55 research outputs found
Post-rift sequence architecture and stratigraphy in the Oligo-Miocene Sardinia rift (Western Mediterranean Sea)
Rift basins provide important sedimentary archives to reconstruct past tectonic and climatic conditions. Understanding their sedimentary history is, however, largely hampered by the competing influence of tectonic versus climatic forcing. The aim of this study is to comprehend the effects of local to regional tectonic and global climatic/eustatic changes on shallow marine depositional systems in the Sardinia Rift (Western Mediterranean Sea). For this purpose the stratigraphic and depositional relations of a mixed siliciclastic-carbonate ramp at the Porto Torres Basin margin were studied along extensive proximal to distal transects. Three depositional sequences (DS1 to DS3) of late Burdigalian to early Serravallian age have been identified, which are separated by erosional unconformities. Each contains a lower trans- gressive part and an upper regressive part. The former includes shoreface sandstone (DS2) or coral reef (DS3) deposits on the proximal ramp and channelized sheet sandstone (DS1) or basinal mudstone (DS2, DS3) deposits on the distal ramp, typically recording an upsection trend of sediment starvation. The latter is represented by basinward-prograding coralline red algal carbonate wedges due to enhanced shallow water carbonate production rates. In the long term, the depositional evolution from DS1 to DS3 reveals basin margin progradation associated with decreasing siliciclastic supply. Integrated calcareous nannoplankton-foraminiferal-pectinid biostratigraphy links the depositional sequences to third-order sea-level cycles and allows to correlate the erosional unconformities at the top of DS1 and DS2 with the Bur 5/Lan 1 and Lan 2/Ser 1 sequence boundaries. The improved sequence stratigraphic framework enables better regional and global correlations. This shows that rhodalgal carbonate slopes started prograding in the western branch of the Sardinia Rift during the late Burdigalian because (1) of a worldwide bloom of rhodalgal facies, and (2) decreasing tectonic activity at the transition from the syn- rift to the post-rift stage caused a continuous reduction of the siliciclastic sediment input
Coastal landscape evolution in the Wilpattu National Park (NW Sri Lanka) linked to changes in sediment supply and rainfall across the Pleistocene–Holocene transition
Coastal sand dunes are sediment archives which can be used to reconstruct periods of aridity and humidity, past wind strength and variations in the sediment supply related to sea-level changes. In this manner, the sedimentary record of fossil coastal dunes in Sri Lanka provides evidence for environmental and climatic changes during the late Pleistocene and Holocene. As yet, these environmental shifts are poorly resolved because the sedimentary facies and their depositional architecture have not been studied and only very few age constraints are available. Facies analysis of a lithological section at the Point Kurdimalai sea cliff in the Wilpattu National Park (NW Sri Lanka) reveals a striking resemblance to the stratigraphic succession associated with the Teri Sands in southeastern India, which is better dated. The reason is that deposition occurred under the same geological, climatic and geomorphological conditions in the two regions. This special situation allows for litho- and climate stratigraphic correlations across the Gulf of Mannar and links the landscape evolution at Point Kudrimalai to late Quaternary climatic events and sea-level changes. Our results show that the formation of red coastal dunes (Red Beds) in Sri Lanka was a multi-phase process across the Pleistocene–Holocene boundary and hence the differentiation between an Older Group of Plio-Pleistocene age (including the Red Beds) and a Younger Group of Holocene age in the Quaternary stratigraphic chart for Sri Lanka is not justified
Thermal radiation dominated heat transfer in nanomechanical silicon nitride drum resonators
Nanomechanical silicon nitride (SiN) drum resonators are currently employed
in various fields of applications that arise from their unprecedented frequency
response to physical quantities. In the present study, we investigate the
thermal transport in nanomechanical SiN drum resonators by analytical
modelling, computational simulations, and experiments for a better
understanding of the underlying heat transfer mechanism causing the thermal
frequency response. Our analysis indicates that radiative heat loss is a
non-negligible heat transfer mechanism in nanomechanical SiN resonators
limiting their thermal responsivity and response time. This finding is
important for optimal resonator designs for thermal sensing applications as
well as cavity optomechanics.Comment: 8 pages, 4 figures in main text, 3 figures in supplementar
Professionalization and organizational problems of sports clubs: Is there a relationship?
Sports clubs have been reporting several organizational problems in recent decades (e.g., recruitment and retention of members and volunteers). At the same time, certain sports clubs have professionalized their strategies, structures, processes, and staff. However, previous research has not analyzed whether the professionalization of sports clubs is related to their organizational problems. Therefore, this study conducts, in the first step, a cluster analysis based on three dimensions of professionalization to identify professionalization types among sports clubs. In the second step, it examines differences in organizational problems among the identified professionalization types. The main findings are that (1) sports clubs with paid staff report fewer problems with recruiting and retaining members but more problems with finances than sports clubs that rely on voluntary work, and (2) sports clubs with increased professionalization of human resources management (HRM) and strategy have fewer problems with recruiting and retaining board members and coaches than sports clubs with low professionalization of HRM and strategy. These results show that professionalized sports clubs have different, but not necessarily fewer, organizational problems
A Comparison of Smart City Development and Big Data Analytics Adoption Approaches.
