Atle Rotevatn

Atle Rotevatn's AcademicInfluence.com Rankings

Atle Rotevatn

Earth Sciences

#2724

World Rank

#3659

Historical Rank

earth-sciences Degrees

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Earth Sciences

Why Is Atle Rotevatn Influential?

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According to Wikipedia, Atle Rotevatn is a professor of geology at the University of Bergen in Norway. In 2011, he received the Reusch Medal from the Norwegian Geological Society. And in 2018, he received the Olav Thon national award for excellence in teaching.

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Atle Rotevatn's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Fault linkage and relay structures in extensional settings—A review (2016) (275)
From outcrop to reservoir simulation model: Workflow and procedures (2007) (172)
Glossary of fault and other fracture networks (2016) (157)
3D seismic analysis of the structure and evolution of a salt-influenced normal fault zone: A test of competing fault growth models (2013) (149)
Growth of normal faults in multilayer sequences: A 3D seismic case study from the Egersund Basin, Norwegian North Sea (2013) (109)
Fault interaction in porous sandstone and implications for reservoir management; examples from southern Utah (2005) (87)
Relationships between fractures (2018) (85)
A broader classification of damage zones (2017) (85)
Simulating the effect of subseismic fault tails and process zones in a siliciclastic reservoir analogue: Implications for aquifer support and trap definition (2011) (79)
Are relay ramps conduits for fluid flow? Structural analysis of a relay ramp in Arches National Park, Utah (2007) (77)
Overlapping faults and their effect on fluid flow in different reservoir types: A LIDAR-based outcrop modeling and flow simulation study (2009) (74)
Fault linkage and graben stepovers in the Canyonlands (Utah) and the North Sea Viking Graben, with implications for hydrocarbon migration and accumulation (2010) (72)
Techniques to determine the kinematics of synsedimentary normal faults and implications for fault growth models (2017) (70)
Depositional processes and stratigraphic architecture within a coarse-grained rift-margin turbidite system: The Wollaston Forland Group, east Greenland (2016) (69)
Fault-controlled dolomitization in a rift basin (2017) (69)
Slipped deformation bands: A new type of cataclastic deformation bands in Western Sinai, Suez rift, Egypt (2008) (67)
How do normal faults grow? (2015) (66)
Dynamic investigation of the effect of a relay ramp on simulated fluid flow: geocellular modelling of the Delicate Arch Ramp, Utah (2009) (64)
The Influence of Structural Inheritance and Multiphase Extension on Rift Development, the NorthernNorth Sea (2019) (56)
Quantifying structural controls on fluid flow: Insights from carbonate-hosted fault damage zones on the Maltese Islands (2017) (55)
Evolution of a major segmented normal fault during multiphase rifting: The origin of plan-view zigzag geometry (2015) (53)
Structural Inheritance and Rapid Rift‐Length Establishment in a Multiphase Rift: The East Greenland Rift System and its Caledonian Orogenic Ancestry (2018) (50)
Deformation bands and their impact on fluid flow in sandstone reservoirs: the role of natural thickness variations (2013) (45)
Contractional deformation of porous sandstone: Insights from the Aztec Sandstone, SE Nevada, USA (2015) (44)
Depositional systems in multiphase rifts: seismic case study from the Lofoten margin, Norway (2017) (44)
Graph theory and the analysis of fracture networks (2019) (39)
Fault zone architecture and its scaling laws: where does the damage zone start and stop? (2019) (39)
Sequential growth of deformation bands in carbonate grainstones in the hangingwall of an active growth fault: Implications for deformation mechanisms in different tectonic regimes (2016) (37)
Influence of fault reactivation during multiphase rifting: The Oseberg area, northern North Sea rift (2017) (34)
3D structure and evolution of folds during normal fault dip linkage (2014) (33)
