Your search keyword '"Basın"' showing total 202 results

1. Meteorological characteristics and evapotranspiration dynamics of the Kafernigan river (Tajikistan) – a tributary of the Transboundary Amudarya River for the period 1946–2021

Author

Saburova, Gurdofarid N. and Normatov, Inom Sh.

Subjects

kafernigan, varzob, precipitation, temperature, evapotranspiration, basin, Geology, QE1-996.5, Geography (General), G1-922

Abstract

The research results of the meteorological characteristics and evapotranspiration dynamics in the middle reaches of the Varzob river, a tributary of the Kafernigan river, for the period 1946–2021 are presented. It has been established that temperature is a more active factor in the processes of evapotranspiration. A slight trend of decreasing precipitation at altitudes up to 400 m a. s. l in the southern parts of the Varzob river basin is associated mainly with local meteorological phenomena and is in no way related to the processes of penetration of external air masses into the river basin, since the correlation coefficient of atmospheric precipitation values in the upstream (Maykhura weather station) and in the downstream of the Varzob river basin (Ayvaj weather station) is very little (0.1).

Published

2024

2. Microfossils from Middle Triassic beds near Mišji Dol, central Slovenia

Author

Katja Oselj, Tea Kolar-Jurkovšek, Bogdan Jurkovšek, and Luka Gale

Subjects

dinarides, sava folds, middle triassic, upper anisian, lower ladinian, basin, volcaniclastics, conodonts, foraminifera, Geology, QE1-996.5

Abstract

Middle Triassic beds exposed along the road between Mišji Dol and Poljane pri Primskovem (Posavje Hills) comprise marlstone, tuff, volcaniclastic sandstone, and thin- to medium-bedded limestone and dolostone. The succession was logged and sampled for conodonts. A relatively rich conodont assemblage was determined, consisting of Budurovignathus gabrielae Kozur, Budurovignathus sp., Cratognathodus kochi (Huckriede), Gladigondolella malayensis Nogami, Gladigondolella tethydis Huckriede, Gladigondolella sp., Neogondolella balkanica Budurov & Stefanov, Neogondolella cf. excentrica Budurov & Stefanov, Neogondolella constricta (Mosher & Clark), Neogondolella cornuta Budurov & Stefanov, Neogondolella sp., Paragondolella excelsa Mosher, Paragondolella liebermani (Kovacs & Kozur), Paragondolella trammeri (Kozur), Paragondolella cf. alpina (Kozur & Mostler), and Paragondolella sp. The assemblage correlates with the upper Anisian and lowermost Ladinian assemblages from the Global Boundary Stratotype Section and Point (GSSP) of the Ladinian at Bagolino in the Southern Alps in northern Italy. Along with conodonts, numerous specimens of benthic foraminifera Nodobacularia? vujisici Urošević & Gaździcki were recovered from the lowermost part of the succession. Previous research on this taxon is critically evaluated.

Published

2023

3. Imaging crustal features and Moho depths through enhancements and inversion of gravity data from the Philippine island arc system

Author

Mel Anthony A. Casulla, Hideki Mizunaga, Toshiaki Tanaka, and Carla B. Dimalanta

Subjects

World Gravity Map (WGM), Philippines, Two-dimensional (2-D) radially averaged power spectrum, Three-dimensional (3-D) gravity inversion, Basement and Moho depths, Basin, Geography. Anthropology. Recreation, Geology, QE1-996.5

Abstract

Abstract The Philippine archipelago is a complex island arc system, where many regions still lack geopotential field studies. The high-resolution isostatic anomaly and free-air anomaly digital grids from the World Gravity Map (WGM) were processed and analyzed to present a general discussion of the Philippines’ gravity signatures and contribute to understanding its regional geology and tectonics. The isostatic anomaly map was continued upward to investigate the high-density ophiolitic basement rocks and low-gravity sedimentary basins at depth. The first vertical derivative (1VD) filter was applied to the free-air anomaly grid map to locate regional structures represented by density contrast boundaries. The depth to the top of the Moho and basement rock over the Sulu Sea was computed using the two-dimensional (2-D) radially averaged power spectrum analysis. Three-dimensional (3-D) gravity inversion was applied to some major sedimentary basins in the Philippines to present 3-D subsurface density contrast models. The interpreted gravity maps highlighted prominent geologic features (e.g., trench manifestation, ophiolite distribution, basin thickness). The negative isostatic anomalies ( 80 mGal) typify the ophiolitic basement rocks. The gravity data’s upward continuation revealed contrasting deep gravity signatures; the central Philippines with continental affinity (with 20–35 mGal) was distinguished from the regions with oceanic affinity (with 45–200 mGal). The 1VD map over the Sulu Sea showed anomalies associated with shallow features dominantly related to the Cagayan Ridge. The 2-D radially averaged power spectrum analysis exposed gravity anomalies with tectonic significance (e.g., basement characterization, Moho depth estimation). The estimated average Moho depth in the Sulu Sea is from 12 to 22 km, while the average basement depth is within the range of 5 to 11 km. Lastly, the 3-D subsurface density contrast models characterized the very low-density zones representing the deep (> 7 km) sedimentary basins in the northern Cagayan Valley and southern Central Luzon basins. Furthermore, thin (~ 3.5 km) sedimentary formations are inferred for the low-density areas in northern Agusan-Davao and eastern Cotabato basins.

Published

2022

4. Advances in dynamics of groundwater circulation patterns

Author

Li Wan, Xusheng Wang, and Xiaowei Jiang

Subjects

hydrological cycle, groundwater flow system, groundwater divide, water table, basin, Geology, QE1-996.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

As an essential part of hydrological cycle, groundwater circulation is a process including groundwater recharge, flow and discharge, which has been the primary research topic in hydrogeology.The spatial patterns of groundwater circulation are composed of different structure elements.There are two partitioning methods: the media structure determined from aquifer properties and the dynamic patterns determined according to the seepage field.A groundwater flow system (GFS) roles as a groundwater circulation cell within the concept of the dynamic patterns.In the last decade, significant advances have been achieved in the theory of GFSs, revealing groundwater circulation patterns in more comprehensive and deep ways.Studies on GFSs between parallel streams discovered that the top of water table is not the accurate position of groundwater divide.At the basin scale, the integrated impacts of the vale landform, precipitation infiltration rate, depth dependent permeability and basin thickness on the undulating shape of water table and groundwater circulation patterns were systematically investigated, with preliminary discovery on the evolution characteristics of dynamic patterns in periodicity and tendencies.Partitioning methods for three dimensional groundwater circulation cells were developed, according to fine-grained identification of paths or statistic analysis on residence times along a huge number of streamlines.For the hydrogeological effect, it has been found that the groundwater circulation patterns significantly influence the distribution of groundwater age.As an indication of hydraulic connection between recharge and discharge zones, groundwater circulation patterns play a key role in the geochemical processes at the basin scale and eco-hydrological processes at the catchment scale, which should be studied with more attentions on the dynamic and evolution behaviors of the three-dimensional groundwater circulation.

Published

2022

5. 2021 Mw 6.7 Khankh earthquake in the Khuvsgul rift, Mongolia

Author

Davaasambuu Battogtokh, Amgalan Bayasgalan, Kang Wang, Davaasuren Ganzorig, and Jargalsaikhan Bayaraa

Subjects

basin, co-seismic, epicenter, fault and solutions, Geology, QE1-996.5

Abstract

A Mw 6.7 occurred at Lake Khuvsgul in northwestern Mongolia at 05:32:56 AM Ulaanbaatar time on the 12th of January 2021. The epicenter of the event was offshore south of the Doloon Uul peninsula around 30 km SSW of Khankh village. Shaking was felt within most of central and western Mongolia, including the capital city Ulaanbaatar ~600 km from the epicenter. The earthquake appears to have ruptured the Khuvsgul fault along the western coast of Lake Khuvsgul. The earthquake is the largest in Mongolia since the Mw 6.3 Busiin Gol earthquake in 1991. Our research team from the Institute of Astronomy and Geophysics, Mongolian Academy of Sciences visited the epicenter area for 5 days soon after the earthquake and installed four broad-band seismic stations and searched the area for geological evidence of the earthquake. The location, azimuth, dip and depth of this earthquake defined by moment tensor solutions calculated by the international seismological centers and analysis of InSAR interferograms and field observations. The projected intersections of the east-dipping nodal planes with the surface for solutions of the international seismological centers and researchers correlate relatively well with the mapped strike and location of the old tectonic scarp of the Khuvsgul fault although we have not discovered any primary co-seismic surface rupture. The InSAR interferogram demonstrates the sharp discontinuity and fringes in the area between the Western Range and Doloon Uul peninsula which implies surface deformation. Aftershocks that have continued during the three months subsequent to the earthquake define overall strike of the mainshock rupture.

Published

2021

6. Improving the design and implementation of sediment fingerprinting studies: summary and outcomes of the TRACING 2021 Scientific School.

Author

Evrard, Olivier, Batista, Pedro V. G., Company, Jaume, Dabrin, Aymeric, Foucher, Anthony, Frankl, Amaury, García-Comendador, Julián, Huguet, Arnaud, Lake, Niels, Lizaga, Ivan, Martínez‑Carreras, Núria, Navratil, Oldrich, Pignol, Cécile, and Sellier, Virginie

Subjects

SCIENTIFIC knowledge, SEDIMENTS, SEDIMENT transport, LOCAL knowledge, GEOLOGY

Abstract

Purpose: Identifying best practices for sediment fingerprinting or tracing is important to allow the quantification of sediment contributions from catchment sources. Although sediment fingerprinting has been applied with reasonable success, the deployment of this method remains associated with many issues and limitations. Methods: Seminars and debates were organised during a 4-day Thematic School in October 2021 to come up with concrete suggestions to improve the design and implementation of tracing methods. Results: First, we suggest a better use of geomorphological information to improve study design. Researchers are invited to scrutinise all the knowledge available on the catchment of interest, and to obtain multiple lines of evidence regarding sediment source contributions. Second, we think that scientific knowledge could be improved with local knowledge and we propose a scale of participation describing different levels of involvement of locals in research. Third, we recommend the use of state-of-the-art sediment tracing protocols to conduct sampling, deal with particle size, and examine data before modelling and accounting for the hydro-meteorological context under investigation. Fourth, we promote best practices in modelling, including the importance of running multiple models, selecting appropriate tracers, and reporting on model errors and uncertainty. Fifth, we suggest best practices to share tracing data and samples, which will increase the visibility of the fingerprinting technique in geoscience. Sixth, we suggest that a better formulation of hypotheses could improve our knowledge about erosion and sediment transport processes in a more unified way. Conclusion: With the suggested improvements, sediment fingerprinting, which is interdisciplinary in nature, could play a major role to meet the current and future challenges associated with global change. [ABSTRACT FROM AUTHOR]

Published

2022

7. The Development of Non-Conventional Oil and Gas in Indonesia

Author

Wiwiek Jumiati, David Maurich, Andi Wibowo, and Indra Nurdiana

Subjects

shale, hydrocarbon, non-conventional, basin, formation, regulation, Geology, QE1-996.5

Abstract

Oil and gas fuel from unconventional types of reservoirs was the development of alternative sources in addition to oil and gas fuels from conventional type reservoirs that can be obtained to meet domestic needs. The development of unconventional oil and gas reservoirs has developed rapidly outside Indonesia, such as in North America and Canada. One type of unconventional oil and gas reservoir was obtained from shale rock reservoirs. Hydrocarbon shale produced from shale formations, both source from rock and reservoir. This unconventional hydrocarbon has a big potential to be utilized. In this study, an analysis of the development of unconventional oil and gas from Shale Hydrocarbons carried out in Indonesia. This research included the distribution of shale reservoir basins, the number of unconventional shale reservoir resources, factors affecting the development of unconventional oil and gas in shale reservoirs in Indonesia, efforts made by the government to promote exploration activities, exploitation of shale reservoirs in Indonesia, and existing regulations for non-conventional oil and gas. The development of unconventional oil and gas reservoir shale needed to be developed immediately and will attract investors to meet domestic needs for renewable energy needs. From the geological data obtained, there were 6 basins and 11 formations that analyzed for commercialization. Tanjung and Batu Kelau Formation was a prospect formation from 4 desired data categories. In terms of regulation, it still needed improvement to increase the interest of upstream oil and gas entrepreneurs in the unconventional oil and gas shale reservoir. Research in the field of unconventional oil and gas exploitation technology for hydrocarbon shale needed to be improved.

