The role of tectonic inheritance during multiphase rifting: insights from analogue model experiments

2021 ◽  
Author(s):  
Guido Schreurs ◽  
Mario Bühler
Keyword(s):  
Strike Slip ◽  
Normal Faults ◽  
Second Phase ◽  
Linear Segment ◽  
Relative Order ◽  
Tectonic Inheritance ◽  
Oblique Rifting ◽  
Two Phases ◽  
Fault Evolution

<p>Rift systems worldwide are influenced by pre-existing crustal or lithospheric structures. Here, we use brittle-viscous analogue models to examine the role of tectonic inheritance on fault evolution during two non-coaxial rift phases. In our experiments the tectonic inheritance is a linear crustal weakness zone consisting of two offset and parallel linear segments connected by a central oblique linear segment. The first phase of rifting is either orthogonal and followed by a second phase of oblique rifting or vice versa.</p><p> </p><p>The experiments reveal that the tectonic inheritance localizes initial faulting during early rifting, with faults in the domains away from it forming later. The nature and orientation of early faults depends on first-phase rift obliquity, with a progressive switch from dip-slip dominated faulting to strike-slip dominated faulting with increasing obliquity, even resulting in local transpressional structures at very high rift obliquities. First-phase rift structures, in particular those above the tectonic inheritance, exert an important control on the overall fault geometry during the second phase of rifting. Our experiments show that two-phase rifting results in fault patterns evolving by the formation of second-phase new faults and the reactivation of first-phase faults.  Irrespective of the order of the applied two phases of non-coaxial rifting and the difference in rift obliquity angle between the two phases, a major rift (master rift) forms above the tectonic inheritance, underlining its strong control on fault evolution despite markedly different multiphase rift histories.</p><p> </p><p>Nevertheless, close inspection of the master rift reveals differences related to the relative order of the two rift phases: (i) Oblique rifting superseding orthogonal rifting results in a major master rift, whose rift-boundary faults are not reactivated during second-phase rifting. Instead, first-phase intra-rift normal faults are being reactivated with an important strike-slip component of displacement.</p><p>Above the oblique segment of the tectonic inheritance, first-phase en echelon intra-rift normal faults are mostly reactivated and propagate along strike reorienting their tips into high angles to the local principal stretching direction (ii) Orthogonal rifting overprinting oblique rifting, on the other hand, produces first-phase strike-slip faults that link up and trend (sub)-parallel to later formed rift-boundary faults and intra-rift normal faults.</p><p> </p><p>Away from the tectonic inheritance faults have more freedom to evolve in response to the regional rift obliquity, and although they may reactivate, propagate sideways and slightly reorient their fault tips during the second phase of rifting, their trend at the end of the second-phase of rifting with respect to the orientation of the master rift reflects whether first-phase rifting was orthogonal or oblique. Our model results can be used to assess the influence of tectonic inheritance on faulting, the relative order of rifting and the relative difference in obliquity in natural settings that have undergone two phases of rifting.</p>

scholarly journals Superposition of two kinematically distinct extensional phases in southern Death Valley: Implications for extensional tectonics

Geosphere ◽  
2021 ◽  
Author(s):  
Z.D. Fleming ◽  
T.L. Pavlis ◽  
S. Canalda
Keyword(s):  
Early Period ◽  
Rock Avalanche ◽  
Strike Slip ◽  
Death Valley ◽  
Normal Faults ◽  
Geologic Mapping ◽  
The North ◽  
Transcurrent Deformation ◽  
Two Phases

