Lower crust and upper mantle electrical anisotropy in southeastern Australia

Dennis, Zara; Thiel, Stephan; Cull, J. P.

doi:10.1071/eg11022

Cited by 8 publications

(4 citation statements)

References 38 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A deep mantle conductor is situated underneath the central Gawler Craton and appears to be temporally related to the 1590Ma Hiltaba event and Gawler Range Volcanics, which are the result of a plume‐modified orogenesis as an analogue to present day Yellowstone‐type magmatism [ Kelbert et al , ]. Further studies will need to address the depth extent of the conductor to depths beyond 100km and possible anisotropy of the mantle given the strong electrical polarization state derived from phase tensor analysis in this study and from recent findings in other areas of the Australian continent [ Simpson , ; Dennis et al , ] (Figure ). The mantle is resistive underneath the St. Peter Suite, Fowler Domain and the 2550 Ma Mulgathing Complex suggesting a more depleted mantle in those parts.…”

Section: Discussionmentioning

confidence: 99%

Electrical conductors in Archean mantle—Result of plume interaction?

Thiel

Heinson

2013

Geophysical Research Letters

Self Cite

View full text Add to dashboard Cite

[1] From long-period magnetotelluric data across the Gawler Craton, we obtain a three-dimensional resistivity image of the lithosphere and provide constraints on tectonothermal events dating back to the Proterozoic. Contrary to common observations of Archean cratons displaying high electrical resistivity in the mantle lithosphere, the magnetotelluric data show low resistivity of around 10 m at 80 km depth underneath the 1595 Ma Gawler Range Volcanics, a silicic large igneous province.The resistivity distribution appears to be a signature of plume-modified orogenesis with low-degree partial melting at the base of the lithosphere in a back-arc setting. The enhanced conductivity is explained through higher hydrogen and iron content in the crystal lattice and also along the grain boundaries of the mantle constituting minerals. Older, arc-related magmatism to the southwest across 1620-1610 Ma St. Peter Suite does not display enhanced conductivity and suggests a depleted mantle lithosphere. The data show that Yellowstone-type mantle plume analogues are preserved through time and still display an elevated electrical signature in the lithosphere today.

show abstract

Section: Discussionmentioning

confidence: 99%

Electrical conductors in Archean mantle—Result of plume interaction?

Thiel

Heinson

2013

Geophysical Research Letters

Self Cite

View full text Add to dashboard Cite

show abstract

“…This conductor extends beyond the edge of the profile, and an extension of the profile to the west of the transect, and longer period data would be required to have any confidence in interpretations of the anomaly. The Mt Gambier volcanoes are 100- Dennis et al (2012). This feature was thought to be connected to a central Victorian thermal anomaly and mantle-derived CO 2 -rich fluids related to the Quaternary Newer Volcanics, but required further thermal modelling.…”

Section: Interpreting the Conductorsmentioning

confidence: 97%

Magnetotelluric evidence for serpentinisation in a Cambrian subduction zone beneath the Delamerian Orogen, southeast Australia

Robertson

Taylor²,

Thiel

et al. 2015

Gondwana Research

Self Cite

View full text Add to dashboard Cite

“…The Geological Structure data map for the study area is shown in Figure 2d. A preliminary interpretation report on the area was produced by the Korean Institute of Geological & Mineral Resources (KIGAM) as part of a collaborative project among GSV, Monash University and KIGAM (Dennis et al., 2012). The Geological Structure Map provided by GSV originally included 34 geological categories (e.g.…”

Section: Study Area Data and Mapsmentioning

confidence: 99%

“…The data is gridded with a grid size of 50 m, using a minimum curvature gridding method. The final merged grid is presented as two zonally projected grids (Cull et al, 2008;Dennis et al, 2008Dennis et al, , 2012.…”

Section: Plain Language Summarymentioning

confidence: 99%

Inferring geological structural features from geophysical and geological mapping data using machine learning algorithms

Green

2023

Geophysical Prospecting

View full text Add to dashboard Cite

We present an automated approach for inferring surface geological structures from geophysical survey data. Our method employs machine learning, using mapped geological structures as labels and filtered geophysical surveys as reference maps. We compared the performance of the eight main machine learning algorithms and their 32 branches. Applied to the Geological Survey of Victoria's database for the Bendigo Zone, following an appropriate choice of geological features, the 3‐class classification model using subspace K‐nearest neighbour methods achieves a stable and validated 92% accuracy in around 1 min. The fault‐only classification model achieves a stable and validated 97% accuracy in around 6 min. This shows that geological structural features on the surface may be inferred from between one and three of the following geophysical data types: gravity, airborne total magnetic intensity and first vertical derivative of total magnetic intensity. It shows the prospect of machine learning in geological research and suggests that geophysical data combined with machine learning may be useful and efficient in determining the existence of geological structural features.

show abstract

Lower crust and upper mantle electrical anisotropy in southeastern Australia

Cited by 8 publications

References 38 publications

Electrical conductors in Archean mantle—Result of plume interaction?

Electrical conductors in Archean mantle—Result of plume interaction?

Magnetotelluric evidence for serpentinisation in a Cambrian subduction zone beneath the Delamerian Orogen, southeast Australia

Inferring geological structural features from geophysical and geological mapping data using machine learning algorithms

Contact Info

Product

Resources

About