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Beagle Rupes â evidence for a basal decollement of regional extent in Mercury's lithosphere
Thanks to its location at low latitude and close to the terminator in the outbound view of Mercury obtained during MESSENGER's first flyby, the Beagle Rupes lobate scarp on Mercury has been particularly clearly imaged. This enables us to interpret it as a component of a linked fault system, consisting of a frontal scarp terminated by transpressive lateral ramps. The terrain bounded by these surface manifestations of faulting is the hanging-wall block of a thrust sheet and must be underlain by a basal decollement (a detachment horizon) constituting the fault zone at depth. The decollement must extend a minimum of 150 km eastwards from the frontal scarp, and at least 400 km if displacement is transferred to features interpreted as out-of-sequence thrusts and offset lateral ramps that appear to continue the linked fault system to the east. The depth of the basal decollement could be controlled by crustal stratigraphy or by rheological change within, or at the base of, the lithosphere. Previous interpretations of mercurian lobate scarps regard their thrusts as uniformly dipping and dying out at depth, lacking lateral ramps and any extensive detachment horizon. Anticipated improvements in image resolution and lighting geometry should make it possible to document what percentage of lobate scarps share the Beagle Rupes style of tectonics
Late movement of basin-edge lobate scarps on Mercury
Basin-edge lobate scarps are a sub-type of tectonic shortening structure on the surface of Mercury that have formed at the edge of volcanic units that fill or partly fill impact basins. We have performed a global survey of these features and find that they are widespread in basins across the planet. We obtained model ages from crater sizeâfrequency distribution analysis for a subset of our surveyed basins, for both the smooth plains infill and for the last resolvable tectonic activity on the associated basin-edge scarps. Our results indicate that some of these lobate scarps were still accumulating strain in the late Mansurian (approximately 1 Ga). From a photogeological assessment, we find that the orientations of these basin-edge lobate scarps are similar to those reported for the global population of lobate scarps in earlier studies, appearing to align âŒnorthâsouth at low latitudes and âŒeastâwest at higher latitudes. However, reassessing these landformsâ orientation with artificially illuminated topographic data does not allow us to rule out the effect of illumination bias. We propose that these landforms, the result of crustal shortening in response to global contraction, formed along the interface between the basin floor and the smooth plains unit, which acted as a mechanical discontinuity along which shortening strains were concentrated
3D Extension at Plate Boundaries Accommodated by Interacting Fault Systems
Complex patterns of normal faults with multiple orientations and/or highly curved shapes have been traditionally explained by successive tectonic phases of 2-dimensional deformation. Alternatively, multiple fault sets have been proposed to develop simultaneously and in orthorhombic symmetry during a single phase of 3-dimensional deformation. We use analogue models of normal faults to demonstrate that, without the influence of pre-existing structures, 3D extension is preferentially accommodated by the alternate, rather than simultaneous, development of faults with different trends. By means of stress-driven interactions, 3D deformation can be partitioned into coupled systems of normal faults, which display geometries commonly observed in tectonic settings affected by interacting plate boundaries. Under radial extension, deformation is accommodated by major curvilinear grabens coupled with minor perpendicular faults, resulting in the triple junctions of grabens observed in Afar. On the other hand, the alternate development of perpendicular faults accommodates synchronous bi-directional and mutually perpendicular extension, giving the same fault pattern observed in the Barents Sea rift-shear margin
3D extension at plate boundaries accommodated by interacting fault systems
Complex patterns of normal faults with multiple orientations and/or highly curved shapes have been traditionally explained by successive tectonic phases of 2-dimensional deformation. Alternatively, multiple fault sets have been proposed to develop simultaneously and in orthorhombic symmetry during a single phase of 3-dimensional deformation. We use analogue models of normal faults to demonstrate that, without the influence of pre-existing structures, 3D extension is preferentially accommodated by the alternate, rather than simultaneous, development of faults with different trends. By means of stress-driven interactions, 3D deformation can be partitioned into coupled systems of normal faults, which display geometries commonly observed in tectonic settings affected by interacting plate boundaries. Under radial extension, deformation is accommodated by major curvilinear grabens coupled with minor perpendicular faults, resulting in the triple junctions of grabens observed in Afar. On the other hand, the alternate development of perpendicular faults accommodates synchronous bi-directional and mutually perpendicular extension, giving the same fault pattern observed in the Barents Sea rift-shear margin
A sensitivity study of triboson production processes to dimension-6 EFT operators at the LHC
We present the first parton-level study of anomalous effects in triboson production in both fully and semi-leptonic channels in proton-proton collisions at 13TeV at the Large Hadron Collider (LHC). The sensitivity to anomalies induced by a minimal set of bosonic dimension-6 operators from the Warsaw basis is evaluated with specific analyses for each final state. A likelihood-based strategy is employed to assess the most sensitive kinematic observables per channel, where the contribution of Effective Field Theory operators is parameterized at either the linear or quadratic level. The impact of the mutual interference terms of pairs of operators on the sensitivity is also examined. This benchmark study explores the complementarity and overlap in sensitivity between different triboson measurements and paves the way for future analyses at the LHC experiments. The statistical combination of the considered final states allows setting stringent bounds on five bosonic Wilson coefficients