Geologic mapping in southern Death Valley, California, demonstrates Mesozoic contractional structures overprinted by two phases of Neogene extension and contemporaneous strike-slip deformation. The Mesozoic folding is most evident in the middle unit of the Noonday Formation, and these folds are cut by a complex array of Neogene faults. The oldest identified Neogene faults primarily displace Neoproterozoic units as young as the Johnnie Formation. However, in the northernmost portion of the map area, they displace rocks as young as the Stirling Quartzite. Such faults are seen in the northern Ibex Hills and con­sist of currently low- to moderate-angle, E-NE– dipping normal faults, which are folded about a SW-NE–trending axis. We interpret these low-angle faults as the product of an early, NE-SW extension related to kinematically similar deformation recognized to the south of the study area. The folding of the faults postdates at least some of the extension, indicating a component of syn-exten­sional shortening that is probably strike-slip related. Approximately EW-striking sinistral faults are mapped in the northern Saddlepeak Hills. However, these faults are kinematically incompatible with the folding of the low-angle faults, suggesting that folding is related to the younger, NW-SE extension seen in the Death Valley region. Other faults in the map area include NW- and NE-striking, high-angle normal faults that crosscut the currently low-angle faults. Also, a major N-S–striking, oblique-slip fault bounds the eastern flank of the Ibex Hills with slickenlines showing rakes of <30°, which together with the map pattern, suggests dextral-oblique movement along the east front of the range. The exact timing of the normal faulting in the map area is hampered by the lack of geochronology in the region. However, based on the map relationships, we find that the older extensional phase predates an angular unconformity between a volcanic and/or sedimentary succession assumed to be 12–14 Ma based on correlations to dated rocks in the Owlshead Mountains and overlying rock-avalanche deposits with associated sedimentary rocks that we correlate to deposits in the Amargosa Chaos to the north, dated at 11–10 Ma. The mechanism behind the folding of the northern Ibex Hills, including the low- angle faults, is not entirely clear. However, transcurrent systems have been proposed to explain extension-parallel folding in many extensional terranes, and the geometry of the Ibex Hills is consistent with these models. Collectively, the field data support an old hypothesis by Troxel et al. (1992) that an early period of SW-NE extension is prominent in the southern Death Valley region. The younger NW-SE extension has been well documented just to the north in the Black Mountains, but the potential role of this earlier extension is unknown given the complexity of the younger deformation. In any case, the recognition of earlier SW-NE extension in the up-dip position of the Black Mountains detachment system indicates important questions remain on how that system should be reconstructed. Collectively, our observations provide insight into the stratigraphy of the Ibex Pass basin and its relationship to the extensional history of the region. It also highlights the role of transcurrent deformation in an area that has transitioned from extension to transtension.

scholarly journals Restoration of subjectivity: the role of reflection in personality development and humanization of social institutions

2021 ◽  
pp. 1-16
Author(s):  
Vadim Markovich Rozin ◽  
Lyudmila Mikhailovna Karnozova
Keyword(s):  
Restorative Justice ◽  
Personality Development ◽  
Social Institutions ◽  
General Mechanism ◽  
Second Phase ◽  
Resolution Analysis ◽  
Two Phases ◽  
New Perspective ◽  
Personality Process

This article consists of two parts. The firs parts analyzes the general mechanism of reflection within the framework of the theoretical discourse; while the second part the introduced concepts and schemes of reflection are illustrated on the case of “restorative justice”. The analysis of two other cases (“Confession” by St. Augustine, as well as “Confessions” and “Resurrection” by L. Tolstoy) allows characterizing the two phases of psyche – preceding and accompanying reflection. The first phase represents a “crystallization of distortion subjectivity”, and at times its dissolution. The second phase (situation) launches the personality process, which can be described using the terminology of L. S. Vygotstky as “interiorization" of intersubjective; this is the conscious work that gives a new perspective on the situation and its resolution. Analysis is conducted on the two procedures of reflection itself ‒ reflexive way out to the space of “placelesness” (M. Bakhtin) with the shift of integrity and thingness, and reflexive return (G. Shchedrovitsky). Study of the case of restorative justice demonstrates the organizational-technical attitude towards reflection, communication and ensuring mutual understanding between people separated by crime, as a new moment in comparison with the “individual reflection” as internally determined personality process. The inclusion of reflection into social practices and humanities substantiates the possibility of complementing the concept of subjectivity and its “restoration” with the concept of agency as the proclivity for new actions, acquisition of the “authorial position” in relation to one's personal life and interaction with others.

Urban elites c. 1830–1930 and urban history

Urban History ◽  
2000 ◽  
Vol 27 (2) ◽  
pp. 255-275 ◽  
Author(s):  
John Smith
Keyword(s):  
Nineteenth Century ◽  
Social Control ◽  
Recent Work ◽  
Late Nineteenth Century ◽  
Second Phase ◽  
Urban Elites ◽  
Late Nineteenth ◽  
Two Phases ◽  
Future Direction

The intention of this paper is to review the ways in which the role of urban elites has been examined and interpreted, and to show how the traditional concepts of social control and hegemony have required modification. The paper identifies two phases of study. The first phase was descriptive, concerned primarily with the identification and categorization of elites. The second phase, which began in the 1980s, was interactional and explored the influence of elites in inter-class relationships. The interactional role of elites is discussed in detail in relation to the exemplar of mid-nineteenth-century Manchester. The paper continues by considering the changes which elites began to undergo in the transitional conditions of the late nineteenth century. The significance of recent work is assessed and the paper concludes with some comments regarding the future direction of study on urban elites.