Characterization of deformation bands associated with normal and reverse stress states in the Navajo Sandstone, Utah: Discussion (2012) (32)
Evolution and structural style of relay zones in layered limestone–shale sequences: insights from the Hammam Faraun Fault Block, Suez rift, Egypt (2012) (31)
Fluid flow in relay zones revisited: Towards an improved representation of small-scale structural heterogeneities in flow models (2013) (30)
Dual tectonic-climatic controls on salt giant deposition in the Santos Basin, offshore Brazil (2018) (30)
Supra-salt normal fault growth during the rise and fall of a diapir: Perspectives from 3D seismic reflection data, Norwegian North Sea (2016) (29)
Progressive evolution of deformation band populations during Laramide fault-propagation folding: Navajo Sandstone, San Rafael monocline, Utah, U.S.A. (2014) (27)
Do deformation bands matter for flow? Insights from permeability measurements and flow simulations in porous carbonate rocks (2016) (27)
Pre-existing intra-basement shear zones influence growth and geometry of non-colinear normal faults, western Utsira High–Heimdal Terrace, North Sea (2019) (25)
Structure and flow properties of syn-rift border faults: The interplay between fault damage and fault-related chemical alteration (Dombjerg Fault, Wollaston Forland, NE Greenland) (2016) (25)
Geological and geophysical expression of a primary salt weld: An example from the Santos Basin, Brazil (2014) (24)
The effect of deformation bands on simulated fluid flow within fault-propagation fold trap types: Lessons from the San Rafael monocline, Utah (2016) (21)
Controls on the formation of stratabound dolostone bodies, Hammam Faraun Fault block, Gulf of Suez (2018) (20)
Deformation bands in volcaniclastic rocks – Insights from the Shihtiping tuffs, Coastal Range of Taiwan (2018) (19)
Strike‐slip reactivation of segmented normal faults: Implications for basin structure and fluid flow (2018) (19)
Structural controls on non fabric‐selective dolomitization within rift‐related basin‐bounding normal fault systems: Insights from the Hammam Faraun Fault, Gulf of Suez, Egypt (2018) (18)
Turbidites, topography and tectonics: Evolution of submarine channel‐lobe systems in the salt‐influenced Kwanza Basin, offshore Angola (2020) (18)
How do pre‐existing normal faults influence rift geometry? A comparison of adjacent basins with contrasting underlying structure on the Lofoten Margin, Norway (2019) (18)
The effects of dolomitization on petrophysical properties and fracture distribution within rift-related carbonates (Hammam Faraun Fault Block, Suez Rift, Egypt) (2017) (17)
Causes of bias and uncertainty in fracture network analysis (2019) (17)
Structural evolution of sheared margin basins: the role of strain partitioning. Sørvestsnaget Basin, Norwegian Barents Sea (2018) (17)
The impact of faults and fluid flow on seismic images of a relay ramp over production time (2017) (17)
Impact of normal faulting and pre‐rift salt tectonics on the structural style of salt‐influenced rifts: the Late Jurassic Norwegian Central Graben, North Sea (2017) (16)
Soft faults with hard tips: magnitude-order displacement gradient variations controlled by strain softening versus hardening; implications for fault scaling (2012) (16)
Origin, dimensions, and distribution of remobilized carbonate deposits in a tectonically active zone, Eocene Thebes Formation, Sinai, Egypt (2018) (14)
Response of unconfined turbidity current to relay‐ramp topography: insights from process‐based numerical modelling (2018) (13)
Nature of Palaeozoic extension in Lofoten, north Norwegian Continental Shelf: insights from 3‐D seismic analysis of a Cordilleran‐style metamorphic core complex (2014) (12)
The role of gravitational collapse in controlling the evolution of crestal fault systems (Espirito Santo Basin, SE Brazil) - Discussion (2017) (12)
Response of unconfined turbidity current to deep‐water fold and thrust belt topography: Orthogonal incidence on solitary and segmented folds (2019) (12)