Recent Advances in the Development of Biomimetic Materials
: In this review, we focused on recent efforts in the design and development of materials with biomimetic properties. Innovative methods promise to emulate cell microenvironments and tissue functions, but many aspects regarding cellular communication, motility, and responsiveness remain to be explained. We photographed the state-of-the-art advancements in biomimetics, and discussed the complexity of a "bottom-up" artificial construction of living systems, with particular highlights on hydrogels, collagen-based composites, surface modifications, and three-dimensional (3D) bioprinting applications. Fast-paced 3D printing and artificial intelligence, nevertheless, collide with reality: How difficult can it be to build reproducible biomimetic materials at a real scale in line with the complexity of living systems? Nowadays, science is in urgent need of bioengineering technologies for the practical use of bioinspired and biomimetics for medicine and clinics
Somatostatin analogs for gastric carcinoids : for many, but not all
Gastric carcinoids (GCs) are classified as: type I, related to hypergastrinemia due to chronic atrophic gastritis (CAG), type II, associated with Zollinger-Ellison syndrome in multiple endocrine neoplasia type 1, and type III, which is normogastrinemic. The management of type-I gastric carcinoids (GC1s) is still debated, because of their relatively benign course. According to the European Neuroendocrine Tumor Society guidelines endoscopic resection is indicated whenever possible; however, it is not often feasible because of the presence of a multifocal disease, large lesions, submucosal invasion or, rarely, lymph node involvement. Therefore, somatostatin analogs (SSAs) have been proposed as treatment for GC1s in view of their antisecretive, antiproliferative and antiangiogenic effects. However, in view of the high cost of this therapy, its possible side effects and the relatively benign course of the disease, SSAs should be reserved to specific subsets of "high risk patients", i.e. , those patients with multifocal or recurrent GCs. Indeed, it is reasonable that, after the development of a gastric neuroendocrine neoplasm in patients with a chronic predisposing condition (such as CAG), other enterochromaffin-like cells can undergo neoplastic proliferation, being chronically stimulated by hypergastrinemia. Therefore, definite indications to SSAs treatment should be established in order to avoid the undertreatment or overtreatment of GCs
The Cratering History of Asteroid (21) Lutetia
The European Space Agency's Rosetta spacecraft passed by the main belt
asteroid (21) Lutetia the 10th July 2010. With its ~100km size, Lutetia is one
of the largest asteroids ever imaged by a spacecraft. During the flyby, the
on-board OSIRIS imaging system acquired spectacular images of Lutetia's
northern hemisphere revealing a complex surface scarred by numerous impact
craters, reaching the maximum dimension of about 55km. In this paper, we assess
the cratering history of the asteroid. For this purpose, we apply current
models describing the formation and evolution of main belt asteroids, that
provide the rate and velocity distributions of impactors. These models, coupled
with appropriate crater scaling laws, allow us to interpret the observed crater
size-frequency distribution (SFD) and constrain the cratering history. Thanks
to this approach, we derive the crater retention age of several regions on
Lutetia, namely the time lapsed since their formation or global surface reset.
We also investigate the influence of various factors -like Lutetia's bulk
structure and crater obliteration- on the observed crater SFDs and the
estimated surface ages. From our analysis, it emerges that Lutetia underwent a
complex collisional evolution, involving major local resurfacing events till
recent times. The difference in crater density between the youngest and oldest
recognized units implies a difference in age of more than a factor of 10. The
youngest unit (Beatica) has an estimated age of tens to hundreds of Myr, while
the oldest one (Achaia) formed during a period when the bombardment of
asteroids was more intense than the current one, presumably around 3.6Gyr ago
or older.Comment: Accepted by PSS, to appear on Lutetia Flyby special issu
Mapping and Monitoring Urban Environment through Sentinel-1 SAR Data: A Case Study in the Veneto Region (Italy)
Focusing on a sustainable and strategic urban development, local governments and public
administrations, such as the Veneto Region in Italy, are increasingly addressing their urban and
territorial planning to meet national and European policies, along with the principles and goals of
the 2030 Agenda for the Sustainable Development. In this regard, we aim at testing a methodology
based on a semi-automatic approach able to extract the spatial extent of urban areas, referred to as
\u201curban footprint\u201d, from satellite data. In particular, we exploited Sentinel-1 radar imagery through
multitemporal analysis of interferometric coherence as well as supervised and non-supervised
classi\ufb01cation algorithms. Lastly, we compared the results with the land cover map of the Veneto
Region for accuracy assessments. Once properly processed and classi\ufb01ed, the radar images resulted
in high accuracy values, with an overall accuracy ranging between 85% and 90% and percentages of
urban footprint di\ufb00ering by less than 1%\u20132% with respect to the values extracted from the reference
land cover map. These results provide not only a reliable and useful support for strategic urban
planning and monitoring, but also potentially identify a solid organizational data\ufb02ow process to
prepare geographic indicators that will help answering the needs of the 2030 Agenda (in particular
the goal 11 \u201cSustainable Cities and Communities\u201d)
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