scholarly journals Mandate (credential) as mitigation culture on local community of Sindang Barang

2020 ◽  
Author(s):  
ARTEKS Jurnal Teknik Arsitektur ◽  
Cahyo Septianto Hutomo ◽  
Agus Suharjono Ekomadyo
Keyword(s):  
Qualitative Method ◽  
Local Community ◽  
Disaster Mitigation ◽  
Daily Activities ◽  
Second Phase ◽  
Two Phases ◽  
Physical Elements ◽  
The Times

Local wisdom can be learned through discovery of physical elements of traditional villages, such as spatial layout, architectural objects, and daily activities. The organization prevailing in environment plays an important role in managing a contextual mitigation culture. The co-existence of authority (mandate) masters have the authority of value/cultural capital and to create symbolic elements, such as will or belief. Sindang Barang Cultural Village was taken as a case study to reveal the history and role of the mandate in the culture of disaster mitigation. This study aims to observe the role of the mandate and its impact in disaster mitigation. The role of the mandate is also examined to see the existence of efforts to preserve the values of local wisdom towards the times. This research uses descriptive-qualitative method by tracing the phenomena and artifacts in the field. The analysis carried out in two phases. The first phase is to create a mitigation concept table based on the existing program or artifacts. The second phase is to discuss the mitigation culture based on its classified capacities. The mitigation seen from the Sindang Barang Cultural Village program and artifacts is the risk of fire, earthquake, and landslide. The process of determining a mandate is commensurate with adaptive capacity because this stage tends to lead to restriction or orders about in program that is carried out systematically in particular context.

Sustainable Turning of Biocompatible Materials Using Eco Nano-Mist Technique

2020 ◽  
Vol 833 ◽  
pp. 18-22
Author(s):  
Gurraj Singh ◽  
Munish Gupta ◽  
Vishal S. Sharma
Keyword(s):  
Pure Titanium ◽  
Minimum Quantity Lubrication ◽  
Application Rate ◽  
Second Phase ◽  
Commercially Pure Titanium ◽  
Two Phases ◽  
Grade 3 ◽  
Titanium Grade ◽  
Cutting Speeds

In today’s industrial scenario, the requisite for elevated efficiency, better economic viability and higher quality asks for immense improvements in the cutting process stability. Such machining at higher cutting speeds and cutting depths causes an immense amount of heat generation at the work tool interface. The industry makes utilization of cooling techniques to contravene these ill-effects. These techniques make utilization of chemical coolants which are non-biodegradable in nature and consumed in immense quantities. In this study the role of minimum quantity lubrication (MQL) or green machining was experimentally evaluated when utilizing nanoparticle enriched coolants. The effect on the wear and roughness values while turning commercially pure Titanium (Grade 3) was analyzed. Experimentation was performed in two phases. In the first phase, the comparison in dry, flood and MQL process was made. The experimental design was composed factorially and 16 experiments were performed. Analysis was carried out utilizing ANOVA and the results were compared. In the second phase, a graphical cognation was established between the coolant application rate with both surface roughness and flank wear values. It was concluded that the nanoparticle enriched coolant i.e. the “eco nanomist”technique was more efficacious when machining the biocompatible Titanium grade 3.

STEAM Education Using Design Thinking Process Through Virtual Communities of Practice (STEAM-DT-VCoPs)

2021 ◽  
Vol 7 (1) ◽  
pp. 249
Author(s):  
Thiti Jantakun ◽  
Kitsadaporn Jantakun ◽  
Thada Jantakoon
Keyword(s):  
Communities Of Practice ◽  
Virtual Communities ◽  
Design Thinking ◽  
Second Phase ◽  
Steam Education ◽  
Research Findings ◽  
Thinking Process ◽  
Virtual Communities Of Practice ◽  
Two Phases