The Relationship between Fluid Flow, Structures, and Depositional Architecture in Sedimentary Rocks: An Example-Based Overview (2020) (10)
Strain migration during multiphase extension, Stord Basin, northern North Sea rift (2020) (10)
Connectivity and network development of carbonate-hosted fault damage zones from western Malta (2020) (10)
The role of structural inheritance in the development of high-displacement crustal faults in the necking domain of rifted margins: The Klakk Fault Complex, Frøya High, offshore mid-Norway (2020) (10)
From widespread faulting to localised rifting: Evidence from K‐Ar fault gouge dates from the Norwegian North Sea rift shoulder (2021) (10)
The interdisciplinary use of ;overpressure; (2017) (9)
Key controls on hydrocarbon retention and leakage from structural traps in the Hammerfest Basin, SW Barents Sea: implications for prospect analysis and risk assessment (2019) (8)
Minibasin depocentre migration during diachronous salt welding, offshore Angola (2019) (7)
Influence of Zones of Pre‐Existing Crustal Weakness on Strain Localization and Partitioning During Rifting: Insights From Analog Modeling Using High‐Resolution 3D Digital Image Correlation (2021) (7)
Syn-rift carbonate platforms in space and time: testing and refining conceptual models using stratigraphic and seismic numerical forward modelling (2020) (6)
Syn‐rift sediment gravity flow deposition on a Late Jurassic fault‐terraced slope, northern North Sea (2021) (6)
Fault-controlled fluid circulation and diagenesis along basin-bounding fault systems in rifts – insights from the East Greenland rift system (2020) (6)
Normal Fault Kinematics and the Role of Lateral Tip Retreat: An Example From Offshore NW Australia (2020) (5)
Deep-water reservoir distribution on a salt-influenced slope, Santos Basin, offshore Brazil (2019) (5)
Engineering meter-scale porous media flow experiments for quantitative studies of geological carbon sequestration (2023) (4)
Structural and petrophysical effects of overthrusting on highly porous sandstones: the Aztec Sandstone in the Buffington window, SE Nevada, USA (2017) (4)
Deep-water reservoir distribution on a salt-influenced slope , 1 Santos Basin , offshore Brazil 2 3 (2019) (4)
Supradetachment basins in necking domains of rifted margins: Insights from the Norwegian Sea (2021) (3)
The effect of hydrocarbon saturation on resistivity distribution and CSEM response (2012) (3)
Changes of scaling relationships in an evolving population: The example of “sedimentary” stylolites (2017) (3)
Brecciation driven by changes in fluid column heights (2019) (3)
A geocellular modelling workflow for partially dolomitized remobilized carbonates: An example from the Hammam Faraun Fault block, Gulf of Suez, Egypt (2021) (3)
Microstructure and fluid flow in the vicinity of basin bounding faults in rifts – The Dombjerg fault, NE Greenland rift system (2021) (3)
Fault-controlled fluid circulation and diagenesis along basin bounding fault systems in rifts – insights from the East Greenland rift system (2020) (3)
Modelling of Relay Ramp Using Fault Facies and Truncated Gaussian Simulation (2012) (2)
Basin Research outstanding reviewers 2018–19 (2020) (2)
Basin tectonic history and paleo‐physiography of the pelagian platform, northern Tunisia, using vitrinite reflectance data (2018) (2)
Influence of zones of pre-existing crustal weakness on strain localization and partitioning during rifting: Insights from analogue modeling using high resolution 3D digital image correlation (2021) (2)
Erratum to “3D seismic analysis of the structure and evolution of a salt-influenced normal fault zone: A test of competing fault growth models” [J. Struct. Geol. 54 (2013) 215–234] (2013) (2)
Displacement/Length Scaling Relationships for Normal Faults; a Review, Critique, and Revised Compilation (2022) (1)
Submarine salt dissolution in the Santos Basin , offshore 1 Brazil 2 3 (2017) (1)
Imaging of small-scale faults in seismic reflection data: Insights from seismic modelling of faults in outcrop (2022) (1)
How do pre-existing normal faults influence rift geometry? A comparison of adjacent basins with contrasting underlying structure on the Lofoten Margin, Norway (2019) (1)
