Dataset of characteristic remanent magnetization and magnetic properties of early Pliocene sediments from IODP Site U1467 (Maldives platform)

This data article describes data of magnetic stratigraphy and anisotropy of isothermal remanent magnetization (AIRM) from "Magnetic properties of early Pliocene sediments from IODP Site U1467 (Maldives platform) reveal changes in the monsoon system" [1]. Acquisition of isothermal magnetization on pilot samples and anisotropy of isothermal remanent magnetization are reported as raw data; magnetostratigraphic data are reported as characteristic magnetization (ChRM).info:eu-repo/semantics/publishedVersio

Magnetic properties of early Pliocene sediments from IODP Site U1467 (Maldives platform) reveal changes in the monsoon system

We report a study of the magnetic stratigraphy and the anisotropy of isothermal remanent magnetization of Pliocene sediments from International Ocean Discovery Program (IODP) Site U1467 drilled in the Maldives platform (Indian Ocean) during Exp. 359. Magnetic stratigraphy gives a precise record of geomagnetic reversals of the early Pliocene from approximately 5.3 Ma to 3.1 Ma providing a detailed age model in an interval where the biostratigraphic record is scarce. We use the anisotropy of isothermal remanent magnetization (AIRM) to investigate the statistical orientation of fine magnetic particles and provide data on the strength and direction of bottom currents during the early Pliocene. The strength of bottom currents recorded by the AIRM, shows a prominent increase at the top of Chron C3n.1n (about 4.2 Ma), and the current direction (NE - SW) is consistent with that of modern instrumental measurements. Since bottom currents in the Maldives are driven by the monsoon, we speculate that the 4.2 Ma increase of bottom currents could mark the onset of the present-day setting, probably related to the coeval uplift phase of the Himalayan plateau

Carbonate delta drift: a new sediment drift type

Based on high-resolution reflection seismic and core data from IODP Expedition 359 we present a new channel-related drift type attached to a carbonate platform slope, which we termed delta drift. Like a river delta, it is comprised of several stacked lobes and connected to a point source. The delta drifts were deposited at the exit of two gateways that connect the Inner Sea of the Maldives carbonate platform with the open ocean. The channels served as conduits focusing and accelerating the water flow; Entrained material was deposited at their mouth where the flows relaxed. The lobe-shaped calcareous sediment drifts must have formed under persistent water through flow. Sediment supply was relatively high and continuous, resulting in an average sedimentation rate of 17 cm ka−1. The two delta drifts occupy 342 and 384 km2, respectively; with a depositional relief of approximately 500 m. They have a sigmoidal clinoform reflection pattern with a particular convex upward bending of the foresets. In the Maldives the drift onset marks the transition from a sea-level controlled to a progressively current dominated depositional regime. This major event occurred in the Serravallian about 13 Ma ago, leading to the partial drowning of the carbonate platform and the creation of shallow seaways. The initial bank-enclosed topography resembles an “empty bucket” geometry which is rapidly filled by the drift sediments that aggrade and prograde into the basin. Thereby the depositional environment of the delta drifts changes from deep water (>500) to shallow-water conditions at their topsets, indicated by the overall coarsening upward trend in grain size and the presence of shallow water large benthic foraminifers at their top

Correction to:A two million year record of low-latitude aridity linked to continental weathering from the Maldives (Progress in Earth and Planetary Science, (2018), 5, 1, (86), 10.1186/s40645-018-0238-x)

In the original version of this article (Kunkelova et al. 2018), published on 18 December 2018, there was 1 error in the author name of Dr. Yu

