29 research outputs found

    Diferenciación geomorfológica de las arenas estabilizadas de la reserva biológica de Doñana, en base a la evolución edáfica

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    [Resumen] Se estudian tres perfiles de suelos que constituyen una cadena de evolución dentro del área de arenas estabilizadas de la Reserva Biológica de Doñana. Dichas arenas forman parte de un antiguo sistema dunar, aún fácilmente reconocible, donde se diferencian distintas unidades geomorfológicas relacionadas estrechamente con la evolución edafológica. En efecto, la profundidad de la capa freática condiciona el proceso de hidromorfía al mismo tiempo que el de acumulación de· materia orgánica a través de la mayor o menor cobertura vegetal.[Resumé] On étude trois profils de soIs constituant une caténa d'évolution dans l'aire de sables stabilisés de la Réserve Biologique de Doñana (Huelva). Les sables forment partie d'un ancien systeme dunaire qu'on reconnalt encore facilement. Dans ce systeme, on distingue diverses unités géomorphologiques étroitement rapportées a l'évolution pédologique. En effet, la profondeur de la nappe phréatique conditionne le processus de 1 'hydromorphie en meme temps que celui de l' .accumulation de matiere organique a travers l'épaiseur de la couverture végétal

    Seeking Signs of Life on Mars: A Strategy for Selecting and Analyzing Returned Samples from Hydrothermal Deposits

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    Highly promising locales for biosignature prospecting on Mars are ancient hydrothermal deposits, formed by the interaction of surface water with heat from volcanism or impacts. On Earth, they occur throughout the geological record (to at least approx. 3.5 Ga), preserving robust mineralogical, textural and compositional evidence of thermophilic microbial activity. Hydrothermal systems were likely present early in Mars' history, including at two of the three finalist candidate landing sites for M2020, Columbia Hills and NE Syrtis Major. Hydrothermal environments on Earth's surface are varied, constituting subaerial hot spring aprons, mounds and fumaroles; shallow to deep-sea hydrothermal vents (black and white smokers); and vent mounds and hot-spring discharges in lacustrine and fluvial settings. Biological information can be preserved by rapid, spring-sourced mineral precipitation, but also could be altered or destroyed by postdepositional events. Thus, field observations need to be followed by detailed laboratory analysis to verify potential biosignatures. See Attachmen

    Taphonomy of the fossil insects of the middle Eocene Kishenehn Formation

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    The lacustrine oil shales of the Coal Creek Member of the Kishenehn Formation in northwestern Montana comprise a relatively unstudied middle Eocene fossil insect locality. Herein, we detail the stratigraphic position of the fossiliferous unit, describe the insect fauna of the Coal Creek locality and document its bias towards very small but remarkably pre-served insects. In addition, the depositional environment is examined and the mineral constituents of the laminations that comprise the varves of the Kishenehn oil shale are defined. Fifteen orders of insects have been recorded with the majority of all insects identified as aquatic with the families Chironomidae (Diptera) and Corixidae (Hemiptera) dominant. The presence of small aquatic insects, many of which are immature, the intact nature of >90% of the fossil insects and the presence of Daphnia ephippia, all indicate that the depositional environment was the shallow margin of a large freshwater lake. The fossil insects occur within fossilized microbial mat layers that comprise the bedding planes of the oil shale. Unlike the fossiliferous shales of the Florissant and Okanagan Highlands, the mats are not a product of diatomaceous algae nor are diatom frustules a component of the sediments or the varve structure. Instead, the varves are composed of very fine eolian siliciclastic silt grains overlaid with non-diatomaceous, possibly cyanobacteria-derived microbial mats which contain distinct traces of polyaromatic hydrocarbons. A distinct third layer composed of essentially pure calcite is present in the shale of some exposures and is presumably derived from the seasonal warming-induced precipitation of carbonate from the lake’s waters. The Coal Creek locality presents a unique opportunity to study both very small middle Eocene insects not often preserved as compression fossils in most Konservat-Lagerstätte and the processes that led to their preservation
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