919 resultados para 68-502C
Resumo:
Fil: Martin De Blassi, Fernando. Universidad Nacional de Cuyo
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Recent discoveries relating to the circulation of fluids within the oceanic crust include the finding of both important fluxes of elements and isotopes into the oceans by ridge-crest hydrothermal convection and important fluxes of heat out of the oceanic crust by convection at ridge crests and at some distance from ridge crests. In the present chapter, I present isotopic, chemical, and physical data from sediments and pore waters of Deep Sea Drilling Project (DSDP) Holes 503A and 503B. These results are modeled in terms of pore-water diffusion, advection, and production to ascertain the relative contribution of these processes at this location, 7.5 m.y. removed from ridge-crest hydrothermal activity. The observations made here contribute to the understanding of chemical and heat transport in oceanic crust of moderate age.
Resumo:
Fil: Cappannini, Andrés. Universidad Nacional de La Plata. Facultad de Humanidades y Ciencias de la Educación; Argentina.
Resumo:
Este artículo analiza los documentos que contienen información sobre las luchas universitaria resguardados en el Archivo Histórico de la Universidad Nacional Autónoma de México (AHUNAM). Este archivo es custodio de fondos universitarios y acervos provenientes de particulares, recibidos por donación, compra o legado, cuyo contenido se caracteriza por su pluralidad temática y por resultar claves para entender momentos históricos coyunturales en la historia de México, tales como la colección hemerográfica que guarda la memoria sobre la lucha por la autonomía de la universidad, la colección movimientos estudiantiles, entre los cuales destaca el movimiento de 1968 y el Paro Estudiantil 1999-2000. Específicamente este artículo se enfoca sobre los fondos y colecciones del movimiento estudiantil ocurrido en 1968, el cual comenzó con una serie de protestas nacionales que culminaron con la matanza de decenas de estudiantes y ciudadanos en la Plaza de las Tres Culturas, Tlalelolco; acontecimiento que sangró la vida universitaria y de la sociedad mexicana y de la cual el AHUNAM reúne documentación, hemerográfica, gráfica y fotografía que coadyuvan a la investigación y contribuyen a que no perdamos la memoria en la lucha por la democracia
Resumo:
Fil: Galán, Lía Margarita. Universidad Nacional de La Plata. Facultad de Humanidades y Ciencias de la Educación; Argentina.
Resumo:
Samples from the upper portion of a cyclic pelagic carbonate sediment sequence in Deep-Sea Drilling Project (DSDP) hole 503B (4.0°N, 95.6°W) are the first group to be analyzed for paleoceanographic and paleoclimatic proxy-indicators of ice volume, deep ocean and surface water circulation, and atmospheric circulation in order to resolve the complex origin of the cyclicity. Temporal resolution is taken from the delta18O time scale, most other parameters are calculated in terms of their mass flux to the seafloor. CaCO3 percent in the sediments fluctuates in the well-known Pacific pattern and is higher during glacial times. The fluxes of opal and organic carbon have patterns similar to each other and show a variability of a factor of 2.5 to 4. The longer organic carbon record shows flux maxima during both glacial and interglacial times. The accumulation patterns of both opal and organic carbon suggest that the variability in surface water productivity and/or seafloor preservation of those materials is not simply correlated to glacial or interglacial periods. Eolian dust fluxes are greater during interglacial periods by factors of 2 to 5, indicating that eolian source regions in central and northern South America were more arid during interglacial periods. The record of eolian grain size provides a semiquantitative estimation of the intensity of the transporting winds. The eolian data suggest more intense atmospheric circulation during interglacial periods, opposite to the anticipated results. We interpret this observation as recording the southerly shift of the intertropical convergence zone to the latitude of hole 503B during glaciations.