The abrupt onset of the modern South Asian Monsoon winds

The South Asian Monson (SAM) is one of the most intense climatic elements yet its initiation and variations are not well established. Dating the deposits of SAM wind-driven currents in IODP cores from the Maldives yields an age of 12. 9 Ma indicating an abrupt SAM onset, over a short period of 300 kyrs. This coincided with the Indian Ocean Oxygen Minimum Zone expansion as revealed by geochemical tracers and the onset of upwelling reflected by the sediment's content of particulate organic matter. A weaker 'proto-monsoon' existed between 12.9 and 25 Ma, as mirrored by the sedimentary signature of dust influx. Abrupt SAM initiation favors a strong influence of climate in addition to the tectonic control, and we propose that the post Miocene Climate Optimum cooling, together with increased continentalization and establishment of the bipolar ocean circulation, i.e. the beginning of the modern world, shifted the monsoon over a threshold towards the modern system

A two million year record of low-latitude aridity linked to continental weathering from the Maldives

Tem uma correção em http://hdl.handle.net/10400.1/12390Indian-Asian monsoon has oscillated between warm/wet interglacial periods and cool/dry glacial periods with periodicities closely linked to variations in Earth’s orbital parameters. However, processes that control wet versus dry, i.e. aridity cyclical periods on the orbital time-scale in the low latitudes of the Indian-Asian continent remain poorly understood because records over millions of years are scarce. The sedimentary record from International Ocean Discovery Program (IODP) Expedition 359 provides a well-preserved, high-resolution, continuous archive of lithogenic input from the Maldives reflecting on low-latitude aridity cycles. Variability within the lithogenic component of sedimentary deposits of the Maldives results from changes in monsoon-controlled sedimentary sources. Here, we present X-ray fluorescence (XRF) core-scanning results from IODP Site U1467 for the past two million years, allowing full investigation of orbital periodicities. We specifically use the Fe/K as a terrestrial climate proxy reflecting on wet versus dry conditions in the source areas of the Indian-Asian landmass, or from further afield. The Fe/K record shows orbitally forced cycles reflecting on changes in the relative importance of aeolian (stronger winter monsoon) during glacial periods versus fluvial supply (stronger summer monsoon) during interglacial periods. For our chronology, we tuned the Fe/K cycles to precessional insolation changes, linking Fe/K maxima/minima to insolation minima/maxima with zero phase lag. Wavelet and spectral analyses of the Fe/K record show increased dominance of the 100 kyr cycles after the Mid Pleistocene Transition (MPT) at 1.25 Ma in tandem with the global ice volume benthic δ18O data (LR04 record). In contrast to the LR04 record, the Fe/K profile resolves 100-kyr-like cycles around the 130 kyr frequency band in the interval from 1.25 to 2 million years. These 100-kyr-like cycles likely form by bundling of two or three obliquity cycles, indicating that low-latitude Indian-Asian climate variability reflects on increased tilt sensitivity to regional eccentricity insolation changes (pacing tilt cycles) prior to the MPT. The implication of appearance of the 100 kyr cycles in the LR04 and the Fe/K records since the MPT suggests strengthening of a climate link between the low and high latitudes during this period of climate transition.SFRH/BPD/96960/2013; PTDC/MAR-PRO/3396/2014info:eu-repo/semantics/publishedVersio

