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61.
Michael K. Weisberg Caroline Smith Gretchen Benedix Christopher D. K. Herd Kevin Righter Henning Haack Akira Yamaguchi Hasnaa Chennaoui Aoudjehane Jeffrey N. Grossman 《Meteoritics & planetary science》2009,44(9):1355-1397
Abstract— The Meteoritical Bulletin No. 96 contains a total of 1590 newly approved meteorite names with their relevant data. These include 12 from specific locations within Africa, 76 from northwest Africa, 9 from the Americas, 13 from Asia, 1 from Australia, 2 from Europe, 950 from Antarctica recovered by the Chinese Antarctic Research Expedition (CHINARE), and 527 from the American Antarctic program (ANSMET). Among these meteorites are 4 falls, Almahata Sitta (Sudan), Sulagiri (India), Ash Creek (United States), and Maribo (Denmark). Almahata Sitta is an anomalous ureilite and is debris from asteroid 2008 TC3 and Maribo is a CM2 chondrite. Other highlights include a lunar meteorite, a CM1 chondrite, and an anomalous IVA iron. 相似文献
62.
Simulations of subtropical marine low clouds and their radiative properties by nine coupled ocean-atmosphere climate models
participating in the fourth assesment report (AR4) of the intergovernmental panel on climate change (IPCC) are analyzed. Satellite
observations of cloudiness and radiative fluxes at the top of the atmosphere (TOA) are utilized for comparison. The analysis
is confined to the marine subtropics in an attempt to isolate low cloudiness from tropical convective systems. All analyzed
models have a negative bias in the low cloud fraction (model mean bias of −15%). On the other hand, the models show an excess
of cloud radiative cooling in the region (model mean excess of 13 W m−2). The latter bias is shown to mainly originate from too much shortwave reflection by the models clouds rather than biases
in the clear-sky fluxes. These results confirm earlier studies, thus no major progress in simulating the marine subtropical
clouds is noted. As a consequence of the combination of these two biases, this study suggests that all investigated models
are likely to overestimate the radiative response to changes in low level subtropical cloudiness. 相似文献
63.
In a set of 16 drop tower experiments the motion of sub-millimeter to millimeter-sized particles under microgravity was observed. Illumination by a halogen lamp induced acceleration of the particles due to photophoresis. Photophoresis on dust-free chondrules, on chondrules, glass spheres and metal spheres covered with SiC dust and on pure SiC dust aggregates was studied. This is the first time that photophoretic motion of millimeter-sized particles has been studied experimentally. The absolute values for the photophoretic force are consistent with theoretical expectations for spherical particles. The strength of the photophoretic force varies for chondrules, dust covered particles and pure dust from low to strong, respectively. The measurements support the idea that photophoresis in the early Solar System can be efficient to transport solid particles outward. 相似文献
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Michael K. WEISBERG Caroline SMITH Gretchen BENEDIX Christopher D. K. HERD Kevin RIGHTER Henning HAACK Akira YAMAGUCHI Hasnaa CHENNAOUI AOUDJEHANE Jeffrey N. GROSSMAN 《Meteoritics & planetary science》2010,45(3):449-493
Abstract– In this edition of The Meteoritical Bulletin, a total of 506 newly approved meteorite names with their relevant data are reported. These include 354 from northwest Africa, 31 from the Americas, 15 from Antarctica (Koreamet), 85 from Asia, 20 from Australia, and 1 from Europe. Among these meteorites are 2 falls, Grimsby (Canada) and Santa Lucia (2008) (Argentina). Also described are a CM with low degree of alteration, new ungrouped chondrites and achondrites, and 4 Martian meteorites. 相似文献
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Henning Dypvik Jueri Plado Claus Heinberg Eckart Hakansson Lauri J. Pesonen Birger Schmitz Selen Raiskila 《《幕》》2008,31(1):107-114
Impact cratering is one of the fundamental processes in the formation of the Earth and our planetary system, as reflected, for example in the surfaces of Mars and the Moon. The Earth has been covered by a comparable number of impact scars, but due to active geological processes, weathering, sea floor spreading etc, the number of preserved and recognized impact craters on the Earth are limited. The study of impact structures is consequently of great importance in our understanding of the formation of the Earth and the planets, and one way we directly, on the Earth, can study planetary geology.
The Nordic-Baltic area have about thirty confirmed impact structures which makes it one of the most densely crater-populated terrains on Earth. The high density of identified craters is due to the level of research activity, coupled with a deterministic view of what we look for. In spite of these results, many Nordic structures are poorly understood due to the lack of 3D-geophysical interpretations, isotopeor other dating efforts and better knowledge of the amount of erosion and subsequent tectonic modifications.
The Nordic and Baltic impact community is closely collaborating in several impact-related projects and the many researchers (about forty) and PhD students (some seventeen) promise that this level will continue for many more years. The main topics of research include geological, geophysical and geochemical studies in combination with modeling and impact experiments. Moreover, the Nordic and Baltic crust contains some hundred suspect structures which call for detailed analysis to define their origin.