Published

2020

8. IDENTIFIKASI BAWAH PERMUKAAN LAPANGAN MINYAK'HUF' SUMATERA SELATAN UNTUK MENDELINIASI STRUKTUR CEKUNGAN HIDROKARBON BERDASARKAN DATA GAYABERAT

Author

Ade Setiawan and Bagus Sapto Mulyatno

Subjects

basin, gravity, hydrocarbon, 3d inverse modelling, svd, Geology, QE1-996.5

Abstract

Oil field research in regional Banyuasin “HUF” , South Sumatra have been done by the gravity data with objective of knowing fault structure based on analysis of hydrocarbon SVD and knows hollow structure based on the 3D model of the Bouguer Anomaly and Residual Anomaly. Study areas had Bouguer Anomaly between 13 mgal up to 33 mgal to the interval 1 mgal, where the value of Bouguer Anomaly high have a range value 26 mgal up to 33 mgal which is in the direction of west. While the low value of Bouguer Anomaly have a range value 13 mgal to 20 mgal that is in the east. To knew the existence of structure fault, filtering Second Vertical Derivative (SVD) on a Bouguer Anomaly, Regional and Residua mapl.Pattern of structure fault indicated the contours of a zero value and between the high and low contours. From the results of the analysis SVD Complete Bouguer Anomaly and SVD Residual Anomaly there were 4 (four) fault, while from SVD Regional Anomaly there are 3 (three) fault. 3D modeling the Residual Anomaly were conducted to prove the existence of the fault SVD analyzed based on the results of the analysis and to know the hydrocarbon basin. Based on the results of the inversion of 3D the Residual Anomaly, basin was found in the depth of 1500 m – 3000 m with a value of the density ranges from 2.24 gram/cc until 2.32 gram/cc which identified as sandstone basin.

Published

2020

9. INFLUENCE OF GEOLOGICAL EVOLUTION CONDITIONS ON THE OIL AND GAS STRUCTURES FORMATION IN BAKU ARCHIPELAGO

Author

M.I. Evdoschuk and K.Z. Mukhtarova

Subjects

basin, structure, opportunities, lithology, hydrocarbon, rock, depression, fault, suite, oilfield, Geology, QE1-996.5

Abstract

The research relevance is backed by the need to expand the resource potential of some oilfields in Baku Archipelago. The aim of the research is to determine structural evolution features of Aran Deniz, Dashly, Sabail structures, paleogeographic, pressure and temperature conditions and sedimentation rate in order to evaluate oil and gas prospects of the investigated area. Paleotectonic and paleogeographic reconstruction of the area under investigation were conducted using computer software and a tectonic model of the deposition zone was constructed based on paleogeographic data. Study of the geologic evolution history of the local structures Aran deniz, Dashli and Sabail showed that they have co sedimentation character, and paleogeographic conditions and sedimentation rates of the certain stratigraphic units contributed to organic matter accumulation in section rocks above the Clarke number; complication of local structures by mud volcanoes shows quite favorable pressure and temperature conditions for oil and gas generation in potential productive layers.

Published

2019

10. Cretaceous terrestrial deposits in China

Author

Ke Cao

Subjects

Cretaceous, Basin, Terrestrial deposits, Engineering (General). Civil engineering (General), TA1-2040, Geology, QE1-996.5

Abstract

ABSTRACT: As an important part of an epidermic system, terrestrial deposits can provide a good record of major geological events in the Cretaceous epidemic system. This article is a review of the geological background, paleogeography, paleoclimate, basin evolution and sedimentary characteristics in China through the Cretaceous period, in order to provide a comprehensive understanding for interested researchers. During the Berriasian-Hauterivian age, red-mainly fluvial and shallow lacustrine deposition developed under arid and semi-arid climates in westen China when eastern China had been occupied by the “East Plateau”. During the Barremian-Albian, age coal-bearing depositions occurred to the north of the Yanshan Mountain under the wet and warm climate. However, mainly red fluvial and shallow lacustrine depositions prevailed in most of the south to the Yanshan Mountain except basins where seawater could enter and caused mostly green depositions. During the Cenomanian-Santonian age, high land uplift took place in northwestern China. Mainly red deposition with developed alluvial plains occupied southwestern China and South China when the Songliao Basin was filled by black deep lacustrine mud shale caused by transgression. Mainly red deposition under an arid and semi-arid climate occupied all basins in China during the Campanian-Maastrichtian age.

Published

2018

11. Regional study is the next important stage in evaluation of oil and gas industry potential of sedimentary basins of Western Kazakhstan

Author

D.K. Azhgaliev, S.G. Karimov, and A.A. Isaev

Subjects

basin, depth, oil and gas content, drilling, seismic studies, study, Paleozoic deposits, West Kazakhstan, Caspian basin, Ustyurt-Bozashi, Mangyshlak, geophysical anomalies, West Turan plate, oil and gas prospects, Geology, QE1-996.5

Abstract

The article presents the general state of exploration and regional geotectonic characteristics of the structure of the basins of Western Kazakhstan (the Caspian Basin, Ustyurt-Bozashi and Mangyshlak). Principal results of regional studies carried out on the «Comprehensive study of sedimentary basins of the Republic of Kazakhstan» project for 2009-2013 are given. Based on this, topical issues in the study of the deep structure of basins are emphasized, from the perspective of further assessment of the forecasted hydrocarbon potential. In accordance with the new deep drilling data (5.5-7.0 km and more) in recent years, the importance and necessity of specifying the structure and high prospects of the Paleozoic deposits are substantiated. In this regard, it is stated that it is advisable to post a parametric well in the future with an anomalous projected depth (14-15 km) in the central part of the Caspian Basin (Eurasia Project). Also, the program of regional studies (geotraverses and 2D seismic profiles) on the most important geological «cuttings» from the sides of the Caspian basin to the center, the zones of its articulation with the other basins that apply in the south, was considered. The characteristic of the problems solved by the program of regional study of the basins of Western Kazakhstan is given.

Published

2018

12. Aspectos Geológicos e Hidrogeológicos del Parque Nacional El Palmar, Entre Ríos, Argentina.

Author

Busso Adrián, Silva and Machado, Patricio

Abstract

Copyright of Boletín Geológico y Minero is the property of Instituto Tecnologico Geominero De Espana and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

13. GEOCHEMICAL SIGNATURES OF WATER BODIES AND SOURCES IN THE QINGHAI LAKE AREA, CHINA.

Author

LIU, Y., WANG, J., REN, Z., and WANG, H.

Subjects

SULFATE minerals, LAKES, WEATHERING, GEOCHEMISTRY, ALKALINE earth metals, WATER sampling

Abstract

The chemical composition of dissolved constituents in aquatic ecosystems is of fundamental importance in regulating chemical and biological dynamics and processes. There are many factors that can determine and affect chemical composition of lakes and rivers. This paper presents fundamental geochemical information for the waters in Qinghai Lake area in China and assesses geochemical patterns, relationships between the elements, and potential mechanisms for these patterns. The concentrations of 30 elements from 16 water samples were measured. The results showed that Ca (8.1-88.9 mg/L), K (5.1-372.7 mg/L), Mg (6.3-1127.0 mg/L), Na (10.0-6459.0 mg/L), and S (4.8-2002.0 mg/L) were the dominant elements in all water samples but exhibited considerable variation among systems. The tributaries had high Ca, relatively low Na+K, and low salinity, indicating rock weathering as the dominant factor determining their geochemistry. The satellite lakes (except the two largest ones) showed low Ca, moderate Na+K and Mg, and low salinity, indicating the combined effects of many factors. Correlation analyses suggested that B, K, Li, Mg, and Na concentrations are determined by evaporation and crystallization and dissolution of sulfate minerals while Al and Fe concentrations are affected mostly by rock weathering. [ABSTRACT FROM AUTHOR]

Published

2019

14. Geology and Oil and Gas Bearing Potential of the East Canadian Continental Margin.

Author

Zabanbark, A. and Lobkovsky, L. I.

Subjects

*GAS-lubricated bearings, *CONTINENTAL margins, *PETROLEUM industry, *CONTINENTAL slopes, *SALT domes, *GEOLOGY

Abstract

Within the East Canadian continental margin, three oil and gas bearing regions have been identified from north to south: the Labrador Sea shelf, the margin of the Grand Banks of Newfoundland, and the Nova Scotia continental margin. In each of these regions, a number of sedimentary basins are distinguished and completely submerged. The following large sedimentary basins are distinguished on the Labrador Sea shelf: the Saglek, Hopdale, and Havke; on the margin of the Grand Banks of Newfoundland, the following basins are known: the Jeanne d'Arc, Flemish Pass, and Orphan. The Scotian Shelf distinguishes the Nova Scotia and Sable basins. It is noteworthy that at high latitudes, such as the Labrador Sea region, the age of productive sediments begins with more ancient rocks (since the Paleozoic) than in the basins to the low latitude (since the Mesozoic), due to which the stratigraphic range of oil and gas bearing in the high latitude basins is much wider. The oil and gas bearing potential in the entire region is mainly related to the continental slopes and turbidite deposits occurring within them. Late Jurassic and Early Cretaceous reservoirs will be the target sediments during deep drilling. Widespread Late Cretaceous and Early Tertiary formations with oil and gas potential are quite realistic, since they do not lie at deep horizons. The oil and gas bearing potential on the margins of basins is associated with Late Cretaceous and Tertiary sediments, alluvial fan deposits, and salt diapirs. [ABSTRACT FROM AUTHOR]

Published

2019

15. Geoelectrical And Hydrochemical Characterization of Submarine Groundwater Discharge in Florida Bay

Author

Eze, Ifeanyi Emmanuel

Subjects

Florida Bay, Electrical resistivity tomography, Submarine groundwater discharge, Salinity, Seagrass, Groundwater, Radon, Basin, Environmental Monitoring, Fresh Water Studies, Geochemistry, Geology, Hydrology

Abstract

Florida Bay, situated at the southern tip of Everglades National Park and underlain by the Miami Limestone formation, is an ecosystem of global significance. Over the past century, the bay has faced threats such as droughts, seagrass mortality, and hypersalinity. Despite various studies and management efforts, the dynamics of submarine groundwater discharge (SGD) in the region remain underexplored. Given that SGD plays a significant role in the chemical dynamics of coastal ecosystems, it warrants thorough investigation. This study aims to characterize the spatial and temporal patterns of SGD in Florida Bay by surveying three basins – Rankin, Whipray, and Rabbit Key – from 2021 to 2024, covering both wet and dry seasons. Using electrical resistivity tomography (ERT) with a dipole-dipole array, I mapped marine resistivity, revealing low bulk resistivity values (0.1 - 4.0 Ωm) across the study area. Elevated resistivity anomalies upwelling from the limestone units were interpreted as possible SGD zones, prompting in-situ radon-222 and salinity measurements for validation. The hypersaline nature of groundwater, with concentrations up to 45 ppt in Rankin Basin, indicates the SGD is recirculated seawater. The identification of pockets of saline SGD and no fresh SGD underscored the difficulty in using ERT method in areas of minimal salinity variations and low resistivity ranges with respect to groundwater. I postulate that the geophysical anomalies primarily stem from subsurface petrophysical properties rather than groundwater chemistry. This study enriches our understanding of Florida Bay's hydrology and informs future scientific research and management efforts.

Published

2024

16. Anisian Strelovec Formation in the Robanov kot, Savinja Alps (Northern Slovenia)

Author

Primož Miklavc, Bogomir Celarc, and Andrej Šmuc

Subjects

Middle Triassic, Illyrian, basin, anoxic, fine-grained turbidites, slumps, progradation, Geology, QE1-996.5

Abstract

A detailed sedimentological features of the Slatinski plaz section with a transition from the deep-water Anisian (Illyrian) Strelovec Formation to the Ladinian shallow-water Contrin Formation have been presented. The Strelovec Formation is divided into fie different lithostratigraphic units that are characterised by dark hemipelagic and pelagic thin-bedded limestones and dolomitic mudstones that are frequently intercalated with deposits of gravitymass flws, slump and slide to fie-grained low-density turbidity origin. The Strelovec Formation was deposited in a hydrodynamically quiet, pelagic deeper-water anoxic environment, most probably on a gentle platform slope. In the upper part of the formation, the presence of olistolith blocks of shallow-water limestones indicates the closing of the prograding shallow-water platform wedge. Massive dolostones of Unit 6 mark the complete filing of the basin and the beginning of the shallow-water sedimentation of the Contrin Formation in the Early Ladinian.