Tracing Lower Cretaceous organic-rich units across the SW Barents Shelf (2022) (1)
The Effect of Fluid Flow in Relay Ramps on Seismic Images (2015) (1)
Quantification of Depositional and Diagenetic Geobody Geometries for Reservoir Modelling, Hammam Fauran Fault Block, Sinai Peninsula, Egypt (2013) (1)
Quantitative analysis of fault-and-fold growth in a transtensional basin: the Sørvestsnaget Basin, Western Barents Sea (2020) (1)
Structural inheritance during normal fault growth in multi-phase rifts; a case study from the Northern North Sea (2015) (0)
Recent insights into the linked deposition, deformation, and dissolution of Aptian (Lower Cretaceous) evaporites on the Sao Paulo Plateau, Santos Basin, offshore Brazil (2021) (0)
The evolution of catchment‐depositional system relationships on the dip slopes of intra‐rift basement highs: an example from the Frøya High, Mid‐Norwegian Rifted Margin (2023) (0)
Some characteristic geometrical aspects of large normal faults in multiphase rifts : a seismic case study from the Lofoten margin (0)
The Processes and Products of Salt Welding; Insights from Offshore Brazil and the Northern Gulf of Mexico (2020) (0)
Lower Cretaceous Source Rocks on the Sw Barents Shelf (2020) (0)
The temporal evolution of syn-sedimentary normal faults and the possible role of tip retreat (2020) (0)
An empirical approach to estimating hydrocarbon column heights for improved pre-drill volume prediction in hydrocarbon exploration (2019) (0)
How lithology, tectonic setting, and fault size control normal fault growth: Using a large global database to find trends in fault kinematics (2019) (0)
Do pre-existing basement structures influence the geometry and growth of normal faults and rifts? (2020) (0)
An Empirical Approach to Reduce Uncertainty when Predicting Hydrocarbon Column Heights during Prospect Evaluation (2019) (0)
How do normal faults grow over a range of spatial (experiment to full-rift) and temporal (seconds to 100s Myr) scales? (2019) (0)
What controls the selective influence of pre-existing basement structures during rifting? Insights from analogue modelling (2019) (0)
Faulting and fault interaction in porous siliciclastic reservoirs: insights from outcrop modeling of analogous reservoir rocks in Sinai (Egypt) and Utah (USA) (2008) (0)
Deposition of Cenomanian – Turonian Organic-Rich Units on the Mid-Norwegian Margin: Controlling Factors and Regional Implication (2023) (0)
Strike-slip reactivation of segmented normal faults: implications for basin structure and fluid flow (2018) (0)
An empirical approach to estimating hydrocarbon column heights for improved predrill volume prediction in hydrocarbon exploration (2021) (0)
Fault-Controlled Fluid Flow Along a Basin-Bounding Fault System: the Helmsdale Fault (Scotland) (2022) (0)
Geometry, Topology and Variability of Deformation Band Networks: Examples from the Jurassic Entrada Sandstone, Utah (2022) (0)
Fault-controlled diagenesis and fluid circulation along a major syn-rift border fault system – insights from the Dombjerg Fault, Wollaston Forland Basin, NE Greenland (2020) (0)
Basin Research outstanding reviewers 2020–21 (2022) (0)
Supplementary material to "Fault-controlled fluid circulation and diagenesis along basin bounding fault systems in rifts – insights from the East Greenland rift system" (2020) (0)
Basement controls on the variability in structural style of normal faults: the Northern Utsira High - Heimdal Terrace, Northern North Sea (2018) (0)
Tracing Lower Cretaceous Source Rocks Across the Sw Barents Shelf (2022) (0)
GRAPH THEORY AND THE ANALYSIS OF FRACTURE NETWORKS 1 (2018) (0)
Microstructure and fluid flow in rift border fault-bounded basins – insights from the Dombjerg Fault, NE Greenland (2021) (0)

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Other Resources About Atle Rotevatn

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What Schools Are Affiliated With Atle Rotevatn?

Atle Rotevatn is affiliated with the following schools:

University of Bergen