinity, usually referred to as calcispheres, are diffuse. The term calcispheres is inconsistently used, the morphological and taxonomical concepts are mostly ill-defined and a formal definition is lacking. To resolve this issue, we propose, in analogy with the erection of the Acritarcha for organic microfossils of unknown origin, a new group called Calcitarcha, including all calcareous microfossils with a central cavity for which the biological affinities remain unknown.     

Formation and diagenesis of modern marine calcified cyanobacteria

Calcified cyanobacterial microfossils are common in carbonate environments through most of the Phanerozoic, but are absent from the marine rock record over the past 65 Myr. There has been long-standing debate on the factors controlling the formation and temporal distribution of these fossils, fostered by the lack of a suitable modern analog. We describe calcified cyanobacteria filaments in a modern marine reef setting at Highborne Cay, Bahamas. Our observations and stable isotope data suggest that initial calcification occurs in living cyanobacteria and is photosynthetically induced. A single variety of cyanobacteria, Dichothrix sp., produces calcified filaments. Adjacent cyanobacterial mats form well-laminated stromatolites, rather than calcified filaments, indicating there can be a strong taxonomic control over the mechanism of microbial calcification. Petrographic analyses indicate that the calcified filaments are degraded during early diagenesis and are not present in well-lithified microbialites. The early diagenetic destruction of calcified filaments at Highborne Cay indicates that the absence of calcified cyanobacteria from periods of the Phanerozoic is likely to be caused by low preservation potential as well as inhibited formation.     

Early Cambrian small carbonaceous fossils (SCFs) from an impact crater in western Finland

We describe an assemblage of small carbonaceous fossils (SCFs) and acritarchs from cored siltstones of the Lappajärvi impact structure, west‐central Finland. Previous studies had detected a depauperate acritarch biota ascribed to a deep Proterozoic origin—this age, however, was based on recovery of long‐ranging poorly age‐diagnostic sphaeromorphs. To resolve the age and provenance of these crater sediments, we applied low‐manipulation processing techniques optimized for retrieval of larger organic‐walled microfossils. Our study revealed a previously undetected assemblage containing numerous metazoan SCFs consisting of flattened ‘protoconodonts’ (grasping spines assignable to total group Chaetognatha) and a distinctive fossilised chaeta, possibly representing the oldest known annelid remains. Phylogenetically problematic fossils include various acritarchs (large Leiosphaeridia sp., Tasmanites tenellus, smaller sphaeromorphs, Synsphaeridium, Archaeodiscina and Granomarginata) and filamentous forms (Palaeolyngbya‐ and Rugosoopsis‐like filaments, Siphonophycus), likely representing prokaryotic or protistan grades of organisation. As well as adding new diversity to an emerging SCFs record, these data substantially refine the age of these sediments by more than half a billion years, to an early Cambrian Terreneuvian age. More specifically, the assemblage is equivalent to that of the Lontova Formation from the Baltic States and northwest Russia, but is previously unreported from Finland. Identification of Lontova‐type SCFs/organic‐walled microfossils at Lappajärvi further constrains the poorly resolved extent of maximum flooding during the early Cambrian in Baltica. Renewed attention should be directed to strata that have thus far produced only biostratigraphically long‐ranging or ambiguous palynological assemblages—‘SCF‐style’ processing can reveal hitherto undetected, age‐informative microfossils that are otherwise selectively removed in conventional palynological studies.     

论长城系微化石群的真核生物意义

本文主要以燕山地区长城系页岩相微化石群为基础,通过与现代生物形态标志的对比,论证了在18亿年前真核藻类即已繁盛发育,其中既包括有原始的绿藻和甲藻,也有低级的真菌,还可能有原始类型的褐藻,至于真核生物出现的时间则可追溯到古元古代。根据已知资料的综合,按体制阶段的发展规律给出了绿藻、甲藻以及褐藻的可能的各自发展路线,可供探讨藻类起源与演化时参考。     

The origin of alternation of generations in land plants: a focus on matrotrophy and hexose transport