Published

2016

17. ESTUDO DE PARÂMETROS MORFOMÉTRICOS DA SUB-BACIA HIDROGRÁFICA DO RIO JACARECICA (SE)

Author

Alex de Sousa Lima and Aracy Losano Fontes

Subjects

Morfometria, Bacia Hidrográfica, Geologia, Geomorfologia, Morphometry, Basin, Geology, Geomorphology, Morfometría, Cuenca, Geología, Geomorfología, Environmental sciences, GE1-350, Geography (General), G1-922

Abstract

Dentre as diversas formas de se estudar as bacias hidrográficas uma delas é através dos parâmetros morfométricos, pois dão o suporte ao entendimento de processos dinâmicos atuantes no relevo. Este trabalho visou estudar a morfometria da sub-bacia do rio Jacarecica, Sergipe, Brasil. A base de dados utilizada foi a do Atlas Digital sobre Recursos Hídricos de Sergipe (SEPLAN/SRH, 2004), corrigida. As características morfométricas de área foram obtidas através do software Spring 4.3, enquanto que as outras se deram por meio de equações. A área da drenagem encontrada foi de 503,76 km², extensão de 59 km e orientação NW-SE. A partir dos dados constatou-se que a sub-bacia apresenta-se alongada, apesar de o Índice de Circularidade (Ic) apontar para um arredondamento. É sinuoso com drenagem baixa e sua densidade hidrográfica é diretamente afetada pelas Serras Residuais (quartzito). Observou-se que na área a montante das serras há uma deficiência de umidade o que influi na ocupação e utilização do espaço agrário local. Fato que faz com que haja na sub-bacia dois comportamentos diferenciados quanto à distribuição de umidade, controlado pelo fator orográfico. Palavras-chave: Morfometria; Bacia Hidrográfica; Geologia; Geomorfologia. STUDY OF MORPHOMETRIC PARAMETERS OF THE SUB-BASIN OF THE RIVER JACARECICA (SE) ABSTRACT Among the various forms of studying watersheds of them is through the morphometric parameters because they give support to the understanding of active dynamic processes in relief. This work aimed to study the morphology of the sub-basin of the river Jacarecica, Sergipe, Brazil. The database used was the Digital Atlas of Sergipe on Water Resources (SEPLAN / SRH, 2004), corrected. The morphological characteristics of the area were obtained Spring 4.3 software, while the other is given by equations. The drainage area found was 503.76 square kilometers, extending 59 km and NW-SE orientation. From the data it was found that the sub-basin presents elongated, although the roundness index (Ic) point to a rounding. It is winding with low drainage and its drainage density is directly affected by Waste Saws (quartzite). It was observed that in the area upstream of the blades there is a deficiency of moisture which influences the placement and use of the local agricultural space. This fact means that there is the sub-basin two distinct behaviors as moisture distribution, controlled by orographic factor. Keywords: Morphometry; Basin; Geology; Geomorphology. ESTUDIO DE LOS PARÁMETROS MORFOMÉTRICOS DE LA SUB-CUENCA DEL RÍO JACARECICA (SE) RESUMEN Entre las diversas formas de estudio de las cuencas hidrográficas de ellas es a través de los parámetros morfométricos porque dan apoyo a la comprensión de los procesos dinámicos activos en relieve. Este trabajo tuvo como objetivo estudiar la morfología de la subcuenca del río Jacarecica, Sergipe, Brasil. La base de datos utilizada fue el Atlas Digital de Sergipe de Recursos Hídricos (SEPLAN / SRH, 2004), corregido. Las características morfológicas de la zona se obtuvieron través del software Spring 4.3, mientras que el otro está dado por las ecuaciones. El área de drenaje fue encontrado 503.76 kilómetros cuadrados, que se extiende 59 kilómetros y orientación NW-SE. De los datos se encontró que la sub-cuenca presenta alargada, aunque el índice de redondez (Ic) apuntan a un redondeo. Se está terminando con una baja de drenaje y su densidad de drenaje se ve directamente afectado por los residuos Sierras (cuarcita). Se observó que en la zona aguas arriba de las cuchillas hay una deficiencia de humedad que influye en la colocación y el uso del espacio agrícola local. Este hecho significa que existe la subcuenca dos comportamientos distintos como la distribución de la humedad, controlados por el factor orográfico. Palabras clave: Morfometría; Cuenca; Geología; Geomorfología.

Published

2016

18. STUDY OF THE LANDFORMS OF THE IBICUÍ RIVER BASIN WITH USE OF TOPOGRAPHIC POSITION INDEX

Author

Romario Trentin and Luís Eduardo de Souza Robaina

Subjects

basin, landforms, topographic position index, geomorphometry, Geology, QE1-996.5

Abstract

The Topographic Position Index (TPI) is an algorithm which calculates the difference of the elevation between a central pixel ( and the mean of the elevation of its surroundings () surroundings defined by of a radius determined by the user. The study was developed in the Ibicuí Basin, located in the west of Rio Grande do Sul, with a surface area of 46,602.58 km², with a perimeter of 1,268.76 km and an 8th order hierarchy. The TPI analysis associated with inclination determined 08 landforms elements in the BHRI: flat area elements, top elements identified as flat and wavy, springs, slopes and the footslopes and channel elements that can be closed or opened.

Published

2018

19. Hydrocarbon source rock assessment of the shale and coal bearing horizons of the Early Paleocene Hangu Formation in Kala-Chitta Range, Northwest Pakistan

Author

Nasar Khan, Wasif Ullah, Syed M. Siyar, Bilal Wadood, Tariq Ayyub, and Tariq Ullah

Subjects

Technology, Engineering, Petroleum, Paleocene coals, Science & Technology, Energy & Fuels, ORGANIC-MATTER INPUT, PALEOENVIRONMENT, Geology, Geotechnical Engineering and Engineering Geology, PETROLEUM GENERATION, OIL, Organic geochemistry, GEOCHEMICAL CHARACTERISTICS, SALT RANGE, Engineering, General Energy, DEPOSITIONAL ENVIRONMENT, Physical Sciences, Organic matter, PALYNOFACIES, Thermal maturity, PRESERVATION, Geosciences, Multidisciplinary, Stable isotopes, BASIN

Abstract

The present study aims to investigate the origin, type, thermal maturity and hydrocarbon generation potential of organic matter and paleo-depositional environment of the Early Paleocene (Danian) Hangu Formation outcropped in the Kala-Chitta Range of Northwest Pakistan, Eastern Tethys. Organic-rich shale and coal intervals were utilized for geochemical analyses including TOC (total organic carbon) and Rock–Eval pyrolysis coupled with carbon (δ13Corg) and nitrogen (δ15Norg) stable isotopes. The organic geochemical results showed that the kerogen Type II (oil/gas prone) and Type III (gas prone) dominate the investigated rock units. The TOC (wt%) and S2 yield indicate that the rock unit quantifies sufficient organic matter (OM) to act as potential source rock. However, the thermal maturity Tmax°C marks the over maturation of the OM, which may be possibly linked with the effect attained from nearby tectonically active Himalayan Foreland Fold-and-Thrust Belt system and associated metamorphosed sequences. The organic geochemical analyses deciphered indigenous nature of the OM and resultant hydrocarbons. The δ13Corg and δ15Norg stable isotopic signatures illustrated enrichment of the OM from both marine and terrestrial sources accumulated into the Hangu Formation. The Paleo-depositional model established using organic geochemical and stable isotopic data for the formation supports its deposition in a shallow marine proximal inner shelf environment with prevalence of sub-oxic to anoxic conditions, a scenario that could enhance the OM preservation. Overall, the formation holds promising coal and shale intervals in terms of organic richness, but due to relatively over thermal maturation, it cannot act as an effective source rock for liquid hydrocarbon generation and only minor amount of dry gas can be expected. In implication, the results of this study suggest least prospects of liquid hydrocarbon generation potential within Hangu Formation at studied sections.

Published

2022

20. Comparison of different DEMs for hydrological studies in the mountainous areas

Author

Akylbek Chymyrov

Subjects

QB275-343, SRTMGL1, Elevation, DEM, Terrain, AW3D30, Structural basin, ASTER GDEM, Basin, law.invention, Advanced Spaceborne Thermal Emission and Reflection Radiometer, law, General Earth and Planetary Sciences, Satellite imagery, Radar, Hydrology, Digital elevation model, Image resolution, Geology, Geodesy, Remote sensing

Abstract

The optical and radar satellite data based Global Digital Elevation Models (DEMs) serve as a main data source in hydrological studies today. Open access Remote Sensing (RS) products have increasing accuracy and improved spatial resolution. The main research purposes are to study the use of AW3D30, ASTER GDEM V003 and SRTMGL1 DEMs in modeling mountainous lake basin and comparative analysis of their spatial accuracy. Topographic maps and very high resolution satellite imagery of the study area have been applied for the spatial accuracy verification and surface referencing. The relative accuracies of three different DEMs were analyzed using 1284 elevation points on the terrain surfaces. Comparison of these DEMs with 30 m spatial resolution confirms that an AW3D30 DEM has a higher vertical accuracy compared to other models and can be used for modeling river and lake basins over high mountainous terrain. The detected unreliable sections of the modeled lake basin boundary were analyzed and corrected based on the basin delineation by different DEMs. Analysis of spatial accuracy of the delineated Issyk-Kul Lake basin provide further incentive for DEM modification based on higher resolution remote sensing data, considering the applied geoid height differences as well by using satellite positioning data.

Published

2021

21. Mesoproterozoic basins of Australia

Author

J., Anderson, L., Carr, and C., Carson

Subjects

basin, Mesoproterozoic, EFTF - Exploring for the Future, review, Australia, GEOLOGY, Published_External

Abstract

The preserved successions from the Mesoproterozoic Era (1600 to 1000 Ma) are a relatively understudied part of Australian geological evolution, especially considering that this era has a greater time span than the entire Phanerozoic. These rocks are mostly known in variably-preserved sedimentary basins overlying Paleoproterozoic or Archean cratons or at the margins of these cratons. Some metamorphosed equivalents occur within the orogens between or marginal to these cratons. Both energy and mineral resources are hosted in Australian Mesoproterozoic basins, including the highly-prospective organic rich shale units within the Beetaloo Sub-basin (Northern Territory), which form part of the Beetaloo Petroleum Supersystem. The primary aim for this record is to provide a consolidated state of knowledge of Australian basins or successions similar in age to that of the Mesoproterozoic Beetaloo Petroleum Supersystem. The findings of this report will assist prioritising future work, through improved geological understanding and resource prospectivity. This report presents an overview of 14 Mesoproterozoic-age sedimentary basins or successions and their current level of understanding, including location, basin architecture, stratigraphy and depositional environments, age constraints and mineral and energy resources. Basins or successions included in this record are unmetamorphosed or metamorphosed to very low-grade conditions. Recommendations are made for future work to address the main knowledge gaps identified from this review. While some of these basins have been the focus of recent intense study and data acquisition, the extent of knowledge varies broadly across basins. All basins reviewed in this record would benefit from further geochemical and geochronological analyses, and stratigraphic study to better understand the timing of depositional events and their correlation with nearby basins. Elucidation of the post-depositional history of alteration, migration of fluids and/or hydrocarbons would facilitate future exploration and resource evaluation.

Published

2023

22. Actual Evapotranspiration in the Al-Khazir Gomal Basin (Northern Iraq) Using the Surface Energy Balance Algorithm for Land (SEBAL) and Water Balance

Author

Hussein Jassas, Wael Kanoua, and Broder Merkel

Subjects

evapotranspiration, remote sensing, Surface Energy Balance Algorithm for Land (SEBAL), water balance, basin, Geology, QE1-996.5

Abstract

Increasing dependence on groundwater requires a detailed determination of the different outputs and inputs of a basin for better water management. Determination of spatial and temporal actual evapotranspiration (ETa), in this regard, is of vital importance as there is significant water loss from drainage basins. This research paper uses the Surface Energy Balance Algorithm for Land (SEBAL), as well as the water balance, to estimate the spatial and temporal ETa in the Al-Khazir Gomal Basin, Northern Iraq. To compensate for the shortage in rainfall, and to irrigate summer crops, farmers in this basin have been depending, to a large extent, on groundwater extracted from the underlying unconfined aquifer, which is considered the major source for both domestic and agricultural uses in this basin. Rainfed farming of wheat and barley is one of the most important activities in the basin in the winter season, while in the summer season, agricultural activity is limited to small rice fields and narrow strips of vegetable cultivation along the Al-Khazir River. The Landsat Thematic Mapper images (TM5) acquired on 21 November 2006, 9 March 2007, 5 May 2007, 21 July 2007, and 23 September 2007 were used, along with a digital elevation model (DEM) and ground-based meteorological data, measured within the area of interest. Estimation of seasonal ETa from periods between satellite overpasses was computed using the evaporative fraction (Ʌ). The water balance approach was utilized, using meteorological data and river hydrograph analysis, to estimate the ETa as the only missing input in the predefined water balance equation. The results of the two applied methods were comparable. SEBAL results were compared with the land use land cover (LULC) map. The river showed the highest ETa, as evaporation from the free-water surface. Rice fields, irrigated in the summer season, have a high ETa in the images, as these fields are immersed in water during June, July and August. Vegetated corridors along the riverside showed different ETa values, as they contain a mosaic of different crops in different stages of growth. Conglomerate and bare sandstone outcrops showed no ETa, with some exceptions in the mountainous area, where these outcrops are affected by perennial springs. The results indicate the applicability of SEBAL in the study area, and they could be used in further studies to estimate the water budget of the basin.

