Advanced applications of scanning electron microscopy in geology

Podeu consultar el llibre complet a: http://hdl.handle.net/2445/32166Nowadays Scanning Electron Microscopy (SEM) is a basic and fundamental tool in the study of geologic samples. The collision of a highlyaccelerated electron beam with the atoms of a solid sample results in the production of several radiation types than can be detected and analysed by specific detectors, providing information of the chemistry and crystallography of the studied material. From this point of view, the chamber of a SEM can be considered as a laboratory where different experiments can be carried out. The application of SEM to geology, especially in the fields of mineralogy and petrology has been summarised by Reed (1996).The aim of this paper is to show some recent applications in the characterization of geologic materials

Occurrence of a new sulphate mineral: Ca7Na3K(SO4)9 in the Emet borate deposits, western Anatolia (Turkey)

This paper is a preliminary report on the petrographic and geochemical characteristics of a new sulphate mineral associated with lacustrine glauberite layers. This mineral is present in two boreholes recently drilled in the Emet borate district (Mio-cene; western Anatolia , Turkey). The evaporitic succession in these boreholes is mainly formed of a glauber ite-probertiteal-ternation. We suggest the name"emetite", after the town of Emet, for the new sulphate mineral, although the fine crystal size hinders the appropriate chemical and crystallographic characterization required to propose it as a new mineral to the International Mineralogical Association.

Large gypsum nodules in the Paleogene and Neogene evaporites of Spain: distribution and palaeogeographic significance

Sabkha and deep burial set tings are the most com mon sites where diagenetic anhydrite forms. In a sabkha setting, displacive facies (iso lated nodules, bed ded nodules, enterolithic levels) of early diagenetic or primary anhydrite are generated (Shearman, 1966; Hardie, 1967). These anhydrite facies are commonly foundat the top of shoal ing cycles representing the evolution from subaqueous depositional conditions at the base (carbonates, lutites) to exposure conditions at the top where in ter stitially-grown gypsum/anhydrite de velops ( sabkha cy cles). In a deep burial setting, gypsum transforms to tally to anhydrite with in creas ing temperature and lithostatic pressure (Murray, 1964). Al though this mineral transformation usually preserves the depositional gypsum facies, a significant textural change is in volved in other cases, resulting in replacive anhydrite with a nodular-mosaic or"chicken-wire" fabric (Warren, 2006). In the two settings, how ever, the size of the individual anhydrite nodules is relatively small, rarely reaching some tens of centimetres across. More over, bedding is preserved or little disturbed, al though minor de formation is caused by the displacive sabkha nodules

Comportamiento geoquimico de las formaciones salinas bajo el efecto de la temperatura y la irradiacion

La generación de defectos cristalinos y la migración de las fases fluidas (salmueras y gases), son los efectos más relevantes de la irradiación y la temperatura sobre una formación salina, susceptible de albergar un almacenamiento de residuos radiactivos. Para determinar dichos efectos se ha puesto a punto la metodología necesaria y se ha verificado sobre muestras salinas de la mina de Sallent (Barcelona). El contenido en agua oscila entre 0,04 y 1 %. Sin embargo, la cantidad de salmuera susceptible de migrar será inferior a la total, debido a que parte de esta se encuentra en inclusiones fluidas inferiores a 100 mm. La composición química de la salmuera, factor clave para el estudio de corrosión de contenedores, es de carácter magnésico (1,15 moles/litro) y potásico (0,31 moles/litro) en el caso de las inclusiones. El análisis de los gases presentes indica la ausencia de gases tóxicos y concentraciones muy bajas de hidrógeno y metano. Finalmente, se ha observado que la generación de defectos por irradiación, está en relación directa con la presencia de impurezas en la roca, siendo concordantes los resultados experimentales con las predicciones del modelo de JainLidiard

Large gypsum nodules in the Paleogene and Neogene evaporites of Spain: distribution and palaeogeographic significance

Sabkha and deep burial set tings are the most com mon sites where diagenetic anhydrite forms. In a sabkha setting, displacive facies (iso lated nodules, bed ded nodules, enterolithic levels) of early diagenetic or primary anhydrite are generated (Shearman, 1966; Hardie, 1967). These anhydrite facies are commonly foundat the top of shoal ing cycles representing the evolution from subaqueous depositional conditions at the base (carbonates, lutites) to exposure conditions at the top where in ter stitially-grown gypsum/anhydrite de velops ( sabkha cy cles). In a deep burial setting, gypsum transforms to tally to anhydrite with in creas ing temperature and lithostatic pressure (Murray, 1964). Al though this mineral transformation usually preserves the depositional gypsum facies, a significant textural change is in volved in other cases, resulting in replacive anhydrite with a nodular-mosaic or"chicken-wire" fabric (Warren, 2006). In the two settings, how ever, the size of the individual anhydrite nodules is relatively small, rarely reaching some tens of centimetres across. More over, bedding is preserved or little disturbed, al though minor de formation is caused by the displacive sabkha nodules

Occurrence of a new sulphate mineral: Ca7Na3K(SO4)9 in the Emet borate deposits, western Anatolia (Turkey)

This paper is a preliminary report on the petrographic and geochemical characteristics of a new sulphate mineral associated with lacustrine glauberite layers. This mineral is present in two boreholes recently drilled in the Emet borate district (Mio-cene; western Anatolia , Turkey). The evaporitic succession in these boreholes is mainly formed of a glauber ite-probertiteal-ternation. We suggest the name"emetite", after the town of Emet, for the new sulphate mineral, although the fine crystal size hinders the appropriate chemical and crystallographic characterization required to propose it as a new mineral to the International Mineralogical Association.

Comportamiento geoquimico de las formaciones salinas bajo el efecto de la temperatura y la irradiacion

La generación de defectos cristalinos y la migración de las fases fluidas (salmueras y gases), son los efectos más relevantes de la irradiación y la temperatura sobre una formación salina, susceptible de albergar un almacenamiento de residuos radiactivos. Para determinar dichos efectos se ha puesto a punto la metodología necesaria y se ha verificado sobre muestras salinas de la mina de Sallent (Barcelona). El contenido en agua oscila entre 0,04 y 1 %. Sin embargo, la cantidad de salmuera susceptible de migrar será inferior a la total, debido a que parte de esta se encuentra en inclusiones fluidas inferiores a 100 mm. La composición química de la salmuera, factor clave para el estudio de corrosión de contenedores, es de carácter magnésico (1,15 moles/litro) y potásico (0,31 moles/litro) en el caso de las inclusiones. El análisis de los gases presentes indica la ausencia de gases tóxicos y concentraciones muy bajas de hidrógeno y metano. Finalmente, se ha observado que la generación de defectos por irradiación, está en relación directa con la presencia de impurezas en la roca, siendo concordantes los resultados experimentales con las predicciones del modelo de JainLidiard