These objectives of the study are 1) to design STEAM education using Design Thinking Process through Virtual Communities of Practice (STEAM-DT-VCoPs), and 2) to evaluate the designed STEAM-DT-VCoPs. It divides the research procedures into two phases. The first phase is to design STEAM-DT-VCoPs, and the second phase is to evaluate the STEAM-DT-VCoPs. The sample group of this study comprises fourteen experts selected by purposive sampling. The arithmetic mean and standard deviation analyzed data. The research findings are: 1) The STEAM-DT-VCoPs comprise three steps are 1.1) the role of virtual communities of STEAM practice 1.2) Design Thinking Process through Virtual Communities of Practice, and 1.3) the various disciplines in STEAM education. 2) The experts agree that STEAM-DT-VCoPs is the highest level of appropriateness.

scholarly journals Fault evolution in the Potiguar rift termination, equatorial margin of Brazil

Solid Earth ◽  
2015 ◽  
Vol 6 (1) ◽  
pp. 185-196 ◽  
Author(s):  
D. L. de Castro ◽  
F. H. R. Bezerra
Keyword(s):  
Sedimentary Basins ◽  
Strike Slip ◽  
South Atlantic ◽  
Normal Faults ◽  
South American ◽  
Sedimentary Sequences ◽  
The North ◽  
Lateral Shearing ◽  
The Right ◽  
Fault Evolution

Abstract. The transform shearing between South American and African plates in the Cretaceous generated a series of sedimentary basins on both plate margins. In this study, we use gravity, aeromagnetic, and resistivity surveys to identify architecture of fault systems and to analyze the evolution of the eastern equatorial margin of Brazil. Our study area is the southern onshore termination of the Potiguar rift, which is an aborted NE-trending rift arm developed during the breakup of Pangea. The basin is located along the NNE margin of South America that faces the main transform zone that separates the North and the South Atlantic. The Potiguar rift is a Neocomian structure located at the intersection of the equatorial and western South Atlantic and is composed of a series of NE-trending horsts and grabens. This study reveals new grabens in the Potiguar rift and indicates that stretching in the southern rift termination created a WNW-trending, 10 km wide, and ~ 40 km long right-lateral strike-slip fault zone. This zone encompasses at least eight depocenters, which are bounded by a left-stepping, en echelon system of NW–SE- to NS-striking normal faults. These depocenters form grabens up to 1200 m deep with a rhomb-shaped geometry, which are filled with rift sedimentary units and capped by postrift sedimentary sequences. The evolution of the rift termination is consistent with the right-lateral shearing of the equatorial margin in the Cretaceous and occurs not only at the rift termination but also as isolated structures away from the main rift. This study indicates that the strike-slip shearing between two plates propagated to the interior of one of these plates, where faults with similar orientation, kinematics, geometry, and timing of the major transform are observed. These faults also influence rift geometry.

scholarly journals The challenges characterizing the lived experience of caregiving. A qualitative study in the field of spinal cord injury

Spinal Cord ◽  
2021 ◽  
Author(s):  
Claudia Zanini ◽  
Julia Amann ◽  
Mirjam Brach ◽  
Armin Gemperli ◽  
Sara Rubinelli
Keyword(s):  
Lived Experience ◽  
Functional Relationship ◽  
Second Phase ◽  
Life Changes ◽  
Structured Interviews ◽  
Care Recipients ◽  
Financial Uncertainty ◽  
Cord Injury ◽  
Two Phases

Abstract Study design Qualitative exploratory study. Objectives To explore the lived experience of SCI caregivers, with a focus on the challenges of their role. Setting Caregivers of people with SCI living in the community in Switzerland. Methods Data were collected through semi-structured interviews. Thematic analysis was performed. Results The sample included 22 participants (16 women, 15 life partners) with a mean age of 61 years who had been caregivers for an average of 18 years. Caregiving in SCI seemed to be characterized by two phases. The first phase was relatively short and was central to becoming a caregiver; it was marked by challenges related to adjusting to the role of caregiver (e.g., dealing with shock, feeling unprepared). The second phase is lifelong and is characterized by a number of recurrent challenges related to balancing caregiving and personal life (e.g., having to prioritize caregiving over personal wishes, negotiating tasks and workload). Challenges related to lacking appropriate housing, facing financial uncertainty and dealing with bureaucracy were noted during both phases. Caregivers had to deal with these challenges to stay in step with life changes and newly emerging needs. Conclusions Informal caregivers have a major role in supporting people with SCI. But their needs are not static. Any strategy to empower them has to adapt to an evolving role characterized by multiple tasks and challenges. A functional relationship between caregivers and care recipients is based on the recognition of their individualities and the different phases of adaptation, which is also an enriching process.

scholarly journals Fault evolution in the Potiguar rift termination, Equatorial margin of Brazil