Published

2015

23. Spatio-temporal Change of Glacier Surging and Glacier-dammed Lake Formation in Karakoram Pakistan

Author

Sajid Ali, Razia Bano, Sajjad Saeed, Javed Akhter Qureshi, Shams Ur Rehman, Nauman Ali, Muhammad Azhar Ehsan, and Garee Khan

Subjects

HAZARDS, Climate change, Environmental Sciences & Ecology, Environmental Science (miscellaneous), OUTBURSTS, BRIEF COMMUNICATION, HIMALAYA, Meteorology & Atmospheric Sciences, WATER, Karakoram anomaly, Precipitation, Temporal change, Geosciences, Multidisciplinary, Computers in Earth Sciences, Mean radiant temperature, Surge, Glacier surge, Snow cover area (SCA), BASIN, Global and Planetary Change, geography, Science & Technology, geography.geographical_feature_category, VALLEY, Geology, Glacier, Snow, BALANCE, Physical Sciences, Economic Geology, Physical geography, Glacial lake, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Glaciers in the northern part of Pakistan are the major source of water to the main river systems in Pakistan. These reservoirs of freshwater are under threat due to a continuous increase in the global mean temperature. The present study investigates two selected (Khordopin and Passu) glaciers surge and resultant induce glacier lakes and lake area change in terms of time and space. Observed temperature and precipitation data obtained from three high-altitude weather stations are also analyzed to examine the recent climate change in the region. The Khordopin glacier has shown an advancing behavior with an average surge of around 15–18 m/day for April–May 2017; it shows reduced velocity to 10 m/day during May–June 2017 as computed to the monthly Sentinel 2 and Landsat OLI images for the study area. During a field campaign, its velocity was recorded 2 m/day from 2 km above stream level of the glacier flow. However, the glacier shows different surge behaviors at different locations and altitudes. The Khordopin and the associated glacial lake show the best example of a surging glacier and formation of a Glacier dammed lake in the region. On the other hand, Passu Glacier indicates glacier retreating behavior. From the analysis of meteorological data (1995–2010), the maximum and minimum temperatures increase at a rate of 0.07 °C/year and 0.08 °C/year, respectively, while annual precipitation increases at 0.18 mm/year during the observational period. The MODIS snow data show an increasing trend in maximum snow-covered from 2000 onward, while the decreasing trend in minimum snow-covered from 2000 to 2008.

Published

2021

24. Nevada Great Basin Play Fairway Analysis - Steptoe Valley

Author

Faulds, Jim

Published

2015

25. Great Basin NV Play Fairway Analysis - Carson Sink

Author

Faulds, Jim

Published

2015

26. Oceanographic consequences of the Bransfield Strait (Antarctica) opening

Author

Shan Liu, F. Javier Hernández-Molina, Chupeng Yang, Cuimei Zhang, Xiaoxia Huang, Shaoru Yin, Marga García, David Van Rooij, Ce Wang, Haiteng Zhuo, Hui Chen, Yaping Lei, Zhixuan Lin, Kunwen Luo, and Ming Su

Subjects

MARGIN, geology, volume, DEEP, ICE-SHEET, WEDDELL SEA, STRATIGRAPHY, tomography, Centro Oceanográfico de Cádiz, EVOLUTION, SEDIMENTARY PROCESSES, facies, Earth and Environmental Sciences, plate tectonics, WATER, Medio Marino, PENINSULA, BASIN

Abstract

The Bransfield Strait (Antarctica) is an important region for evaluating changes in Weddell Sea shelf waters on geological time scales because of its restricted connections to the surrounding ocean. However, the detailed oceanographic consequences of the opening of the strait remain unclear. We present bottom-current-related sedimentary features in the Bransfield Strait and examine the impact of the strait’s opening on deep-water circulation. Our findings show that the ocean circulation started to resemble that of the present day after a period of volcanic activity, possibly around the Middle Pleistocene. Coeval changes in Bransfield Strait morphology and an increase in seafloor irregularities due to the formation of volcanic chains finally determined new pathways for the Bransfield deep and bottom waters, enhanced due to the new climatic scenario of 100 k.y. cycles. The fact that “modernlike” oceanic circulation occurred only during previous interglacial periods demonstrates the significant impact of 100 k.y. climate cycles on the thermohaline changes of Antarctic deep waters. Hence, establishing a modern-day circulation model would enable researchers to assess paleoproductivity and local upwelling that have profoundly influenced the marine ecosystem of the Antarctic Peninsula after the Middle Pleistocene, SI

Published

2022

27. Deep Sea Sediment Gravity Flow Deposits in Gulf of Tomini, Sulawesi

Author

Dida Kusnida and Subarsyah Subarsyah

Subjects

Gulf of Tomini, basin, slump, turbidite, pelagic, seismic stratigraphy, Science, Geology, QE1-996.5

Abstract

http://dx.doi.org/10.17014/ijog.vol3no4.20084Micro plate collision against the Eastern Arm of Sulawesi since Pliocene has resulted in a major supply of terigenous sediments into Late Miocene rift-basins in Gulf of Tomini. Studies on offshore multi-channel seismic reflection data complemented by published on-land geological data indicate a series of tectonic events that influenced the depositional system in the Gulf of Tomini. During the Late Neogene, alternating pulses of terigenous sediments were deposited in the basins in the form of deep-sea slump-turbidite-pelagic sediments. A sediment gravity flow deposit system at the slope and the base of the basins changed gradually into a deep-sea pelagic fill system toward the center of the basins. Three tectono-stratigraphy sequences (A, B, and C) separated by unconformities indicating the Late Neogene history and the development of the basins were identified. These tectonic processes imply that the earlier sediments in the Gulf of Tomini are accomplished by a differential subsidence, which allows a thickening of basin infill. The Pliocene-Quaternary basin fill marks the onset of a predominant gravity flow depositional system

Published

2014

28. Claus Heinberg (1945–2021) – Trace fossils, Greenland expeditions and bivalves of the K–T boundary strata

Author

Eckart Håkansson, Finn Surlyk, and Peder W. Agger

Subjects

Stevns Klint, CERITHIUM LIMESTONE, BIOSTRATIGRAPHY, PALEOGENE, East and eastern North Greenland, Boundary (topology), Geology, Jurassic trace fossils, bivalves K-T boundary, Trace fossil, CRETACEOUS LITHOSTRATIGRAPHY, Paleontology, CHALK, DENMARK, FORAMINIFERS, KILEN, BASIN

Abstract

The eminent palaeontologist and Greenland explorer Claus Heinberg was born in 1945 and died in 2021 after prolonged illness. His scientific production was focused on two remarkably different subjects: the bivalve fauna of the Cretaceous–Palaeogene (K–T) boundary beds and the Mesozoic geology and stratigraphy of eastern North Greenland. He was employed at Roskilde University during most of his career until he retired in 2012. He was part of a cross disciplinary collaborative environment, comprising biologists, geographers, geologists, sociologists, civil engineers and architects. He was a highly engaged social debater of a wide spectrum of societal subjects throughout his life. He was a fine person, a good colleague and friend.

Published

2021

29. Comparison of statistical downscaling methods for climate change impact analysis on precipitation-driven drought

Author

Patrick Willems, Daan Buekenhout, Santiago Mendoza Paz, and Hossein Tabari

Subjects

Technology, 010504 meteorology & atmospheric sciences, 0208 environmental biotechnology, Climate change, 02 engineering and technology, MODEL OUTPUT, Environmental technology. Sanitary engineering, 01 natural sciences, Weather station, EXTREMES, Geography. Anthropology. Recreation, GE1-350, Precipitation, Geosciences, Multidisciplinary, CROSS-VALIDATION, Baseline (configuration management), TD1-1066, BASIN, 0105 earth and related environmental sciences, Coupled model intercomparison project, Science & Technology, Geology, FRAMEWORK, 020801 environmental engineering, Environmental sciences, Climatology, Physical Sciences, SIMULATION, Water Resources, Environmental science, Climate model, Downscaling, Quantile

Abstract

General circulation models (GCMs) are the primary tools for evaluating the possible impacts of climate change; however, their results are coarse in temporal and spatial dimensions. In addition, they often show systematic biases compared to observations. Downscaling and bias correction of climate model outputs is thus required for local applications. Apart from the computationally intensive strategy of dynamical downscaling, statistical downscaling offers a relatively straightforward solution by establishing relationships between small- and large-scale variables. This study compares four statistical downscaling methods of bias correction (BC), the change factor of mean (CFM), quantile perturbation (QP) and an event-based weather generator (WG) to assess climate change impact on drought by the end of the 21st century (2071–2100) relative to a baseline period of 1971–2000 for the weather station of Uccle located in Belgium. A set of drought-related aspects is analysed, i.e. dry day frequency, dry spell duration and total precipitation. The downscaling is applied to a 28-member ensemble of Coupled Model Intercomparison Project Phase 6 (CMIP6) GCMs, each forced by four future scenarios of SSP1–2.6, SSP2–4.5, SSP3–7.0 and SSP5–8.5. A 25-member ensemble of CanESM5 GCM is also used to assess the significance of the climate change signals in comparison to the internal variability in the climate. A performance comparison of the downscaling methods reveals that the QP method outperforms the others in reproducing the magnitude and monthly pattern of the observed indicators. While all methods show a good agreement on downscaling total precipitation, their results differ quite largely for the frequency and length of dry spells. Using the downscaling methods, dry day frequency is projected to increase significantly in the summer months, with a relative change of up to 19 % for SSP5–8.5. At the same time, total precipitation is projected to decrease significantly by up to 33 % in these months. Total precipitation also significantly increases in winter, as it is driven by a significant intensification of extreme precipitation rather than a dry day frequency change. Lastly, extreme dry spells are projected to increase in length by up to 9 %.

Published

2021

30. Pore-Scale Modeling of Fluid–Rock Chemical Interactions in Shale during Hydraulic Fracturing

Author

Veerle Vandeginste, Arash Rabbani, Hossein Fazeli, Bagus Putra Muljadi, and Masoud Babaei

Subjects

Technology, Engineering, Chemical, Science & Technology, Energy & Fuels, Petroleum engineering, General Chemical Engineering, Pore scale, POROSITY, Energy Engineering and Power Technology, Chemical interaction, Engineering, Fuel Technology, Hydraulic fracturing, DISSOLUTION, MARCELLUS SHALE, PRECIPITATION, WATER, REACTIVE TRANSPORT, PERMEABILITY, Oil shale, Geology, CARBONATES, BASIN

Abstract

ispartof: ENERGY & FUELS vol:35 issue:13 pages:10461-10474 status: published

Published

2021

31. A new age model and chemostratigraphic framework for the Maastrichtian type area (southeastern Netherlands, northeastern Belgium)

Author

Johan Vellekoop, Pim Kaskes, Matthias Sinnesael, Jarno Huygh, Thomas Déhais, John W.M. Jagt, Robert P. Speijer, Philippe Claeys, Analytical, Environmental & Geo-Chemistry, Faculty of Sciences and Bioengineering Sciences, Chemistry, and Earth System Sciences

Subjects

Science & Technology, BIOSTRATIGRAPHY, MULTI-PROXY, Stratigraphy, mu XRF, CARBON-ISOTOPE STRATIGRAPHY, Geology, INOCERAMID EXTINCTION, MEMBER GULPEN FORMATION, ENVIRONMENTAL-CHANGES, SOPELANA SECTIONS, Maastrichtian type area, Physical Sciences, chemostratigraphy, BASQUE COUNTRY, NORTHERN GERMANY, BASIN

Abstract

The youngest time interval of the Cretaceous Period is known as the Maastrichtian, in reference to the shallow-marine strata outcropping in the area surrounding the city of Maastricht, in the Netherlands-Belgium border region. While the type-Maastrichtian strata have yielded a wealth of paleontological data, comparatively little geochemical work has so far been carried out on this succession. To date, age assessment of the type-Maastrichtian, and stratigraphic correlation with sections elsewhere, have largely been based on biostratigraphy and preliminary attempts at cyclostratigraphy. However, these techniques are hampered by bio-provincialism and the presence of stratigraphic gaps in the succession, respectively. In recent years, stable carbon isotope stratigraphy has proven to be a powerful tool for correlating Upper Cretaceous strata on a global scale. When integrated with biostratigraphy, carbon isotope stratigraphy can be used to test the synchroneity of biological and climatic events across the globe and to reconcile inter-regional biostratigraphic schemes. Therefore, we have generated the first high-resolution bulk stable carbon isotope stratigraphy for the type-Maastrichtian, using an extensive sample set acquired within the context of the Maastrichtian Geoheritage Project spanning approximately 100 meters of stratigraphy at the Hallembaye and former ENCI quarries. In combination with bulk major and trace element data generated using µXRF, this record presents the first high-resolution chemostratigraphic survey for the type-Maastrichtian. The µXRF-based element profiles through the type-Maastrichtian succession reveal variable fluxes of terrigenous input into this carbonate system over time, marking three distinct stratigraphic sequences, separated by sequence boundaries at the Froidmont, Lichtenberg and Vroenhoven horizons. In addition, the carbon isotope profile records the Campanian–Maastrichtian Boundary Event (CMBE) and the Mid-Maastrichtian Event (MME) in the Maastrichtian type area for the first time. Our refined age model allows for global correlation between the type-Maastrichtian sequence and Maastrichtian successions worldwide and places the abundant paleontological records from the type-Maastrichtian in a global context.