A life history involving alternation of two developmentally associated, multicellular generations (sporophyte and gametophyte) is an autapomorphy of embryophytes (bryophytesphytes + vascular plants). Microfossil data indicate that Mid Late Ordovician land plants possessed such a life cycle, and that the origin of alternation of generations preceded this date. Molecular phylogenetic data unambiguously relate charophycean green algae to the ancestry of monophyletic embryophytes, and identify bryophytes as early-divergent land plants. Comparison of reproduction in charophyceans and bryophytes suggests that the following stages occurred during evolutionary origin of embryophytic alternation of generations: (i) origin of oogamy; (ii) retention of eggs and zygotes on the parental thallus; (iii) origin of matrotrophy (regulated transfer of nutritional and morphogenetic solutes from parental cells to the next generation); (iv) origin of a multicellular sporophyte generation; and (v) origin of non-flagellate, walled spores. Oogamy, egg/zygote retention and matrotrophy characterize at least some modern charophvceans, and are postulated to represent pre-adaptative features inherited by embryophytes from ancestral charophyceans. Matrotrophy is hypothesized to have preceded origin of the multicellular sporophytes of' plants, and to represent a critical innovation. Molecular approaches to the study of the origins of matrotrophy include assessment of hexose transporter genes and protein family members and their expression patterns. The occurrence in modern charophyceans and bryophytes of chemically resistant tissues that exhibit distinctive morphology correlated with matrotrophy suggests that Early-Mid Ordovician or older microfossils relevant to the origin of land plant alternation of generations may be found.     

Environmentally induced formation of plasmatic filaments in the protonema ofCeratodon purpureus

Summary Incubation of spores ofCeratodon in 0.1% sucrose solution in darkness causes the formation of abundant filamentous bundles with an average width of 0.39±0.02 . The center-to-center distance of adjacent filaments is 216±1.4 Å. The individual filaments have an electron-dense tubular part with a diameter of 108±0.6 Å. Dictyosome-derived coated vesicles, which enlarge to ER-like coated tubuli, are always associated with the filaments. In younger cultures these electron-dense coated tubuli seem to spin filaments from their sides.     

Morphological stasis of protists in lower cretaceous amber

Paleomicrobiological studies of terrestrial and freshwater protists are extremely rare in comparison with studies of eukaryotic microfossils from marine ecosystems. Using optical and electron microscopy (SEM-BSE) for hard substrates, we have examined protists trapped in Lower Cretaceous amber from Pe?acerrada (Alava, Spain). We present the earliest reasonably confident microfossils of three taxa: Excavata (Euglenozoa), that are similar to the extant genera Euglena and Phacus; Chlorophyceae identified as members of the genus Chlamydomonas, and finally, in the taxon Ciliophora (Chromalveolata), two ciliated protozoa identified as Colpoda (Class Colpodea) and Prorodon (Class Prostomatea). Morphological stasis is evident, and identification based on phenotypic traits indicates the existence of conservative phenotypes persisting over geological time scales.     

Snapshot of an early Paleoproterozoic ecosystem: Two diverse microfossil communities from the Turee Creek Group,Western Australia

Eighteen microfossil morphotypes from two distinct facies of black chert from a deep‐water setting of the c. 2.4 Ga Turee Creek Group, Western Australia, are reported here. A primarily in situ, deep‐water benthic community preserved in nodular black chert occurs as a tangled network of a variety of long filamentous microfossils, unicells of one size distribution and fine filamentous rosettes, together with relatively large spherical aggregates of cells interpreted as in‐fallen, likely planktonic, forms. Bedded black cherts, in contrast, preserve microfossils primarily within, but also between, rounded clasts of organic material that are coated by thin, convoluted carbonaceous films interpreted as preserved extracellular polymeric substance (EPS). Microfossils preserved within the clasts include a wide range of unicells, both much smaller and larger than those in the nodular black chert, along with relatively short, often degraded filaments, four types of star‐shaped rosettes and umbrella‐like rosettes. Large, complexly branching filamentous microfossils are found between the clasts. The grainstone clasts in the bedded black chert are interpreted as transported from shallower water, and the contained microfossils thus likely represent a phototrophic community. Combined, the two black chert facies provide a snapshot of a microbial ecosystem spanning shallow to deeper‐water environments, and an insight into the diversity of life present during the rise in atmospheric oxygen. The preserved microfossils include two new, distinct morphologies previously unknown from the geological record, as well as a number of microfossils from the bedded black chert that are morphologically similar to—but 400–500 Ma older than—type specimens from the c. 1.88 Ga Gunflint Iron Formation. Thus, the Turee Creek Group microfossil assemblage creates a substantial reference point in the sparse fossil record of the earliest Paleoproterozoic and demonstrates that microbial life diversified quite rapidly after the end of the Archean.     

Early vascular land plants: proof and conjecture

Megafossil evidence does not fill the 'evolutionary gap' between land plants and their hypothetical green algal ancestors. Rare Late Silurian vascular plant megafossils provide little information about the morphological, physiological, biochemical, and ecological steps that preceded their evolution. Dissociated trilete spores, spore tetrads, cuticle- and tracheid-like structures far exceed the abundance and diversity of Silurian vascular plant megafossils, and appear millions of years before them. In reference to whole-bodied organisms, these or analogous structures belong to land plants or emergent aquatics; they may represent plants evolutionarily intermediate between green algae and descendent vascular plants at the bryophyte or pre-bryophyte stages. Changes in the cellular biochemistry of pre-Devonian land plants in response to the selective pressures of terrestrial life may have led to the origin of lignin and cutin, neither of which has any counterpart among the algae, and to the evolutionary surge of the vascular plants in the Early Devonian represented by the plant megafossil record. Positive correlation between abundance and diversity of trilete spores and shallow-water, nearshore sites reinforces conclusions based on morphology that a terrestrial flora existed well prior to the appearance of vascular plant megafossils.     