2014 ◽  
Vol 6 (2) ◽  
pp. 2885-2913
Author(s):  
D. L. de Castro ◽  
F. H. R. Bezerra
Keyword(s):  
Sedimentary Basins ◽  
Strike Slip ◽  
Normal Faults ◽  
South American ◽  
Sedimentary Sequences ◽  
Lateral Shearing ◽  
Isolated Structures ◽  
The Right ◽  
Fault Architecture ◽  
Fault Evolution

Abstract. The transform shearing between South American and African plates in the Cretaceous generated a series of sedimentary basins on both plate margins. In this study, we use gravity, aeromagnetic, and resistivity surveys to identify fault architecture and to analyse the evolution of the eastern Equatorial margin of Brazil. Our study area is the southern onshore termination of the Potiguar rift, which is an aborted NE-trending rift arm developed during the breakup of Pangea. The Potiguar rift is a Neocomian structure located in the intersection of the Equatorial and western South Atlantic and is composed of a series of NE-trending horsts and grabens. This study reveals new grabens in the Potiguar rift and indicates that stretching in the southern rift termination created a WNW-trending, 10 km wide and ~40 km long right-lateral strike-slip fault zone. This zone encompasses at least eight depocenters, which are bounded by a left-stepping, en-echelon system of NW- to EW-striking normal faults. These depocenters form grabens up to 1200 m deep with a rhomb-shaped geometry, which are filled with rift sedimentary units and capped by post-rift sedimentary sequences. The evolution of the rift termination is consistent with the right-lateral shearing of the Equatorial margin in the Cretaceous and occurs not only at the rift termination, but also as isolated structures away from the main rift.

Role of dextral strike slip faulting in the distribution of Aegean extension since Miocene times inferred from receiver function analysis

2020 ◽  
Author(s):  
Agathe Faucher ◽  
Christel Tiberi ◽  
Frédéric Gueydan ◽  
Alexandrine Gesret
Keyword(s):  
Receiver Function ◽  
Function Analysis ◽  
Receiver Functions ◽  
Strike Slip ◽  
Point Of View ◽  
Normal Faults ◽  
The South ◽  
Crustal Thinning ◽  
Dextral Strike Slip

<p>Aegean plate is marked since Eocene by widespread NE-SW extension induced by the African slab roll-back. In Miocene times, E-W shortening created by the westward Anatolian extrusion overlays the extension, with the formation of Miocene dextral strike slip faults in addition to normal faults. We propose to quantify the role of large dextral strike slip faults in accommodating Aegean extension, using receiver functions to image Moho geometry.</p><p>Aegean extension is particularly evidenced by a topographic difference between the emerged continental Greece and the submerged Cyclades. In this study we characterize the associated Moho geometry with a particular focus on the transition between these two domains. From a geological point of view, the transition between continental Greece and the Cyclades is marked by two dextral strike slip faults: the Pelagonian fault (onshore) and the South Evvia fault (offshore). Our objective is also to show a potential Moho signature of these strike slip faults.  We processed receiver functions (RF) from the MEDUSA stations located in Attic and Evvia.</p><p>Our results show that the Moho is deeper beneath continental Greece (~27km) than beneath the Cyclades (~25km). A detailed azimuthal study of RF distribution shows a flat Moho underneath Continental Greece. The crustal thickness is also almost constant inside the Cyclades, as already suggested by previous studies. However, the transition between the Cyclades and Continental Greece is not continuous. These two crustal blocks are separated by the Pelagonian and the South Evvia strike slip faults in a narrow transition zone (~75km). In this zone (South Evvia/Attica), dip and strike of the Moho vary and suggest a crustal signature of the strike slip structures observed at the surface. These strike slip faults therefore accommodate in a narrow zone the inferred variations in crustal thicknesses between the Cyclades and Continental Greece.</p><p>Our data show that differences in topography between Continental Greece and the Cyclades are isostatically compensated, reflecting various amount of crustal thinning larger in the Cyclades than in Continental Greece. Inside these two crustal blocks, we imaged a flat Moho, suggesting a wide rift extension process associated with the formation of numerous Miocene and Plio-Quaternary basins.  The dextral strike slip faults at the edges of the continental blocks (Continental Greece and Cyclades) accommodated the inferred variations in the amount of crustal thinning, suggesting that they act as continental transfer zones at crustal-scale during Miocene Aegean Extension.</p>

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