Published

2022

32. Economic Geology

Author

S. M. Hall, J. S. Beard, C. J. Potter, R. J. Bodnar, L. A. Neymark, J. B. Paces, C. A. Johnson, G. N. Breit, R. A. Zielinski, and G. J. Aylor

Subjects

U-Pb Geochronology, Zircon, Stratigraphy, Ordovician, Brookneal, Geology, Basin, Shrimp, Geophysics, Geochemistry and Petrology, Na-Metasomatism, Economic Geology, Central Appalachian Piedmont, Uraninite

Abstract

The Coles Hill uranium deposit, with an indicated resource of about 130 Mlb of U3O8, is the largest unmined uranium deposit in the United States. The deposit is hosted in the Taconian (approx. 480-450 Ma) Martinsville igneous complex, which consists of the Ordovician Leatherwood Granite (granodiorite) and the Silurian Rich Acres Formation (diorite). The host rock was metamorphosed to orthogneiss during the Alleghanian orogeny (approx. 325-260 Ma), when it also underwent dextral strike-slip movement along the Brookneal shear zone. During the Triassic, extensional tectonics led to the development of the Dan River Basin that lies east of Coles Hill. The mineralized zone is hosted in brittle structures in the footwall of the Triassic Chatham fault that forms the western edge of the basin. Within brittle fracture zones, uranium silicate and uranium-bearing fluorapatite with traces of brannerite form veins and breccia-fill with chlorite, quartz, titanium oxide, pyrite, and calcite. Uranium silicates also coat and replace primary titanite, zircon, ilmenite, and sulfides. Sodium metasomatism preceded and accompanied uranium mineralization, pervasively altering host rock and forming albite from primary feldspar, depositing limpid albite rims on igneous feldspar, altering titanite to titanium oxide and calcite, and forming riebeckite. Various geothermometers indicate temperatures of less than similar to 200 degrees C during mineralization. In situ U-Pb analyses of titanite, Ti-oxide, and apatite, along with Rb/Sr and U/Pb isotope systematics of whole-rock samples, resolve the timing of geologic processes affecting Coles Hill. The host Leatherwood Granite containing primary euhedral titanite is dated at 450 to 445 Ma, in agreement with previously obtained ages from zircon in the Martinsville igneous complex. A regional metamorphic event at 330 to 310 Ma formed anhedral titanite and some apatite, reequilibrated whole-rock Rb/Sr and U-Pb isotopes, and is interpreted to have coincided with movement along the Brookneal shear zone. During shearing and metamorphism, primary refractory uranium-bearing minerals including titanite, zircon, and uranothorite were recrystallized, and uranium was liberated and mixed locally with hematite, clay, and other fine-grained minerals. Uranium mineralization was accompanied by a metasomatic episode between 250 and 200 Ma that reset the Rb-Sr and U-Pb isotope systems and formed titanium oxide and apatite that are associated and, in places, intimately intergrown with uranium silicate dating mineralization. This event coincides with rifting that formed the Dan River Basin and was a precursor to the breakup of Pangea. The orientation of late-stage tectonic stylolites is compatible with their formation during Late Triassic to Early Jurassic basin inversion, postdating the main stage of uranium mineralization and effectively dating mineralization as Mesozoic. Based on the close spatial and temporal association of uranium with apatite, we propose that uranium was carried as a uranyl-phosphate complex. Uranium was locally reduced by coupled redox reactions with ferrous iron and sulfide minerals in the host rock, forming uranium silicates. The release of calcium during sodium metasomatic alteration of primary calcic feldspar and titanite in the host rock initiated successive reactions in which uranium and phosphate in mineralizing fluids combined with calcium to form U-enriched fluorapatite. Based on the deposit mineralogy, oxygen isotope geochemistry, and trace element characteristics of uranium silicate and gangue minerals, the primary mineralizing fluids likely included connate and/or meteoric water sourced from the adjacent Dan River Basin. High heat flow related to Mesozoic rifting may have driven these (P-Na-F- rich) fluids through local aquifers and into basin margin faults, transporting uranium from the basin or mobilizing uranium from previously formed U minerals in the Brookneal shear zone, or from U-enriched older basement rock. Published version Public domain – authored by a U.S. government employee

Published

2022

33. Superposición de cuencas extensionales y contraccionales oligo-miocenas en el retroarco andino norpatagónico: la Cuenca de Aluminé, Neuquén, Argentina Superimposition of oligo-miocene extensional and contractional basins in the northpatagonian Andean retroarc: The Aluminé Basin, Neuquén, Argentina

Author

Juan R Franzese, Leandro D'Elia, Andrés Bilmes, Martin Muravchik, and Mariano Hernández

Subjects

Cuenca, Retroarco andino, Oligoceno, Mioceno, Patagonia, Argentina, Basin, Andean retroarc, Oligocene, Miocene, Geology, QE1-996.5

Abstract

La Cuenca de Aluminé constituye un área de acumulación volcano-sedimentaria localizada en el retroarco andino a los 39°S. Forma parte de un conjunto de depocentros denominado Cuenca de Bío Bío-Aluminé, integrando su parte más austral. Estudios estratigráficos, geocronológicos, sedimentológicos y estructurales realizados sobre el relleno de la cuenca indican que la misma habría evolucionado en dos etapas: una etapa extensional oligocena, integrada por lavas basálticas y sedimentos producidos por el retrabajo del material volcanoclástico asociado a depósitos piroclásticos (Formación Rancahue) y otra etapa contraccional del Mioceno Tardío, con depósitos aluviales y piroclásticos coronados por efusiones basálticas (formaciones Chimehuín y Tipilihuque). El relleno de la etapa extensional es fuertemente volcánico y tiene proveniencia del oeste, vinculado al profuso volcanismo basáltico oligoceno del área andina chilena. La etapa contraccional adopta la forma de una cuenca ultramontana, localizada entre las cadenas levantadas principalmente por la inversión de estructuras extensionales mesozoicas y muestra fuerte asimetría y proveniencia desde el este. Evidencias estructurales y geomorfológicas indican la existencia de un hiatus depositacional entre ambas etapas.The Aluminé Basin is a volcano-sedimentary depocentre located in the Andean retroarc at 39°S. It is the southern part of a major depositional system: the Bío Bío-Aluminé Basin. Stratigraphical, geochronological, sedimentological and structural analysis allow us to conclude that the basin evolved through two stages: an Oligocene extensional stage filled with basalts and reworked volcaniclastic and pyroclastic deposits (Rancahue Formation) and a Miocene contractional stage, filled with alluvial and pyroclastic deposits covered by basaltic lavas (Chimehuín and Tipilihuque formations). The volcanic-rich (basaltic) infill of the extensional stage has a western provenance and was derived from widespread magmatic activity that took place during the Oligocene in the adjacent cordilleran axis. The contractional stage basin is an intramontane depocentre limited by uplifted blocks generated mainly by the inversion of Mesozoic extensional faults. It is strongly asymmetric and shows eastern provenance. Structural and geomorphological evidence indicate the existence of a non-depositional hiatus between the two stages.

Published

2011

34. The site effects in Izmir Bay of October 30 2020, M7.0 Samos Earthquake

Author

Selim Altun, Ediz Karaali, Gizem Can, Alper Sezer, Shaghayegh Karimzadeh, Özkan Cevdet Özdağ, Moutasem Zarzour, Duygu Köksal, A. Arda Özacar, Berkan Söylemez, Alaa El-Sayeed, Kemal Onder Cetin, Elife Cakir, Makbule Ilgac, Irem Bozyigit, Bora Uzel, Berna Unutmaz, Aysegul Askan, Yaprak İpek, Çağlar Tuna, Cem Kincal, Zeynep Gülerce, and Mustafa Akgün

Subjects

2020 Samos Earthquake, Turkey, Range (biology), Evolution, 0211 other engineering and technologies, Site response, Soil Science, 02 engineering and technology, Structural basin, Fault (geology), Natural (archaeology), Basin, Soil, Seismic risk, Earthquakes, Western Anatolia, Ratio, 021101 geological & geomatics engineering, Civil and Structural Engineering, 021110 strategic, defence & security studies, geography, geography.geographical_feature_category, Geotechnical Engineering and Engineering Geology, Soil-structure-interaction, Period (geology), Submarine pipeline, Alluvium, Downhole Array, Bay, Geology, Seismology

Abstract

Due to the unique soil and morphological conditions prevailing in Izmir Bay basin, structural damage has been governed by site effects. Consistently, during October 30, 2020 M7.0 Samos Earthquake, which took place offshore of Samos Island, structural damage and life losses were observed to be concentrated in Bayrakli region of Izmir Bay, despite the fact that the fault rupture was at a distance of 65-75 km from the city of Izmir. Additionally, strong ground motions recorded in Izmir Bay showed unique site amplifications that were observed surprisingly at both rock and soil sites. Soil amplifications and duration elongations were mostly due to site effects governed by the response of very deep alluvial deposits of low plasticity. Similarly, due to very extensive faulting-induced fracturing and unusually stratified nature of rock sub-layers, unexpected long period amplifications were also observed at rock sites. These earthquake and site resonance effects were more pronounced in the period range of 0.5-1.5 s. When they were superposed with relatively coinciding natural period of 7-9 story residential buildings of Izmir City, it was concluded that the triple resonance effects among incoming rock ground motions, soil deposits, and the damaged buildings, amplified and prolonged the overall system response. Within the confines of this manuscript, the governing role of site effects leading to increased seismic demand was assessed, through a series of 1D equivalent linear, total stress-based site response assessments, the results of which clearly highlighted the variation of seismic demand in Izmir Bay., Middle East Technical University, The earthquake reconnaissance studies were supported by Middle East Technical University. The authors would also like to thank the undergraduate students, who collaborated on field campaigns and data processing.

Published

2022

35. Dryland avulsion sequences: Insights from data-model comparison of a terminal dryland river system

Author

Karamitopoulos, P, Donselaar, ME, Weltje, GJ, and van Toorenenburg, KA

Subjects

Science & Technology, TIME-SCALES, Stratigraphy, Dryland river system, River avulsion, ALTIPLANO, TRANSMISSION LOSSES, STRATIGRAPHY, Geology, Compensational stacking, FLUVIAL SEDIMENT, Numerical simulation, CHANNEL, Physical Sciences, Fluvial geomorphology, ALLUVIAL ARCHITECTURE, MAGDALENA RIVER, Inter-avulsion period, BASIN

Abstract

An advection–diffusion model of fluvial processes was used to analyze the stratigraphic expression of avulsions in terminal river systems and understand their control on basin-fill architecture. The initial and boundary conditions of the model runs (i.e., catchment area, smoothed initial topographic surface, grain-size distribution and sediment supply rates) were extracted from the modern Rio Colorado dryland terminal river system in the Altiplano Basin (Bolivia). Water-discharge and sediment-load values were derived from global regression curves and the BQART equation, respectively. To evaluate the robustness of the simulations, the model was tested under increasing sediment-load scenarios ranging from 0.003 m3/s to 0.095 m3/s. Data-model comparison provided insights into the role of avulsions in the geomorphological evolution of terminal river systems. The observed stacking of sediments, as captured by geospatial and geochronological data from the Rio Colorado, is consistent with the high sediment-load scenarios, which start with a single-thread fluvial channel that in time radially expands over the floodplain by successive river avulsions on account of alluvial-ridge aggradation and channel-floor elevation above the surrounding floodplain. The model output shows a laterally extensive, convex-upwards lobate topography which is in agreement with the lateral and longitudinal geomorphology in the upper and lower coastal plain of the Rio Colorado. The simulated inter-avulsion period, which is the time period between two successive full (or stabilized) avulsions in the model, varies from 0.18 to 1.2 kyr and is consistent with the OSL-age determination in the Rio Colorado with inter-avulsion periods up to 1.28 ± 0.34 kyr.