Metabolic Activities of Isolated Spores of Anabaena cylindrica

A method for the isolation of spores of Anabaena cylindricais described, and results concerning the metabolic activitiesof isolated spores are presented. Isolated spores fixed carbondioxide in the light at a lower rate and evolved carbon dioxidein the dark at a higher rate than the corresponding whole filaments.Nitrogen-fixing ability in isolated spores could be detectedneither with the isotopic method nor with the new acetylenetechnique. Isolated spores were able to germinate at the samerate as spores within the original cell population when transferredinto fresh culture medium.     

Tertiary scolecodont assemblages of the Maranhão continental shelf,Northeast Brazil

Micropaleontological studies of Tertiary shales and carbonates of the continental shelf of northeast Brazil have shown the existence of several levels rich in scolecodnts, even in areas in which other taxa are absent. A systematic analysis of the vertical distribution of these worm remains in relation to the Eocene/Oligocene stratigraphical subdivision based on pollen and spores, dinoflagellates, nannoplankton and foraminifera leads to the possibility of establishing a scolecodont zonation that can be traced into areas in which other microfossils are rarely preserved. This possibility, which may be a new stratigraphical tool in the exploration for petroleum in Brazil, is applied to the off-shore Maranhão basin.     

Muscle-like Arrays in a Fibroblast Line

SEVERAL investigators have speculated that the basis for all cellular contractile activity resides in a common molecular mechanism involving an interaction between actin and myosin^1–4. Thin filaments resembling the actin filaments of muscle have indeed been widely observed^3–5 and the recent demonstrations of heavy meromyosin binding to thin filaments^4–6 suggest that these ubiquitous filaments are, in fact, actin. Although muscle-like thick filaments have not been observed in non-muscle cells, myosin thick filaments have been reconstituted from blood platelet preparations¹. To our knowledge, however, no one has presented evidence for the natural occurrence of ordered arrays of thick and thin filaments in non-muscle cells.     

Pollen analysis of Iron Age cow dung in southern Africa

Thick accumulations of consolidated cow dung occur in ancientkraals (byres or corrals) in the bushveld and highveld areas of Zimbabwe, Botswana, and South Africa dating from the last 2000 years. They originated from long-term cattle herding by Iron Age people. The vitrified or baked dung deposits are thought to be a product of the burning of cow dung as fuel, either for domestic purposes or for iron smelting. In order to establish the palaeoecological potential of this material, 36 samples of cow dung from archaeological sites within the present-day savanna and grassland biomes were analyzed for pollen and other microfossils. Of the samples, 29 contained pollen together with other microfossils that support a faecal origin of the material such as sordariaceous ascospores,Thecaphora, Gelasinospora, andChaetomium, and eggs of the intestinal parasiteTrichuris. Similar microfossils were also found in recent fresh cow dung from the same study areas. The presence of pollen grains and spores in most of the Iron Age samples lead to the assumption that they survived the burning because fire temperatures were not high enough to destroy them. Pollen in these cow dung pieces is apparently sealed and can be preserved under open-air conditions at sites under which pollen in other deposits like soils, will decay away. Good pollen preservation and palynomorph diversity were found with mainly Poaceae, and secondly Chenopodiaceae and Cyperaceae as the most important pollen types, while trees and shrubs indicating savanna are rare. In the case of the samples that came from the subtropical savanna biome the latter result is unexpected and suggests that the cattle were kept in more open vegetation than the woody environments of today. Recent cow dung samples reflect the composition of present-day vegetation by showing considerably higher proportions of tree pollen than the fossil assemblages.     

现代珠江三角洲地区晚第四纪海侵的微体古生物记录

海平面波动历史对认识低海拔海岸带地区地质环境演化具有重要的参考意义。在年代测试的基础上,结合岩芯的沉积特征,通过对现代珠江三角洲地区QZK1和QZK4孔微体古生物化石的鉴定分析,发现有孔虫和介形类微体古生物化石均仅出现于两孔全新统的灰色粘土层中。微体化石分布特征显示:现代珠江三角洲地区全新世海侵从早全新世,或稍早的晚更新世开始,而QZK4孔620cm附近可能记录了全新世海平面的最高值,之后海平面开始下降至现代高度;前人报道的晚更新世海侵发生时间内,两孔中发育陆相地层,未发现海侵沉积。