Geothermal characteristics of Buntsandstein sandstone reservoir of Alsace

Le Buntsandstein, localisé dans le graben du Rhin supérieur, apparait comme une cible intéressante pour la géothermie, associant une formation argilo-gréseuse à l’anomalie thermique régionale. Cette étude vise à caractériser les propriétés pétrophysiques de ces grès ainsi que la fracturation les affectant, dans le but de fournir un modèle conceptuel de la formation qui servira de guide pour son exploitation futur. Les faciès sédimentaires sont composés par cinq faciès pétrographiques (grès propres, grès à enrobage argileux, grès à matrice argileuse, grès silicifiés et grès à ciment carbonaté), qui se répartissent dans des proportions variables et contrôlent une partie des propriétés pétrophysiques mesurées à l’échelle matricielle. La comparaison des données pétrophysiques, des données macroscopiques issues d’une analyse de gradients de température, des données de modélisation et de la fracturation permet de construire un modèle de circulation dans le réservoir. Ces analyses mettent en avant le rôle de la zone endommagée des zones de faille pour le transfert de fluides à grande échelle, mais aussi celui de deux faciès sédimentaires : les grès déposés dans un environnement de Playa Lake et fluvio-éolien. L’analyse de différents affleurements montre que la fracturation évolue en fonction de la situation dans la pile sédimentaire et en fonction de la situation par rapport aux accidents tectoniques majeures.The Buntsandstein, located in the Upper Rhine Graben, appears to be an easy target forgeothermal exploitation, linking sandstone and clay with the regional thermal anomaly. This study aims at characterizing petrophysical characteristics of these sandstones as well as the fracturation affecting them, with the intention of providing a conceptual model of the formation which will act as guide for future exploitation. The sedimentary facies are composed by five petrographical facies (clean sandstones, sandstones with clayed coating, clay matrix sandstones, silicified sandstones and carbonated matrix sandstones) which split with variable proportions and control a part of petrophysical properties measured at matrix scale. The comparison between petrophysical data, macroscopic data from temperature gradient analysis, modelling data and fracturing, allows the building of a Buntsandstein Sandstones fluids circulation conceptual model. This analysis points the role of the damage zone of fault zones for fluids transfer at large scale, but also that of two sedimentary facies: marginal erg and Playa Lake. The analysis of different outcrops shows that the fracturation evolves according to the situation in the sedimentary pile and according to the situation in comparison with major tectonic accidents

Caractéristiques géothermiques du réservoir gréseux du Buntsandstein d'Alsace

The Buntsandstein, located in the Upper Rhine Graben, appears to be an easy target forgeothermal exploitation, linking sandstone and clay with the regional thermal anomaly. This study aims at characterizing petrophysical characteristics of these sandstones as well as the fracturation affecting them, with the intention of providing a conceptual model of the formation which will act as guide for future exploitation. The sedimentary facies are composed by five petrographical facies (clean sandstones, sandstones with clayed coating, clay matrix sandstones, silicified sandstones and carbonated matrix sandstones) which split with variable proportions and control a part of petrophysical properties measured at matrix scale. The comparison between petrophysical data, macroscopic data from temperature gradient analysis, modelling data and fracturing, allows the building of a Buntsandstein Sandstones fluids circulation conceptual model. This analysis points the role of the damage zone of fault zones for fluids transfer at large scale, but also that of two sedimentary facies: marginal erg and Playa Lake. The analysis of different outcrops shows that the fracturation evolves according to the situation in the sedimentary pile and according to the situation in comparison with major tectonic accidents.Le Buntsandstein, localisé dans le graben du Rhin supérieur, apparait comme une cible intéressante pour la géothermie, associant une formation argilo-gréseuse à l’anomalie thermique régionale. Cette étude vise à caractériser les propriétés pétrophysiques de ces grès ainsi que la fracturation les affectant, dans le but de fournir un modèle conceptuel de la formation qui servira de guide pour son exploitation futur. Les faciès sédimentaires sont composés par cinq faciès pétrographiques (grès propres, grès à enrobage argileux, grès à matrice argileuse, grès silicifiés et grès à ciment carbonaté), qui se répartissent dans des proportions variables et contrôlent une partie des propriétés pétrophysiques mesurées à l’échelle matricielle. La comparaison des données pétrophysiques, des données macroscopiques issues d’une analyse de gradients de température, des données de modélisation et de la fracturation permet de construire un modèle de circulation dans le réservoir. Ces analyses mettent en avant le rôle de la zone endommagée des zones de faille pour le transfert de fluides à grande échelle, mais aussi celui de deux faciès sédimentaires : les grès déposés dans un environnement de Playa Lake et fluvio-éolien. L’analyse de différents affleurements montre que la fracturation évolue en fonction de la situation dans la pile sédimentaire et en fonction de la situation par rapport aux accidents tectoniques majeures