Published

2022

36. Influence of fractures on the reservoir quality of Lower Miocene carbonates in Northern Iraq

Author

Hussein, D, Rashid, F, Lawrence, JA, Glover, PWJ, and Lorinczi, P

Subjects

Science & Technology, Carbonate reservoirs, IMPACT, FLOW, Geology, Permeability, NORMAL-FAULT, CRETACEOUS PLATFORM, EVOLUTION, Reservoir quality, Diagenesis, LIMESTONES, MURGE PLATEAU, 0403 Geology, Physical Sciences, MAJELLA MOUNTAIN, General Earth and Planetary Sciences, Geosciences, Multidisciplinary, Fractures, Porosity, BASIN, General Environmental Science

Abstract

The Zagros Fold and Thrust Belt of the Kurdistan region of northern Iraq host major volumes of hydrocarbons in multiple fractured carbonate reservoirs throughout the Jurassic, Cretaceous, Palaeogene and Neogene. Limited research has been undertaken to characterize these recently discovered carbonate reservoir rocks. Here, the reservoir quality of the Neogene Euphrates and Jeribe Formations is investigated. Samples from five outcrops along the Azhdagh and Mamlaha anticlines and from four nearby wells (North Oil Company wells JM37, KM3, SAR1 and KU1) have been analysed to understand better their reservoir properties. In both formations very low matrix porosities (

Published

2021

37. Hydrocarbon source rocks in Kazhdumi and Pabdeh formations-a quick outlook in Gachsaran oilfield, SW Iran

Author

Majid Safaei-Farouji, Mohammadreza Kamali, and Mohammad Hail Hakimi

Subjects

BIOMARKER, Technology, Engineering, Petroleum, Science & Technology, Energy & Fuels, Geology, Albian, Geotechnical Engineering and Engineering Geology, DEZFUL EMBAYMENT, Kazhdumi formation, General Energy, Engineering, EVAL PYROLYSIS, ZAGROS FOLDBELT, MARKERS, Gachsaran oilfield, DEPOSITIONAL ENVIRONMENT, Physical Sciences, Paleocene, Geosciences, Multidisciplinary, Pabdeh formation, ORGANIC GEOCHEMICAL CHARACTERIZATION, THERMAL MATURITY, MARINE, BASIN

Abstract

Geochemical study of Kazhdumi and Pabdeh Formations as potential source rocks in Gachsaran Oilfield demonstrates that the Kazhdumi Formation has a fair to good capability of hydrocarbon generation and predominately contains type II-III kerogen. On the other hand, the Pabdeh Formation has a poor to good petroleum potential and contains different kerogen types, including type II, type II-III, type III and even for one sample, type IV, indicating different depositional conditions for this formation. The geochemical log of the Kazhdumi Formation shows that there is a close correlation between different geological parameters as noticed prominently in well number 55, which suggests the more extensive the anoxic condition, the higher the petroleum potential is for Kazhdumi Formation. By contrast, a poor correlation between TOC and other Rock–Eval-derived parameters for the Pabdeh Formation at a depth of more than 2100 m may demonstrate the inert organic matter and mineral matrix effects at this depth interval. However, biomarkers show differences in lithology and depositional environment for the Kazhdumi Formation in well numbers 55 and 83. On the other hand, the Pabdeh Formation has a mixed lithology (carbonate-shale) deposited in a marine setting under suboxic–anoxic condition. Moreover, thermal maturity indicators suggest that Pabdeh and Kazhdumi Formations are immature and early mature, respectively.

Published

2021

38. The palaeogeographic outlines of the Caucasus in the Jurassic: The Caucasian Sea and the Neotethys Ocean

Author

Ruban Dmitry A.

Subjects

sea, seaway, basin, arc, Jurassic, Caucasus, Neotethys, Geology, QE1-996.5

Abstract

The Caucasian Sea, fringing the northern margin of the Jurassic Neotethys Ocean, largely covered the Caucasus. Continental, shallow-marine and deep-marine palaeoenvironments delineate palaeogeographic outlines for three significant time slices: the Late Toarcian, the Early Bajocian and the Middle Oxfordian. These new palaeogeographic outlines of the Caucasus and adjacent territories match the Neotethys Ocean reconstructions. In the Late Toarcian the Caucasian Sea embraced the Greater Caucasus Basin and the Black Sea Caspian Sea Basin, which were divided by the Northern Transcaucasian Arc; it opened to the Neotethys Ocean which covered the Exterior Caucasian Basin. In the Early Bajocian, the Caucasian Sea only embraced the Greater Caucasus Basin; it opened the epicontinental seas of the Russian Platform, connecting them with the Neotethys Ocean by straits between islands of the Transcaucasian Arc. In the Middle Oxfordian, the Caucasian Sea which further embraced the Greater Caucasus Basin had its outer shelf fringed by carbonate build-ups. The connection between the Russian Platform shallow sea and the Neotethys Ocean was maintained. In the course of the Jurassic, a seaway developed along the northern margin of the Neotethys, of which the Caucasian Sea became a significant part.

Published

2006

39. The Extended Continental Crust West of Islas Marías (Mexico)

Author

Diana Núñez, Jorge A. Acosta-Hernández, Felipe de Jesús Escalona-Alcázar, Simone Pilia, Francisco Javier Núñez-Cornú, Diego Córdoba, Apollo - University of Cambridge Repository, Nunez, D, Acosta-Hernandez, J, Escalona-Alcazar, F, Pilia, S, Nunez-Cornu, F, and Cordoba, D

Subjects

geography, geography.geographical_feature_category, Subduction, Continental crust, Science, Crust, Fracture zone, Escarpment, Sedimentary basin, Geofísica, crustal structure, basin, Paleontology, Tectonics, Islas Marias archipelago, OBS, Oceanic crust, General Earth and Planetary Sciences, amphibious seismic network, Islas Marías archipelago, basins, Geology

Abstract

The crustal structure around the Islas Marías Archipelago has been debated for a long time. An important unresolved question is where the Rivera-North American plate subduction ends and the Tamayo fracture zone begins, from SE to NW. Results from the TsuJal project have shed light on the northwesternmost part of the Jalisco block structure. It is now clear that Sierra de Cleofas and the Islas Marías Escarpment comprise the northwestern continuation of the Middle America trench. However, other questions remain. In this paper, we present the structure of the shallow and deep crust and the upper mantle of the Islas Marías western region through the integration of multichannel seismic reflection, wide-angle seismic bathymetric and seismicity data, including records of an amphibious seismic network, OBS, and portable seismic stations, purposely deployed for this project, providing an onshore-offshore transect of 310km length. Our findings disclose new evidence of the complex structure of the Rivera plate that dips 8°–9° underneath the NW Jalisco block as revealed by two seismic profiles parallel to the Islas Marías Escarpment. Moreover, we find five sedimentary basins and active normal faults at the edges of tectonic structures of the E-W oriented West Ranges and the N-S trending Sierra de Cleofas. Furthermore, the Sierra de Cleofas is the beginning of the active subduction of the Rivera plate beneath North America. The oceanic crust thickens and submerges towards the south while is coupled with the continental crust, from 6km at the northern ends of the seismic profiles to 15km in the contact region and 24km at the coast and southern ends of them. The continental Moho was not fully characterized because of the geometry of the seismic transects, but a low-velocity layer associated with Rivera Plate subduction was observed beneath the Jalisco Block. Our results constrain the complexity of the area and reveal new structural features from the oceanic to continental crust and will be pivotal to assess geohazards in this area.

Published

2021

40. The Jurassic of Denmark and Greenland: The Jurassic of East Greenland: a sedimentary record of thermal subsidence, onset and culmination of rifting

Author

Surlyk, Finn

Subjects

East Greenland, Jurassic, sequence stratigraphy, pre-rift megasequence, syn-rift megasequence, basin, Geology, QE1-996.5, Geophysics. Cosmic physics, QC801-809

Abstract

The Late Palaeozoic – Mesozoic extensional basin complex of East Greenland contains a record of deposition during a period of Rhaetian – Early Bajocian thermal subsidence, the onset of riftingin the Late Bajocian, its growth during the Bathonian–Kimmeridgian, culmination of rifting in the Volgian – Early Ryazanian, and waning in the Late Ryazanian – Hauterivian. The area was centred over a palaeolatitude of about 45°N in the Rhaetian and drifted northwards to about 50°N in the Hauterivian. A major climate change from arid to humid subtropical conditions took place at the Norian–Rhaetian transition. Deposition was in addition governed by a long-term sea-level rise with highstands in the Toarcian–Aalenian, latest Callovian and Kimmeridgian, and lowstands in the latest Bajocian – earliest Bathonian, Middle Oxfordian and Volgian.The Rhaetian – Lower Bajocian succession is considered the upper part of a megasequence, termed J1, with its base in the upper Lower Triassic, whereas the Upper Bajocian – Hauterivian succession forms a complete, syn-rift megasequence, termed J2. The southern part of the basin complex in Jameson Land contains a relatively complete Rhaetian–Ryazanian succession and underwent only minor tilting during Middle Jurassic – earliest Cretaceous rifting. Rhaetian – Lower Jurassic deposits are absent north of Jameson Land and this region was fragmented into strongly tilted fault blocks during the protracted rift event. The syn-rift successions of the two areas accordingly show different long-term trends in sedimentary facies. In the southern area, the J2 syn-rift megasequence forms a symmetrical regressive–transgressive–regressive cycle, whereas the J2 megasequence in the northern area shows an asymmetrical, stepwise deepening trend.A total of eight tectonostratigraphic sequences are recognised in the Rhaetian–Hauterivian interval. They reflect major changes in basin configuration, drainage systems, sediment transport anddistribution patterns, and in facies and depositional environments. The sequences are bounded by regional unconformities or flooding surfaces and have average durations in the order of 10 Ma. They are subdivided into conventional unconformity-bounded depositional sequences with durations ranging from tens of thousands of years, in the Milankovitch frequency band, up to several million years. Deposition was alluvial and lacustrine in the Rhaetian–Sinemurian, but almost exclusively marine during the Pliensbachian–Hauterivian time interval when a marine strait, up to 500 km wide and more than 2000 km long, developed between Greenland and Norway, connectingthe Arctic Sea and the North Sea. Coal-bearing fluvial and paralic deposits occur, however, at the base of the onlapping Middle Jurassic succession in the central and northern part of the basin complex. The sedimentary development is similar to that in the Northern North Sea and on the Norwegian shelf, and East Greenland offers important onshore analogues for virtually all of the types of deeply buried Jurassic depositional systems of these areas and especially their hydrocarbon reservoirs.

Published

2003

41. Long-term persistence of steppe vegetation in the highlands of Arasbaran protected area, northwestern Iran, as inferred from a pollen record

Author

Taravat Talebi, Hermann Behling, Kamaledin Alizadeh, Behnam Hamzeh'ee, A. Shirvany, Elias Ramezani, and Archaeology of Northwestern Europe

Subjects

010506 paleontology, NORTHERN, Climate change, Structural basin, 010502 geochemistry & geophysics, medicine.disease_cause, palaeoclimate, 01 natural sciences, law.invention, law, Pollen, Mire, HISTORY, medicine, Radiocarbon dating, vegetation history, LANDSCAPE EVOLUTION, BASIN, 0105 earth and related environmental sciences, 2. Zero hunger, Palynology, East Mediterranean, Irano-Turanian steppe, RAIN, Paleontology, 15. Life on land, Long term persistence, late Holocene, MOUNTAINS, 13. Climate action, HOLOCENE CLIMATIC-CHANGE, TURANIAN REGION, Physical geography, Protected area, SEDIMENTS, Geology, MIDDLE

Abstract

Palynological analysis and radiocarbon dating of a short sediment core from a high-altitude mire in the Arasbaran area of northwestern Iran reveals long-term vegetation dynamics, climate change and anthropogenic impact. Our findings indicate the prevalence of semi-desert steppe vegetation, with a variety of Asteraceae - mainly Lactuceae - species from 3000 to 1440 cal yr BP. This period is followed by a higher occurrence of Artemisia spp. and Brassicaceae (1440-1330 cal yr BP), a re-expansion of Lactuceae (1330-1030 cal yr BP) and Brassicaceae (1030-330 cal yr BP) and, finally, Caryophyllaceae species (since 330 cal yr BP). The reconstructed millennia-long dry climate in the highlands of northwestern Iran is in good accordance with climate reconstructions from other east Mediterranean sites. Two phases of moister conditions between 2100-1400 and 1000-350 cal yr BP would correspond to altitudinal Quercus-Carpinus forest expansion in the Arasbaran area. The earliest indication of anthropogenic activity in the area dates back to the onset of the record, around 3000 cal yr BP. The occurrence of small maxima of Juglans regia, Corylus avellana and Cornus mas pollen at around 1350 cal yr BP is interpreted to reflect a temporary expansion of fruit cultivation. For the last millennium the occurrence of pollen attributable to Polygonum, Euphorbia, Plantago and Rumex suggests a diversification of steppe vegetation, which may reflect intensified agropastoral activities in the Arasbaran highlands. Based on our pollen record, the regional vegetation in the Kalan area remained largely stable over the last three millennia. However, changes in local hydrology caused substantial changes in wetland vegetation.

