Studies on settling, traction and entrainment of larger benthic foraminiferal tests: implications for accumulation in shallow marine sediments   总被引：1，自引：0，他引：1  

ELZA K. YORDANOVA  JOHANN HOHENEGGER 《Sedimentology》2007,54(6):1273-1306

Settling and traction velocities were measured on optimally preserved tests of larger foraminifera using a settling tube and flume tank. Within larger foraminifera with porcelaneous tests, the peneroplids, Peneroplis antillarum, P. planatus, P. pertusus and Dendritina cf. D. zhengae, are distinguished by low test densities (ca 1·2) that do not change with growth. Buoyancy is high because of low Reynolds numbers and increases in large individuals because of the allometric change of test shape. The fusiform Alveolinella quoyi, with test densities ca 1·6, is characterized by high Reynolds numbers, inducing the weakest buoyancy within porcelaneous larger foraminifera. The highest buoyancy was recorded for the three soritids, Parasorites orbitolitoides, Sorites orbiculus and Amphisorus hemprichii, because of their low test densities (ca 1·25) and the extremely flat, biconcave, plate‐like shape. Flat tests, however, reduce traction and entrainment from smooth surfaces. Within hyaline larger foraminiferat, the amphisteginids show thick‐lenticular (Amphistegina lobifera, A. radiata) to thin‐lenticular tests (A. bicirculata, A. papillosa), influencing buoyancy. Here, high test densities (ca 1·8) decrease with growth in A. lobifera, A. lessonii and A. bicirculata, and remain constant in A. radiata and A. papillosa. Minimum velocities required for entrainment are lower for thick‐lenticular tests and higher for thin‐lenticular tests. Test densities remain constant with growth in the calcarinid Baculogypsina sphaerulata (ρ ∼ 1·78) and decrease slightly in Calcarina gaudichaudii and Neorotalia calcar (starting at ρ ∼ 1·85), all living under extreme hydrodynamic conditions. Density decreases the most in Baculogypsinoides spinosus (starting at ρ ∼ 1·8), resulting in higher buoyancy through low Reynolds numbers. Traction is promoted in spherical tests of Baculogypsina and Baculogypsinoides. Within nummulitids, the thick‐lenticular Palaeonummulites venosus (test density decreasing with size; starting at 1·78) is less buoyant, expressed in high Reynolds numbers, but easily entrained. Thick‐lenticular juveniles and extremely flat adults distinguish Operculinella cumingii, Heterostegina depressa and the giant Cycloclypeus carpenteri. Test densities increase during growth, starting from ca 1·6 and attaining a maximum of 1·8. Buoyancy is low in small tests and high in large tests, while entrainment velocities are reduced as the tests flatten. High buoyancy is also a characteristic of the entirely flat tests in Operculina ammonoides (from deeper regions) and Planostegina operculinoides, which is expressed in the lowest Reynolds numbers within larger foraminifera.  相似文献   

A coupled method for initializing El Niño Southern Oscillation forecasts using sea surface temperature     

NOEL KEENLYSIDE  MOJIB LATIF  MICHAEL BOTZET  JOHANN JUNGCLAUS  UWE SCHULZWEIDA 《地球，A辑:动力气象学与海洋学》2005,57(3):340-356

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Glacial bedforms at the base of the Permo-Carboniferous Dwyka Formation along the western margin of the Karoo Basin, South Africa   总被引：1，自引：0，他引：1  

JOHANN. J. VISSER 《Sedimentology》1990,37(2):231-245

Well to poorly preserved sandstone surfaces with glacial grooves, longitudinal ridges, bulbous bedforms and large lodged clasts occur sporadically at the base of the Dwyka Formation along the western margin of the Karoo Basin. The bedforms developed when ice overrode a thin (0·1–2·0m thick) subaqueous icemarginal apron formed primarily during periods of ice front retreat. Bergstone mud and rain-out diamicton blanketed the glacial bedforms. The subglacial bedforms formed by (i) the lateral movement of water-saturated sediment into low-pressure zones, caused by crevasses and cavities at the base of the ice; (ii) the presence of areas of higher strength substrate, due to variations in bed lithology and porewater dissipation; and (iii) sediment flowage into low-pressure zones on the leeside of obstacles formed in areas of higher strength substrate due to dissipation of pore-water pressures and sediment compaction. The preservation of the bedforms, with their delicate slump fans, is attributed to separation of the glacier sole from the substrate during a sudden rise in sea-level. A series of dynamic ice-marginal events, including feedback relationships between sea-level oscillations, isostatic responses, ice-margin fluctuations, ice-margin type and the type of substrate, controlled the deposition of the basal sedimentary sequence and the formation of the associated glacial bedforms. The presence of a complex combination of glacier-related formative and depositional processes may have consequences for past interpretations of basal ‘tillites’.  相似文献   

Simulation of the transport of Rn²²² using on-line and off-line global models at different horizontal resolutions: a detailed comparison with measurements,     

FRANK DENTENER  JOHANN FEICHTER  AD JEUKEN 《Tellus. Series B, Chemical and physical meteorology》1999,51(3):573-602

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Transport of SF₆ and ¹⁴CO₂ in the atmospheric general circulation model ECHAM4     

ERIK KJELLSTRÖM  JOHANN FEICHTER  GEORG HOFFMAN 《Tellus. Series B, Chemical and physical meteorology》2000,52(1):1-18

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