This paper intends to elucidate the similarities between smart city development and big data analytics
adoption. Both concepts promise new opportunities: smart cities to improve citizens’ life quality and big data
analytics to drive companies towards the competitive edge. Consequently, the number of organisational big
data initiatives and efforts to implement smart city concepts are increasing. In the context of big data analytics
adoption, it could be shown that there are two distinct approaches companies follow. They either focus on the
search for potential use cases or on the development of a technology infrastructure. Based on a comparison
of various smart city and big data analytics use cases, this paper discloses that both of these approaches either
concentrate on developing new service development or providing the required infrastructures for future
services
High-rate, high-resolution single photon X-ray imaging: Medipix4, a large 4-side buttable pixel readout chip with high granularity and spectroscopic capabilities
The Medipix4 chip is the latest member in the Medipix/Timepix family of
hybrid pixel detector chips aimed at high-rate spectroscopic X-ray imaging
using high-Z materials. It can be tiled on all 4 sides making it ideal for
constructing large-area detectors with minimal dead area. The chip is designed
to read out a sensor of 320 x 320 pixels with dimensions of 75 {\mu}m x 75
{\mu}m or 160 x 160 pixels with dimensions of 150 {\mu}m x 150 {\mu}m. The
readout architecture features energy binning of the single photons, which
includes charge sharing correction for hits with energy spread over adjacent
pixels. This paper presents the specifications, architecture, and circuit
implementation of the chip, along with the first electrical measurements
Control of Mitochondrial Membrane Permeabilization by Adenine Nucleotide Translocator Interacting with HIV-1 Viral Protein R and Bcl-2
Viral protein R (Vpr), an apoptogenic accessory protein encoded by HIV-1, induces mitochondrial membrane permeabilization (MMP) via a specific interaction with the permeability transition pore complex, which comprises the voltage-dependent anion channel (VDAC) in the outer membrane (OM) and the adenine nucleotide translocator (ANT) in the inner membrane. Here, we demonstrate that a synthetic Vpr-derived peptide (Vpr52-96) specifically binds to the intermembrane face of the ANT with an affinity in the nanomolar range. Taking advantage of this specific interaction, we determined the role of ANT in the control of MMP. In planar lipid bilayers, Vpr52-96 and purified ANT cooperatively form large conductance channels. This cooperative channel formation relies on a direct protein–protein interaction since it is abolished by the addition of a peptide corresponding to the Vpr binding site of ANT. When added to isolated mitochondria, Vpr52-96 uncouples the respiratory chain and induces a rapid inner MMP to protons and NADH. This inner MMP precedes outer MMP to cytochrome c. Vpr52-96–induced matrix swelling and inner MMP both are prevented by preincubation of purified mitochondria with recombinant Bcl-2 protein. In contrast to König's polyanion (PA10), a specific inhibitor of the VDAC, Bcl-2 fails to prevent Vpr52-96 from crossing the mitochondrial OM. Rather, Bcl-2 reduces the ANT–Vpr interaction, as determined by affinity purification and plasmon resonance studies. Concomitantly, Bcl-2 suppresses channel formation by the ANT–Vpr complex in synthetic membranes. In conclusion, both Vpr and Bcl-2 modulate MMP through a direct interaction with ANT
Coastal landscape evolution in the Wilpattu National Park (NW Sri Lanka) linked to changes in sediment supply and rainfall across the Pleistocene–Holocene transition
Coastal sand dunes are sediment archives which can be used to reconstruct periods of aridity and humidity, past wind strength and variations in the sediment supply related to sea-level changes. In this manner, the sedimentary record of fossil coastal dunes in Sri Lanka provides evidence for environmental and climatic changes during the late Pleistocene and Holocene. As yet, these environmental shifts are poorly resolved because the sedimentary facies and their depositional architecture have not been studied and only very few age constraints are available. Facies analysis of a lithological section at the Point Kurdimalai sea cliff in the Wilpattu National Park (NW Sri Lanka) reveals a striking resemblance to the stratigraphic succession associated with the Teri Sands in southeastern India, which is better dated. The reason is that deposition occurred under the same geological, climatic and geomorphological conditions in the two regions. This special situation allows for litho- and climate stratigraphic correlations across the Gulf of Mannar and links the landscape evolution at Point Kudrimalai to late Quaternary climatic events and sea-level changes. Our results show that the formation of red coastal dunes (Red Beds) in Sri Lanka was a multi-phase process across the Pleistocene–Holocene boundary and hence the differentiation between an Older Group of Plio-Pleistocene age (including the Red Beds) and a Younger Group of Holocene age in the Quaternary stratigraphic chart for Sri Lanka is not justified
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