Published

2020

42. The Influence of Structural Inheritance and Multiphase Extension on Rift Development, the NorthernNorth Sea

Author

Christopher A.-L. Jackson, Rob L. Gawthorpe, Jan Inge Faleide, Rebecca E. Bell, Atle Rotevatn, Haakon Fossen, Hamed Fazlikhani, Thomas Phillips, and Research Council of Norway

Subjects

Geochemistry & Geophysics, bepress|Physical Sciences and Mathematics, 010504 meteorology & atmospheric sciences, bepress|Physical Sciences and Mathematics|Earth Sciences|Tectonics and Structure, bepress|Physical Sciences and Mathematics|Earth Sciences, SHEAR ZONES, 0404 Geophysics, EarthArXiv|Physical Sciences and Mathematics|Earth Sciences, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Devonian, BASEMENT STRUCTURE, Paleontology, SCANDINAVIAN CALEDONIDES, Geochemistry and Petrology, SOUTHERN NORWAY, VIKING GRABEN, BASIN, 0105 earth and related environmental sciences, BREAK-UP, Science & Technology, structural inheritance, Rift, SALT TECTONICS, Orogeny, EVOLUTION, Cretaceous, EarthArXiv|Physical Sciences and Mathematics, Graben, NORTH-SEA, Geophysics, Basement (geology), 0403 Geology, Physical Sciences, EarthArXiv|Physical Sciences and Mathematics|Earth Sciences|Tectonics and Structure, PREEXISTING NORMAL FAULTS, North Sea, Shear zone, faulting, Geology, multiphase rifting, continental rifting

Abstract

The northern North Sea rift evolved through multiple rift phases within a highly heterogeneous crystalline basement. The geometry and evolution of syn‐rift depocenters during this multiphase evolution and the mechanisms and extent to which they were influenced by preexisting structural heterogeneities remain elusive, particularly at the regional scale. Using an extensive database of borehole‐constrained 2D seismic reflection data, we examine how the physiography of the northern North Sea rift evolved throughout late Permian‐Early Triassic (RP1) and Late Jurassic‐Early Cretaceous (RP2) rift phases, and assess the influence of basement structures related to the Caledonian orogeny and subsequent Devonian extension. During RP1, the location of major depocenters, the Stord and East Shetland basins, was controlled by favorably oriented Devonian shear zones. RP2 shows a diminished influence from structural heterogeneities, activity localizes along the Viking‐Sogn graben system and the East Shetland Basin, with negligible activity in the Stord Basin and Horda Platform. The Utsira High and the Devonian Lomre Shear Zone form the eastern barrier to rift activity during RP2. Toward the end of RP2, rift activity migrated northward as extension related to opening of the proto‐North Atlantic becomes the dominant regional stress as rift activity in the northern North Sea decreases. Through documenting the evolving syn‐rift depocenters of the northern North Sea rift, we show how structural heterogeneities and prior rift phases influence regional rift physiography and kinematics, controlling the segmentation of depocenters, as well as the locations, styles, and magnitude of fault activity and reactivation during subsequent events. publishedVersion

Published

2019

43. Elemental Composition and Organic Petrology of a Lower Carboniferous-Age Freshwater Oil Shale in Nova Scotia, Canada

Author

Hamed Sanei, Per Kent Pedersen, Fariborz Goodarzi, and Thomas Gentzis

Subjects

RARE-EARTH-ELEMENTS, General Chemical Engineering, BRITISH-COLUMBIA, UNITED-STATES, 010501 environmental sciences, Sporinite, 010502 geochemistry & geophysics, 01 natural sciences, Article, Inertinite, Lamalginite, BLACK SHALES, ASH BY-PRODUCTS, Marl, TRACE-ELEMENTS, 14. Life underwater, Vitrinite, Petrology, QD1-999, 0105 earth and related environmental sciences, BASIN, Maceral, FEED COALS, General Chemistry, 15. Life on land, 6. Clean water, Chemistry, 13. Climate action, Facies, Oil shale, GEOCHEMISTRY, Geology, SEDIMENTS

Abstract

A 59 m-thick section of a freshwater oil shale interbedded with marlstone of Lower Carboniferous (Tournaisian) age from the Big Marsh area in Antigonish Basin, Nova Scotia, Canada, was examined using reflected light microscopy, Rock-Eval pyrolysis, X-ray diffractometry analysis, inductively coupled plasma-mass spectrometry for elemental analysis, and prompt y for boron concentration. The oil shale was deposited in a lacustrine environment based on geology, sedimentology, variation in organic matter, and boron content (28-54 ppm). Organic petrology classified the oil shale into three broadly distinct types. Type A oil shale is a coastal facies shale containing terrestrially derived macerals, such as vitrinite and inertinite, sporinite, with some lamalginite, and amorphous bituminous matrix. Type B oil shale was deposited in a shallow-water facies and contains mostly lamalginite and some vitrinite and sporinite. Type C oil shale is a relatively deep-water facies, associated with open-water Torbanite-type oil shale and contains mostly Botryococcus colonial telalginite. The oil shale is thermally mature (T-max is 441-443 degrees C). Total organic carbon (TOC) varies from 5.8 to 7.3 wt %, and the hydrogen index is between 507 and 557 mg HC/g TOC. The rate of sedimentation as determined by the Th/U ratio indicates possibility of three sedimentation periods: an irregular but mostly slow rate of sedimentation from the base of the section up to 68 m, followed by a regular and slow rate between 68 and 53 m, and a regular and fast rate between 53 m and the top of the section. The higher Th/U ratio during deposition of the shallow-water facies was due to the input of allochthonous U. The redox conditions, as reflected in the variation of Cr to Mo, U, and Ni + V, indicate that the oil shale was deposited under suboxic-dysoxic conditions. The high organic productivity by phytoplankton and bacteria is characterized by a low Cr and high V/Cr ratio and suboxic conditions. In contrast, the well-oxygenated and uniform, warm-temperature upper water level supports a dysoxic environment. Variation of Sr/Ca vs Mn/Ca ratios indicates that most samples have low values, a characteristic of colder water and high terrigenous influx. The post-Archean Australian shale (PAAS)-normalized rare earth elements (REEs) follow three trends. Type A oil shale has the highest concentration of total REEs (648 ppm) and light REEs (LREEs, 605 ppm) as compared with type C (269 and 233 ppm), which are less than half of type A. Type B oil shale has the lowest total REEs (184 ppm) and LREEs (152 ppm). The concentration of heavy REEs decreased from 43 ppm in type A oil shale to 36 ppm in type C oil shale. Comparison of PAAS-normalized REEs for the three oil shale types indicates a reduction of the negative Eu anomaly with depth, which is possibly related to sedimentary sorting as a result of accumulation of fine sediments in the deeper water zone of the lake. The concentration of most elements of environmental concern is similar to and/or lower than the world shale. However, there are instances of higher concentrations of hazardous elements (e.g., As, Cd, Mo, and Se ).

Published

2019

44. Multi-model approach to quantify groundwater-level prediction uncertainty using an ensemble of global climate models and multiple abstraction scenarios

Author

Patrick Willems, Ajoy Kumar Saha, Rahena Parvin Rannu, Marijke Huysmans, Syed Md. Touhidul Mustafa, Els Van Uytven, Moudud Hasan, Hydrology and Hydraulic Engineering, and Faculty of Engineering

Subjects

010504 meteorology & atmospheric sciences, 0208 environmental biotechnology, AQUIFER, 02 engineering and technology, 01 natural sciences, lcsh:Technology, lcsh:TD1-1066, SURFACE-WATER, Earth and Planetary Sciences (miscellaneous), Life Science, Geosciences, Multidisciplinary, lcsh:Environmental technology. Sanitary engineering, BARIND AREA, Baseline (configuration management), DROUGHT, lcsh:Environmental sciences, Water Science and Technology, BASIN, 0105 earth and related environmental sciences, lcsh:GE1-350, ALTERNATIVE CONCEPTUAL MODELS, Science & Technology, lcsh:T, lcsh:Geography. Anthropology. Recreation, Geology, Representative Concentration Pathways, Groundwater recharge, CHANGE IMPACTS, 020801 environmental engineering, YIELD, lcsh:G, Sustainable management, Greenhouse gas, Physical Sciences, Sustainability, Water Resources, PARAMETER UNCERTAINTY, Environmental science, Climate model, DEPLETION, Water resource management, Groundwater

Abstract

© 2019 Author(s). Worldwide, groundwater resources are under a constant threat of overexploitation and pollution due to anthropogenic and climatic pressures. For sustainable management and policy making a reliable prediction of groundwater levels for different future scenarios is necessary. Uncertainties are present in these groundwater-level predictions and originate from greenhouse gas scenarios, climate models, conceptual hydro(geo)logical models (CHMs) and groundwater abstraction scenarios. The aim of this study is to quantify the individual uncertainty contributions using an ensemble of 2 greenhouse gas scenarios (representative concentration pathways 4.5 and 8.5), 22 global climate models, 15 alternative CHMs and 5 groundwater abstraction scenarios. This multi-model ensemble approach was applied to a drought-prone study area in Bangladesh. Findings of this study, firstly, point to the strong dependence of the groundwater levels on the CHMs considered. All groundwater abstraction scenarios showed a significant decrease in groundwater levels. If the current groundwater abstraction trend continues, the groundwater level is predicted to decline about 5 to 6 times faster for the future period 2026-2047 compared to the baseline period (1985-2006). Even with a 30% lower groundwater abstraction rate, the mean monthly groundwater level would decrease by up to 14m in the southwestern part of the study area. The groundwater abstraction in the northwestern part of Bangladesh has to decrease by 60% of the current abstraction to ensure sustainable use of groundwater. Finally, the difference in abstraction scenarios was identified as the dominant uncertainty source. CHM uncertainty contributed about 23% of total uncertainty. The alternative CHM uncertainty contribution is higher than the recharge scenario uncertainty contribution, including the greenhouse gas scenario and climate model uncertainty contributions. It is recommended that future groundwater-level prediction studies should use multi-model and multiple climate and abstraction scenarios. ispartof: HYDROLOGY AND EARTH SYSTEM SCIENCES vol:23 issue:5 pages:2279-2303 status: published

Published

2019

45. Multi-phase dolomitization and recrystallization of Middle Triassic shallow marine–peritidal carbonates from the Mecsek Mts. (SW Hungary), as inferred from petrography, carbon, oxygen, strontium and clumped isotope data

Author

Sándor Kele, Georgina Lukoczki, János Haas, Hans G. Machel, Cédric M. John, and Jay M. Gregg

Subjects

Strontium isotope, Recrystallization (geology), 010504 meteorology & atmospheric sciences, BRITISH-COLUMBIA, Stratigraphy, Dolomite, Geochemistry, 0404 Geophysics, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, SUBSEQUENT HYDROTHERMAL ALTERATION, Petrography, Geosciences, Multidisciplinary, DOLOMITE, BASIN, 0105 earth and related environmental sciences, Clumped isotope, Science & Technology, Mecsek Mts, Stable isotope ratio, TRACE-ELEMENT, Recrystallization, Geology, Stable isotope, TRANSDANUBIAN RANGE, EVOLUTION, Cretaceous, Diagenesis, Burial history, Geophysics, Dolomitization, CANADA, 0403 Geology, Paleogeography, Physical Sciences, STRATABOUND DOLOSTONE, Economic Geology, GEOCHEMISTRY, Cenozoic

Abstract

Shallow marine to peritidal carbonates of the Triassic Csukma Formation in the Mecsek Mts. of SW Hungary are made up of dolomites, limestones and dolomitic limestones that show evidence of a complex diagenetic history. Integration of petrographic, conventional stable oxygen and carbon isotope, clumped isotope, and strontium isotope data with the paleogeography, paleoclimate, and burial history of the region revealed four major diagenetic stages. Stage 1: The peritidal carbonates were dolomitized penecontemporaneously during the Middle Triassic by refluxing evaporatively concentrated brines. Stage 2: Increasing burial during the Late Triassic–Jurassic resulted in recrystallization of the Kan Dolomite Member in an intermediate burial setting. Stage 3: During the Early Cretaceous seawater was drawn down and circulated through rift-related faults, causing renewed recrystallization of the Kan Dolomite Member as well as dolomitization of the Kozar Limestone Member and the underlying limestones in a deep burial setting, but only in the vicinity of the faults. Stage 4: During the Late Cretaceous and Cenozoic thrusting resulted in tectonic expulsion of basinal fluids and precipitation of multiple saddle dolomite cement phases near the faults. The results of this study imply that the clumped isotope method integrated with other geochemical data can successfully be applied to identify the nature and potential sources of extra-formational diagenetic fluids responsible for dolomitization and recrystallization. This study provides conclusive evidence for multi-phase dolomitization and dolomite recrystallization over several millions of years (Middle Triassic through Early Cretaceous) and several thousands of meters of burial in the Csukma Formation in SW Hungary. Furthermore, this study is the first to identify fault-controlled dolomitization by circulating Cretaceous seawater within Triassic carbonates of central Europe, further supporting the viability of the interpretation of dolomitization by seawater initially drawn down and then geothermally circulated through faults in extensional basins.

