A preliminary study on the characteristics of the tailing ofthe hammermill –sluice box operation at the kraboedoin and kriki negi hill District brokopondo- Suriname / Um estudo preliminar sobre as características do rejeito da operação do martelo-caixa de lâmina no kraboedoin e kriki negi hill Distrito brokopondo- Suriname

The small scale mining in Suriname is one of the most important livelihoods and biggest contributors to the economy of Suriname. However this sector needs to be evaluated continuously in order to introduce environmental friendly and more efficient methods. Another pre condition before introducing other environmental friendly and more efficient method is; knowing the compound of the ore.The Hammer mill – Sluice box method is one of the most used methods by the small scale miners. This technique uses a Hammer mill to grind the ore and a Sluice box to concentrate the gold.To study some charactistics of the tailing of the small scale gold miners at Kraboedoin and Kriki negi hills, the tailing samples were collected. The particle size distribution, the gold content and the heavy mineral percentage per fraction of these samples were determined and analyzed.The results of both sites showed that about 70% of the tailing had size between 0.250mm and 2.000mm, the average gold content in the tailing at Kraboedoin hill is 0.93ppm and at Kriki negi hillis 3.30ppm.

Magnetostratigraphic significance of Middle Cretaceous limestones exposed at La Boca and Santa Rosa Canyons, northeastern Mexico

Short reverse polarity intervals within the Cretaceous Normal Polarity Superchron which are recorded in the Aptian-Albian of southern Europe are tested in coeval rocks of two stratigraphic sections in northeastern Mexico. The thermally demagnetized northeastern Mexican rocks at both sections exhibit two post-folding, secondary magnetizations consisting of a recent normal polarity overprint and a magnetization acquired during an interval of reverse polarity. Samples from the Santa Rosa Canyon also exhibit a pre-folding magnetization with a direction that is consistent with the Early Cretaceous field direction at this locality, although the mean declination indicates significant clockwise rotation of $\sim$69\sp\circ. Based on foraminiferal zonation constraining the age of the rocks between Late Barremian and Early Albian, and assuming that the pre-folding remanence is primary, the lowermost and uppermost short reverse polarity intervals are interpreted as the MO\rm \sb{r}-chron and the ISEA, respectively and the two others short reverse polarity intervals are here considered to be unknown

DRADEM campaign - 2016 July - Scientific report

The DRADEM campaign was performed from July 9th to 21th 2016 on board the Pourquoi Pas?, in the Exclusive Economic Zones of Suriname and French Guyana. This campaign belongs to a program dedicated to geological investigations of the Demerara plateau, following the GUYAPLAC (2003) and IGUANES (2013) campaigns, and before the MARGATS campaign (2016). The aims of the DRADEM campaign were to map the continental slope of the transform margin north of the Demerara plateau, and to dredge the rocks outcropping in the slope.We completed the bathymetric mapping of the continental slope, including part of the edged of the Demerara plateau. These new bathymetric data confirm the segmentation of the transform margin in three parts with very different morphologies. In addition, two circular structures were interpreted as mud volcanoes, one on the northern edge of the plateau, the other one in the distal part of the Orinoco deep sea fan.Twelve dredges were performed between 4700 and 3500 m depths. Four from these twelve did not recovered rocks. The eight others brought back variables amounts of rocks, often encrusted, but of various natures: sediments (breccia, coarse sandstones, sandstones with plants debris, sandstones with shells, clayey ooze), micro-granular rocks and metamorphic rocks (including mylonite). The nature of the rocks was determined from macroscopic observation of the rocks, which are currently altered. Of course, these determinations need to be validated and specified by onshore further studies. Anyway, most of these rocks were previously unknown in this area, and they will strongly influence our understanding of the structure and evolution of this margin. They evidence huge vertical displacements that brought back to the surface some of these rocks that formed in a deep setting

DRADEM campaign - 2016 July - Scientific report

The DRADEM campaign was performed from July 9th to 21th 2016 on board the Pourquoi Pas?, in the Exclusive Economic Zones of Suriname and French Guyana. This campaign belongs to a program dedicated to geological investigations of the Demerara plateau, following the GUYAPLAC (2003) and IGUANES (2013) campaigns, and before the MARGATS campaign (2016). The aims of the DRADEM campaign were to map the continental slope of the transform margin north of the Demerara plateau, and to dredge the rocks outcropping in the slope.We completed the bathymetric mapping of the continental slope, including part of the edged of the Demerara plateau. These new bathymetric data confirm the segmentation of the transform margin in three parts with very different morphologies. In addition, two circular structures were interpreted as mud volcanoes, one on the northern edge of the plateau, the other one in the distal part of the Orinoco deep sea fan.Twelve dredges were performed between 4700 and 3500 m depths. Four from these twelve did not recovered rocks. The eight others brought back variables amounts of rocks, often encrusted, but of various natures: sediments (breccia, coarse sandstones, sandstones with plants debris, sandstones with shells, clayey ooze), micro-granular rocks and metamorphic rocks (including mylonite). The nature of the rocks was determined from macroscopic observation of the rocks, which are currently altered. Of course, these determinations need to be validated and specified by onshore further studies. Anyway, most of these rocks were previously unknown in this area, and they will strongly influence our understanding of the structure and evolution of this margin. They evidence huge vertical displacements that brought back to the surface some of these rocks that formed in a deep setting