Caractéristiques géothermiques du réservoir gréseux du Buntsandstein d'Alsace

Le Buntsandstein, localisé dans le graben du Rhin supérieur, apparait comme une cible intéressante pour la géothermie, associant une formation argilo-gréseuse à l anomalie thermique régionale. Cette étude vise à caractériser les propriétés pétrophysiques de ces grès ainsi que la fracturation les affectant, dans le but de fournir un modèle conceptuel de la formation qui servira de guide pour son exploitation futur. Les faciès sédimentaires sont composés par cinq faciès pétrographiques (grès propres, grès à enrobage argileux, grès à matrice argileuse, grès silicifiés et grès à ciment carbonaté), qui se répartissent dans des proportions variables et contrôlent une partie des propriétés pétrophysiques mesurées à l échelle matricielle. La comparaison des données pétrophysiques, des données macroscopiques issues d une analyse de gradients de température, des données de modélisation et de la fracturation permet de construire un modèle de circulation dans le réservoir. Ces analyses mettent en avant le rôle de la zone endommagée des zones de faille pour le transfert de fluides à grande échelle, mais aussi celui de deux faciès sédimentaires : les grès déposés dans un environnement de Playa Lake et fluvio-éolien. L analyse de différents affleurements montre que la fracturation évolue en fonction de la situation dans la pile sédimentaire et en fonction de la situation par rapport aux accidents tectoniques majeures.The Buntsandstein, located in the Upper Rhine Graben, appears to be an easy target forgeothermal exploitation, linking sandstone and clay with the regional thermal anomaly. This study aims at characterizing petrophysical characteristics of these sandstones as well as the fracturation affecting them, with the intention of providing a conceptual model of the formation which will act as guide for future exploitation. The sedimentary facies are composed by five petrographical facies (clean sandstones, sandstones with clayed coating, clay matrix sandstones, silicified sandstones and carbonated matrix sandstones) which split with variable proportions and control a part of petrophysical properties measured at matrix scale. The comparison between petrophysical data, macroscopic data from temperature gradient analysis, modelling data and fracturing, allows the building of a Buntsandstein Sandstones fluids circulation conceptual model. This analysis points the role of the damage zone of fault zones for fluids transfer at large scale, but also that of two sedimentary facies: marginal erg and Playa Lake. The analysis of different outcrops shows that the fracturation evolves according to the situation in the sedimentary pile and according to the situation in comparison with major tectonic accidents.STRASBOURG-Bib.electronique 063 (674829902) / SudocSudocFranceF

Towards a better knowledge of the clastic Lower Triassic reservoirs in the Upper Rhine Graben (France)

International audienceMethodology for estimation of the geothermal potential in a limited area. This method is applied to the Upper Rhine Graben, for the resource located in clastic formation of the lower Triassic unit, namely the Buntsandstein. The methodology is based on Muffler & Cataldi works (1978) and the computation of the heat in place and exploitable heat. A 30km x 35km area located between Strasbourg and Obernai in France has been investigated. Based on a detailed geological study combining data derived from 13 previous oil boreholes and 143km length of seismic profiles, the main sedimentary interfaces including geological layers and faults have been interpreted between the outcropping Quaternary layers and the deeper parts made of Permo-Triassic formations. From that interpretation, 3D geological models have been yielded based on different hypotheses. These models, constructed with the GeoModeller software developed by BRGM, allow calculating the volume of modelled silicoclastic formations. According to the modelling results, different reservoir volumes have been computed which impacts the estimation of the overall geothermal potential. Temperature conditions derived from BHT (Bottom Hole Temperature) data in boreholes reaching the Buntsandstein sandstones, show a high average geothermal gradient (between 50°C/km and 58°C/km), which tends to indicate a significant geothermal potential. In the investigated area, the volume of the Buntsandstein reservoir is about 300km3 and the exploitable heat quantity is around 350 GWth.year ± 5%. For the future, we start a characterization of the Buntsandstein formation in terms of petrophysics to better assess the quality of the geothermal resource and to define exploitation targe