New advanced methods of analyzing geophysical information in combination with detailed geochemical analyses and numerical modeling will be the future basic occupation of the impact scientists of the region. The unique Cretaceous/Tertiary boundary (K-T) occurrences in Denmark form an important source of information in explaining one of the major mass extinctions on Earth. 相似文献
The Nordic-Baltic area have about thirty confirmed impact structures which makes it one of the most densely crater-populated terrains on Earth. The high density of identified craters is due to the level of research activity, coupled with a deterministic view of what we look for. In spite of these results, many Nordic structures are poorly understood due to the lack of 3D-geophysical interpretations, isotopeor other dating efforts and better knowledge of the amount of erosion and subsequent tectonic modifications.
The Nordic and Baltic impact community is closely collaborating in several impact-related projects and the many researchers (about forty) and PhD students (some seventeen) promise that this level will continue for many more years. The main topics of research include geological, geophysical and geochemical studies in combination with modeling and impact experiments. Moreover, the Nordic and Baltic crust contains some hundred suspect structures which call for detailed analysis to define their origin.
New advanced methods of analyzing geophysical information in combination with detailed geochemical analyses and numerical modeling will be the future basic occupation of the impact scientists of the region. The unique Cretaceous/Tertiary boundary (K-T) occurrences in Denmark form an important source of information in explaining one of the major mass extinctions on Earth. 相似文献
68.
Prof. Dr. Henning Illies 《International Journal of Earth Sciences》1967,57(1):81-101
Zusammenfassung Die Struktur des südlichen Chile zwischen 37° und 42° S wird beschrieben. Die Anden gingen teils aus einer jurassisch-unterkretazischen Eugeosynklinale, teils aus magmatischer Regeneration gondwanischer Relikte hervor. Es überwiegt E-vergenter Falten- und Schuppenbau. In den Längstalbecken begann die Senkung im Eozän auf vorwiegend präkambrischem Sockel. Die Küstenkordillere besteht großenteils aus präkambrischen Para-Serien, welche seit der Oberkreide in die randpazifische Tektonik einbezogen wurden. Im Schelfgürtel herrscht seit der Oberkreide Sedimentation auf instabilem, antithetisch brechendem Sockel. Die Andesit-Förderung erfolgte längs geradliniger Fronten, welche sich mehrfach verlagerten. Beim Erdbeben von 1960 wurde der Krustenblock zwischen Kontinentalrand und Anden als Ganzes westwärts bewegt und gekippt. Ein Krustenmodell wird entworfen und dessen Entwicklung unter dem Aspekt der Kontinentaldrift Südamerikas diskutiert.
The structure of Southern Chile between 37° and 42° S is described. The Andean cordillera is the result partly of a Jurassic-lower cretaceous eugeosyncline and partly of magmatic regeneration of gondwanian residues. Eastoverturned fold and imbricate structure predominates. In the basins within the longitudinal valley subsidence started in the Eocene mainly on a precambrian basement. The coast range consists mostly of precambrian para-series, which were included in the marginal pacific tectonics since the Upper Cretaceous. In the shelf region sedimentation takes place since the Upper Cretaceous on an unstable, antithetic breaking basement. Andesites erupted along straight fronts, which changed position several times. During the earthquake in 1960 the crustblock between the continental margin and the main cordillera moved westwards and tilted as a whole. A crust-model is traced out; its development is discussed under the aspect of the continental drift of South America.
Résumé Ce traité comprend la structure du Chili méridional entre 37° et 42° S. La cordillère des Andes résulte d'une part d'un eugéosynclinal jurassique-crétassique inférieur, d'autre part d'une régénération magmatique des restes gondwaniens. Dans cette cordillère une structure plissée et écailleuse prédomine qui est déversée vers l'Est. Dans les bassins de la vallée longitudinale le sous-sol dont le socle était surtout précambrien, avait commencé à se tasser pendant l'époque de l'Eocène. La cordillère côtière se compose en grande partie de para-séries précambriennes, qui furent comprises dans la tectonique pacifique marginale depuis le Crétacé supérieur. Dans la région de la plate-forme continentale il y a une sédimentation depuis le Crétacé supérieur; le socle y était instable et se cassait antithétiquement. Les points d'éruptions des andésites s'alignaient; ces fronts tout droits changeaient de places plusieurs fois. Pendant le tremblement de terre en 1960 tout le bloc crustal qui se trouvait entre le talus continental et la cordillère des Andes fut mis en mouvement vers l'Ouest et basculé entièrement. Un modèle de l'écorce est tracé dont le développement est discuté sous l'aspect de la translation continentale de l'Amérique du Sud.
, 37 42° . , . , , . . - . . . .相似文献
69.
70.