DRADEM campaign - 2016 July - Scientific report

The DRADEM campaign was performed from July 9th to 21th 2016 on board the Pourquoi Pas?, in the Exclusive Economic Zones of Suriname and French Guyana. This campaign belongs to a program dedicated to geological investigations of the Demerara plateau, following the GUYAPLAC (2003) and IGUANES (2013) campaigns, and before the MARGATS campaign (2016). The aims of the DRADEM campaign were to map the continental slope of the transform margin north of the Demerara plateau, and to dredge the rocks outcropping in the slope.We completed the bathymetric mapping of the continental slope, including part of the edged of the Demerara plateau. These new bathymetric data confirm the segmentation of the transform margin in three parts with very different morphologies. In addition, two circular structures were interpreted as mud volcanoes, one on the northern edge of the plateau, the other one in the distal part of the Orinoco deep sea fan.Twelve dredges were performed between 4700 and 3500 m depths. Four from these twelve did not recovered rocks. The eight others brought back variables amounts of rocks, often encrusted, but of various natures: sediments (breccia, coarse sandstones, sandstones with plants debris, sandstones with shells, clayey ooze), micro-granular rocks and metamorphic rocks (including mylonite). The nature of the rocks was determined from macroscopic observation of the rocks, which are currently altered. Of course, these determinations need to be validated and specified by onshore further studies. Anyway, most of these rocks were previously unknown in this area, and they will strongly influence our understanding of the structure and evolution of this margin. They evidence huge vertical displacements that brought back to the surface some of these rocks that formed in a deep setting

Campagne DRADEM – Juillet 2016 - Rapport scientifique

La campagne DRADEM s’est déroulée du 9 au 21 Juillet 2016 à bord du Pourquoi Pas ?, dans les zones économique exclusives du Suriname et de la Guyane. Cette campagne s’inscrit dans un programme d’étude géologique du plateau de Demerara, dans la suite des campagnes GUYAPLAC (2003), IGUANES (2013), et avant MARGATS (2016). Les objectifs de la campagne DRADEM étaient de cartographier la pente continentale de la marge transformante bordant au Nord le Plateau de Demerara, et d’échantillonner par dragage les roches qui y affleurent.La bathymétrie de la totalité de la pente continentale et une partie de la bordure du plateau ont été cartographiées, confirmant la segmentation de cette marge en trois parties avec des caractéristiques morphologiques très différentes. Deux probables volcans de boue ont été identifiés, l’un sur la bordure nord du plateau, l’autre dans la partie distale du cône sous-marin de l’Orénoque.Douze dragages ont été réalisés entre 4700 et 3500 m de profondeur. Quatre dragues n’ont pas remonté d’échantillons. Les huit autres ont remonté des quantités variables de roches, très souvent encroûtées, mais à chaque fois de natures différentes : sédiments (brèche, grès grossiers, grès à plantes, grès coquillers, marne calcaire), roches grenues et métamorphiques (dont mylonites). Les déterminations lithologiques sont basées sur l’observation macroscopique de roches souvent altérées, et restent bien sûr à confirmer par les études à terre ; mais dans tous les cas ces roches pour la plupart inconnues dans ce secteur vont radicalement modifier notre compréhension de la structure et de l’évolution de cette marge. Elles mettent en évidence des mouvements verticaux importants qui ont ramené à l’affleurement des roches formées en profondeur

The Jurassic magmatism of the Demerara Plateau (offshore French Guiana) as a remnant of the Sierra Leone hotspot during the Atlantic rifting

We report the discovery of 173.4 Ma hotspot-related magmatic rocks in the basement of the Demerara Plateau, offshore French Guiana and Suriname. According to plate reconstructions, a single hotspot may be responsible for the magmatic formation of (1) both the Demerara Plateau (between 180 and 170 Ma) and the Guinea Plateau (circa 165 Ma) during the end of the Jurassic rifting of the Central Atlantic; (2) both Sierra Leone and Ceara Rises (mainly from 76 to 68 Ma) during the upper Cretaceous oceanic spreading of the Equatorial Atlantic ocean; (3) the Bathymetrists seamount chain since the upper Cretaceous. The present-day location of the inferred Sierra Leone hotspot should be 100 km west of the Knipovich Seamount

Thermochronology and U–Pb dating of detrital zircons from the Demerara Plateau (French Guiana‐Suriname ): Implications for the provenance of the Early Cretaceous syn‐rift sedimentation

International audienceThe provenance of Early Cretaceous sandstones dredged on the northern margin of the Demerara Plateau, offshore French Guiana and Suriname, reveals the sediment routing system that prevailed through the Equatorial Atlantic rifting. Fission-track analysis and U–Pb dating of 310 and 111 detrital zircons, respectively, have been performed. Microfacies analysis and inherited cooling ages suggest that the sandstones were deposited in shallow marine environments during the Early Cretaceous, before the Late Albian drowning of the marginal plateau. Most of the U–Pb zircon crystallisation ages are comprised of between 700 and 600 Ma and are attributed to the Pan-African-Brasiliano orogeny. Statistical and chronological evidence suggest that the zircon fission-track cooling ages were inherited from source materials. Triassic peak ages (>50% of the population) are attributed to the early phase of Central Atlantic rifting. One sample records a cooling phase at ca. 170 Ma, presumably following volcanic hotspot activity and the opening of the Central Atlantic Ocean. Two other samples record the rapid exhumation of the French Guiana transform margin during the Equatorial Atlantic rifting (127 ± 11 and 106 ± 8 Ma). We propose a source-to-sink model in which the Pan-African-Brasiliano basement of the margin was eroded as a result of flexural uplift along the French Guiana margin, and the detrital material funnelled in the Cacipore graben sustained the Early Cretaceous syn-rift sedimentation on the marginal plateau