Published

2019

46. 3D reconstruction of the Lapis Tiburtinus (Tivoli, Central Italy): The control of climatic and sea-level changes on travertine deposition

Author

Alessandro Mancini, Rudy Swennen, Giovanna Della Porta, and Enrico Capezzuoli

Subjects

Pleistocene, climate changes, Climate change, LATE PLEISTOCENE, DEFORMATION, travertine, 3D modelling, base-level fluctuations, Central Italy, Lapis Tiburtinus, CENTRAL APENNINES, Geosciences, Multidisciplinary, Sea level, BASIN, RAPOLANO-TERME, FACIES CHARACTER, ARCHITECTURE, Science & Technology, SPRING TRAVERTINES, ORIGIN, Geology, Physical Sciences, Physical geography, Deposition (chemistry), FAULT

Abstract

ispartof: BASIN RESEARCH vol:33 issue:5 pages:2605-2635 status: published

Published

2021

47. The impact of facies variability within the Harwich Formation on ground engineering in the London area, UK

Author

Jacqueline Skipper, Philippa J. Mason, J.A. Lawrence, R. C. Ghail, Justyna Edgar, EPRSC CDT in Sustainable Civil Engineering.and Skempton Scholarship. Concept, and Geotechnical Consulting Group (GCG).

Subjects

Technology, 0211 other engineering and technologies, Borehole, 02 engineering and technology, 010502 geochemistry & geophysics, DEPOSITS, Geological & Geomatics Engineering, 01 natural sciences, 0905 Civil Engineering, Sequence (geology), Engineering, Mining engineering, Earth and Planetary Sciences (miscellaneous), Engineering, Geological, Geosciences, Multidisciplinary, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, BASIN, WATER RING MAIN, Science & Technology, LITHOSTRATIGRAPHICAL CLASSIFICATION, Geology, Geotechnical Engineering and Engineering Geology, REVISION, Pipeline transport, Facies, Physical Sciences, EARLY PALEOGENE STRATA, 0406 Physical Geography and Environmental Geoscience

Abstract

The Eocene Harwich Formation, underlying the Greater London (UK) area, presents many construction problems for design and location of tunnels, pipelines and other engineering infrastructure projects. Variable deposits make up the sequence of the Harwich Formation. These include cemented fault zones, hard grounds, loose gravel and sand that, when unexpectedly encountered, can cause construction delays and increase costs. Here, we interpret borehole cores and logs, and in situ observations coupled with borehole-derived samples, and calculate particle-size distributions to develop a general facies model that accounts for the lithological distribution within the Harwich Formation. This provides an improved geological framework for proposed subsurface construction that can reduce inherent engineering uncertainties, not only in the London region but potentially also in other similar geological environments.

Published

2021

48. Stratigraphic relationships in Jezero crater, Mars: constraints on the timing of fluvial‐lacustrine activity from orbital observations

Author

Kjartan M. Kinch, K. M. Stack, Ryan B. Anderson, J. Knade, Linda C. Kah, William Abbey, Ernst Hauber, Vivian Z. Sun, Fred Calef, S. Holm-Alwmark, N. B. Miklusicak, S. Shahrzad, Briony Horgan, J. D. Tarnas, C. Quantin-Nataf, Sanjeev Gupta, K. Svennevig, M Hansen, UK Space Agency, Laboratoire de Géologie de Lyon - Terre, Planètes, Environnement (LGL-TPE), École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Institut national des sciences de l'Univers (INSU - CNRS)-Université Jean Monnet - Saint-Étienne (UJM)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Delta, SURFACE, Fluvial, Mars, Structural basin, DEPOSITS, VALLEYS, Deposition (geology), HRSC, Paleontology, delta, Jezero crater, Impact crater, FLUID TRANSPORT, Geochemistry and Petrology, 0201 Astronomical and Space Sciences, Earth and Planetary Sciences (miscellaneous), Assemblage (archaeology), 0402 Geochemistry, NETWORK, EROSION RATES, BASIN, DELTA, ORIGIN, Mars 2020, sedimentology, stratigraphy, Mars Exploration Program, Geophysics, Stratigraphy, ROCKS, 0403 Geology, [SDU]Sciences of the Universe [physics], Space and Planetary Science, rover, Geology

Abstract

International audience; On February 18, 2021 NASA's Perseverance rover landed in Jezero crater, located at the northwestern edge of the Isidis basin on Mars. The uppermost surface of the present-day crater floor is dominated by a distinct geologic assemblage previously referred to as the dark-toned floor. It consists of a smooth, dark-toned unit overlying and variably covering light-toned, roughly eroded deposits showing evidence of discrete layers. In this study, we investigated the stratigraphic relations between materials that comprise this assemblage, the main western delta deposit, as well as isolated mesas located east of the main delta body that potentially represent delta remnants. A more detailed classification and differentiation of crater floor units in Jezero and determination of their relative ages is vital for the understanding of the geologic evolution of the crater system, and determination of the potential timeline and environments of habitability. We have investigated unit contacts using topographic profiles and DEMs as well as the distribution of small craters and fractures on the youngest portions of the crater floor. Our results indicate that at least some of the deltaic deposition in Jezero postdates emplacement of the uppermost surface of the crater floor assemblage. The inferred age of the floor assemblage can therefore help to constrain the timing of the Jezero fluviolacustrine system, wherein at least some lake activity postdates the age of the uppermost crater floor. We present hypotheses that can be tested by Perseverance and can be used to advance our knowledge of the geologic evolution of the area.

Published

2021

49. Seismic Noise Autocorrelations on Mars

Author

Raphaël F. Garcia, Nicholas Schmerr, Martin Schimmel, Philippe Lognonné, Mark P. Panning, Brigitte Knapmeyer-Endrun, Mélanie Drilleau, Benoit Tauzin, John Robert Scholz, Aymeric Spiga, Paul M. Davis, Vedran Lekic, Nicolas Compaire, Bruce Banerdt, Ludovic Margerin, Eléonore Stutzmann, Do-Yeon Kim, Institut de Physique du Globe de Paris (IPGP (UMR_7154)), Institut national des sciences de l'Univers (INSU - CNRS)-Université de La Réunion (UR)-Institut de Physique du Globe de Paris (IPG Paris)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Institut Supérieur de l'Aéronautique et de l'Espace (ISAE-SUPAERO), Institut de recherche en astrophysique et planétologie (IRAP), Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire Midi-Pyrénées (OMP), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS), Laboratoire de Météorologie Dynamique (UMR 8539) (LMD), Institut national des sciences de l'Univers (INSU - CNRS)-École polytechnique (X)-École des Ponts ParisTech (ENPC)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Département des Géosciences - ENS Paris, École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), ANR-19-CE31-0008,MAGIS,MArs Geophysical InSight(2019), Institut de Physique du Globe de Paris (IPGP), Institut national des sciences de l'Univers (INSU - CNRS)-IPG PARIS-Université de La Réunion (UR)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Institut national des sciences de l'Univers (INSU - CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Observatoire Midi-Pyrénées (OMP), Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Centre National de la Recherche Scientifique (CNRS), École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École normale supérieure - Paris (ENS Paris), Ministerio de Ciencia, Innovación y Universidades (España), Generalitat de Catalunya, Centre National de la Recherche Scientifique (France), Schimmel, Martin, and Schimmel, Martin [0000-0003-2601-4462]

Subjects

Seismometer, 010504 meteorology & atmospheric sciences, [SDU.STU.GP]Sciences of the Universe [physics]/Earth Sciences/Geophysics [physics.geo-ph], Astronomy, Greens-Function, QB1-991, Extraction, Environmental Science (miscellaneous), Seismic noise, 010502 geochemistry & geophysics, 01 natural sciences, Basin, Receiver Functions, Planet, 0105 earth and related environmental sciences, QE1-996.5, Geology, Zone, Mars Exploration Program, Rayleigh-Wave Ellipticity, Crust, 13. Climate action, Extraterrestrial life, General Earth and Planetary Sciences, Seismology

Abstract

Mars is the first extraterrestrial planet with seismometers (Seismic Experiment for Interior Structure, SEIS) deployed directly on its surface in the framework of the Interior Exploration using Seismic Investigations, Geodesy and Heat Transport (InSight) mission. The lack of strong Marsquakes, however, strengthens the need of seismic noise studies to additionally constrain the Martian structure. Seismic noise autocorrelations of single-station recordings permit the determination of the zero-offset reflection response underneath SEIS. We present a new autocorrelation study which employs state-of-the-art approaches to determine a robust reflection response by avoiding bias from aseismic signals which are recorded together with seismic waves due to unfavorable deployment and environmental conditions. Data selection and segmentation is performed in a data-adaptive manner which takes the data root-mean-square amplitude variability into account. We further use the amplitude-unbiased phase cross-correlation and work in the 1.2-8.9 Hz frequency band. The main target are crustal scale reflections, their robustness and convergence. The strongest signal appears at 10.6 s, and, if interpreted as a P-wave reflection, would correspond to a discontinuity at about 21 km depth. This signal is a likely candidate for a reflection from the base of the Martian crust due to its strength, polarity, and stability. Additionally we identify, among the stable signals, a signal at about 6.15 s that can be interpreted as the P-wave reflection from the mid-crust at about 9.5 km depth., This is the InSight contribution number 144 and IPGP contribution number 4215. French authors are supported by ANR MAGIS (ANR-19-CE31-0008-08) and by CNES SEIS/InSight Phase E2. MS thanks SANIMS (RTI2018-095594-B-I00), Generalitat de Catalunya (2017SGR1022), and invitations for research stays at IPGP.

Published

2021

50. Hominin homelands of East Java: Revised stratigraphy and landscape reconstructions for Plio-Pleistocene Trinil

Author

Eduard Pop, Shinatria Adhityatama, A. Veldkamp, Josephine C.A. Joordens, Truman Simanjuntak, Jeroen M. Schoorl, Sander L. Hilgen, H.W.K. Berghuis, Hubert B. Vonhof, Dian Rahayu Ekowati, Thijs van Kolfschoten, Indra Sutisna, Tony Reimann, Didit Hadi Barianto, Dida Yurnaldi, RS: FSE, FSE Centraal, UT-I-ITC-FORAGES, Department of Natural Resources, Faculty of Geo-Information Science and Earth Observation, and Geology and Geochemistry

Subjects

Archeology, Vertebrate palaeontology, 010504 meteorology & atmospheric sciences, Stratigraphy, Fluvial, QUATERNARY, 01 natural sciences, Solo River, INDONESIA, Headward erosion, SDG 13 - Climate Action, Climate change, SOUTHEAST-ASIA, SEDIMENTATION, Global and Planetary Change, HOMO-ERECTUS, biology, Geology, Plio-Pleistocene, Sedimentology, PE&RC, Pleistocene, Soil Geography and Landscape, Homo erectus, 010506 paleontology, Sundaland, PLEISTOCENE, Context (language use), FORAMINIFERAL BIOSTRATIGRAPHY, Sedimentary depositional environment, ITC-HYBRID, Paleontology, Volcanism, SDG 14 - Life Below Water, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Sea-level changes, BASIN, biology.organism_classification, Bodemgeografie en Landschap, ITC-ISI-JOURNAL-ARTICLE, VOLCANIC ARC, ENVIRONMENTS

Abstract

Trinil (Java, Indonesia) yielded the type fossils of Homo erectus and the world?s oldest hominin-made engraving. As such, the site is of iconic relevance for paleoanthropology. However, our understanding of its larger geological context is unsatisfactory. Previous sedimentological studies are around 100 years old and their interpretations sometimes contradictory. Moreover, the existing stratigraphic framework is based on regional correlations, which obscure differences in local depositional dynamics. Therefore, a new and more local framework is urgently needed. We carried out a comprehensive geological study of the Trinil area. Using a Digital Elevation Model, we identified seven fluvial terraces. Terrace deposits were described and OSL-dated and fluvial behaviour was reconstructed. The terraces were correlated with terraces of the Kendeng Hills (e.g. the hominin-bearing Ngandong terrace) and date back to the past -350 ka. Thus far, most of the Trinil terraces and their deposits had remained unidentified, confounding sedimentological and stratigraphic interpretations. The exposed pre-terrace series has a thickness of -230 m. Together with the terraces, it forms a -3 Ma record of tectonism, volcanism, climate change and sea-level fluctuations. We subdivided the series into five new and/or revised stratigraphic units, representing different depositional environments: Kalibeng Formation, Padas Malang Formation, Batu Gajah Formation, Trinil Formation and Solo Formation. Special attention was paid to erosional contacts and weathering profiles, forming hiatuses in the depositional series, and offering insight into paleoclimate and base-level change. The Trinil Formation provides a new landscape context of Homo erectus. Between -550 and 350 ka, the area was part of a lake basin (Ngawi Lake Basin), separated from the marine base level by a volcanic barrier, under dry, seasonal conditions and a regular supply of volcanic ash. An expanding and retreating lake provided favourable living conditions for hominin populations. After 350 ka, this role was taken over by the perennial Solo River. Landscape reconstructions suggest that the Solo formed by headward erosion and stream piracy, re-connecting the Ngawi Lake Basin to the plains in the west. Our study offers a local framework, but its Pleistocene landscape record has regional significance. Most of all, it forms a much-needed basis for future, detailed studies on the build-up of the hominin site of Trinil, its fossil assemblages and numerical ages. (c) 2021 The Author(s). Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).

Published

2021