Formation and geometry of fractures, and related volcanism, of the Krafla fissure swarm, northeast Iceland

Objectives: To evaluate the management of tibial diaphyseal fractures treated byPOP cast versus intramedullary nailing in terms of time of union. Design of study: Randomizedcontrolled trials. Setting: Department of Orthopaedic, Allied / DHQ Hospital, Faisalabad.Duration of Study: Six months (01-08-2013 to 31-01-2014). Materials and Methods: 80patients fulfilling the inclusion and exclusion criteria were included in the study. After laboratoryand radiological assessment, the patients in Group 1 were treated by long leg cast. The patientsin Group 2 were treated with intramedullary interlocking nail. The patients were followed on OPDbasis. Results: 80 patients divided into 2 groups. Each group had 40 patients. Mean age ofpatients was 30.99 ±8.092 years. There were total of 65% males and 35% females in this study.According to geometry of fractures simple transverse fractures were 47.5%, spiral fractureswere 17.5%, oblique fractures were 25% and segmental fractures were 10%. There were 71.25%closed fracture and 28.75% type l open fractures. Mean time of union was 23.86 ± 5.48 weeks ingroup 1 while in group 2, mean time of union was 18.35 ± 4.12 weeks. P-value was 0.001 whichis statistically significant. Conclusion: It is concluded that reamed intramedullary interlockingnailing is a good mode of internal fixation comparing with conservative management of closereduction and POP cast in both close and type I open fractures in terms of union.

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Geometry, oblique kinematics and extensional strain variation along a diverging plate boundary: The example of the northern Theistareykir Fissure Swarm, NE Iceland

Tectonophysics ◽

10.1016/j.tecto.2019.02.018 ◽

2019 ◽

Vol 756 ◽

pp. 57-72 ◽

Cited By ~ 8

Author(s):

F.L. Bonali ◽

A. Tibaldi ◽

F. Pasquaré Mariotto ◽

D. Saviano ◽

A. Meloni ◽

...

Keyword(s):

Plate Boundary ◽

Strain Variation ◽

Fissure Swarm ◽

Extensional Strain

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Integration between data collection through field and UAV-based surveys in volcano-tectonic environments: an example from the Krafla Fissure Swarm (NE Iceland)

10.5194/egusphere-egu21-8414 ◽

2021 ◽

Author(s):

Sofia Bressan ◽

Noemi Corti ◽

Valentina Rigoni ◽

Elena Russo

Keyword(s):

Late Glacial ◽

3D Models ◽

Normal Faults ◽

Central Volcano ◽

Volcanic System ◽

Field Surveys ◽

Geological Processes ◽

Fissure Swarm ◽

Surface Models ◽

Eruptive Fissures

Due to its strategic position at the boundary between European and American plates, Iceland is extraordinarily well suited for the investigation of various geological processes, like the interaction between active rifting processes and magmatic stresses. In this study, we focused on surveying with very high detail different key areas located within the Krafla Fissure Swarm (KFS), an active volcanic system located in the Northern Volcanic Zone, NE Iceland.The Krafla volcanic rift is characterized by the presence of a central volcano and by a 100 km-long swarm of extension fractures, normal faults and eruptive fissures mainly affecting post-LGM (Late Glacial Maximum) Holocene lavas. Our work focuses on three different areas, located in the northernmost sector of the rift, about 5 km north of the central caldera, and south of the central volcano.&#160;All these areas have been investigated through field surveys performed both with classical methods and through two Unmanned Aerial Vehicles (UAVs), the DJI Phantom 4 PRO and DJI Spark: thanks to Structure from Motion (SfM) photogrammetry techniques, we obtained Orthomosaics, Digital Surface Models (DSMs) and 3D models of the study area, with centimetric resolution.&#160;The integration of the above cited methodologies allowed us to collect a huge amount of data, also overcoming difficulties due to logistics, which can sometimes impede classical field survey. More in detail, we collected 2476 structural measurements at 918 sites along extension fractures, and at 185 sites along normal faults. At extension fractures, we measured local fracture strike, dilation and, whenever possible, opening direction. On the other hand, along normal faults we measured local fault strike and the vertical offset. From our data, we obtained an average opening direction of N101&#176;E, thus observing the presence of lateral components of motion along extension fractures. Finally, considering both extension fractures and normal faults, we quantified the cumulative dilation along these sectors, in order to assess the stretch value along the rift.

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Structural analysis of the Theistareykir Fissure Swarm (NE Iceland) using field survey integrated with UAV-based - Structure from Motion techniques

10.5194/egusphere-egu2020-1621 ◽

2020 ◽

Author(s):

Noemi Corti ◽

Alessandro Tibaldi

Keyword(s):

Structure From Motion ◽

Field Survey ◽

Late Quaternary ◽

3D Models ◽

Normal Faults ◽

Large Area ◽

Southern Sector ◽

Fissure Swarm ◽

Aerial Vehicle ◽

Extension Fracture

Due to its position at the boundary between American and European plates, Iceland represents an ideal natural laboratory to study active rifting processes, where rifting mechanisms are complicated by the superimposition of tectonic and magmatic stresses. In order to contribute to the study of such processes, we focused our attention on the southern sector of the Theistareykir Fissure Swarm (ThFS), an active volcanic rift belonging to the Northern Volcanic Zone of Iceland, affected by both volcanic and seismic hazard.We studied an area which is about 22 km2-large, situated 12 km south of the intersection of the ThFS with the Husavik Flatey Fault (HFF), a dextral strike-slip lineament belonging to the Tjornes Fracture Zone (TFZ). The area is characterized by the presence of normal faults and a dense swarm of extension fractures, affecting prevalently post-glacial, Holocene lavas, dated 8-10 and 11-12 ka. Only in the western sector of the area a Late Quaternary interglacial lava crops out, while the northeastern sector is covered by a Weichselian subglacial hyaloclastite. The southern sector of the area has been investigated with classical field survey, whereas in the northern part a 3.87 km2-large area has been reconstructed using the Structure from Motion (SfM) techniques, combined with an Unmanned Aerial Vehicle (UAV), obtaining orthomosaics, DSMs and 3D models with a centimetric resolution through 4189 UAV photos, collected in 7 different missions during summer 2018.In the whole area, we recognized and mapped a total of 624 structures (comprising 583 extension fractures and 41 normal faults), and we took various measurements at 626 structural stations along extension fractures, and 132 along normal faults. Regarding extension fractures, we collected the strike and, in 441 cases where it was possible, the opening direction and the amount of opening; along normal faults we measured the strike, dip and vertical offset.Our approach allowed to calculate stretch values across the rift comprised between 1.002 and 1.013, and an average opening direction value of 104.4&#176;N, normal to the average extension fracture strike measured at the structural stations (14&#176;N), suggesting a pure extensional opening in the studied area. Actually, in 281 cases out of our 441 stations along extension fractures we noticed a lateral component > 5&#176;. Furthermore, 49% of data is not consistent with tectonics, neither with regard to the extensional fracture strike, nor with regard to opening directions. This suggests that stresses linked to regional tectonics are not the only cause of deformation, which could have been affected by different processes like dyke intrusion, deglaciation, and inflation/deflation of the Theistareykir volcano magma chamber.

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