The tabular Strathbogie batholith in central Victoria
The southern boundary of the high level, discordant, Devonian Strathbogie batholith in central Victoria includes two near-linear sections that strike east-west, and one north-south. Field mapping has delineated the 100 km southern boundary with 2200 waypoints taken where granite and hornfels are wit...
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Published in | Australian journal of earth sciences Vol. 69; no. 6; pp. 776 - 800 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Hoboken
Taylor & Francis
18.08.2022
Wiley Subscription Services, Inc |
Subjects | |
Online Access | Get full text |
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Summary: | The southern boundary of the high level, discordant, Devonian Strathbogie batholith in central Victoria includes two near-linear sections that strike east-west, and one north-south. Field mapping has delineated the 100 km southern boundary with 2200 waypoints taken where granite and hornfels are within 10 m of one another. There is 790 m of topographic relief along the southern boundary and, where the mapping is overlain on contours, there are intervals that reflect a steep-dipping contact and others that reflect near-horizontal contacts. Of the latter, some reflect the granite roof and others the floor. Complementary evidence from mineralogic and textural data indicates a strong correlation between the interpreted roof of the granite and the abundance of tourmaline, aplite and pegmatite. When combined, the roof and floor intervals indicate a batholith thickness up to 350 m; nowhere along the southern boundary can a thickness of 1 km be demonstrated. Along the southern boundary, at least, the batholith shape is a thin, tabular and extensive composite granite sheet analogous to a pizza rather than a pipe. The roof of the granite is nearly horizontal in both east-west and north-south sections, and the plateaux today are close to the batholith roof. On regional and local scales, granite emplacement was determined by pre-existing anisotropies, such as master joint sets, across which the propagation of magma-filled fractures (granite sheets) was arrested. The emplacement records a fine balance between magma pressure, and the interplay of lower confining (overburden) pressures and pre-existing anisotropies that also facilitated roof uplift. The opportunistic magmas used the slightest variations of those parameters. This interpretation of the Strathbogie batholith matches examples in the Himalaya and Chilean Andes but differs markedly from the portrayal of very large batholiths beneath Cu-Au porphyry systems.
KEY POINTS
The boundary of the Strathbogie batholith can be mapped in moderately outcropping terrain to an accuracy of 10 m or better.
Steep intervals of the boundary are interspersed with near-horizontal intervals that delineate the granite floor and roof along the 100 km of the southern boundary.
The batholith, at least near its southern boundary, comprises near-horizontal sheets of <500 m aggregate thickness.
The boundary determined by geophysics is adequate for regional studies but has been misleading in three-dimensional interpretations. |
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ISSN: | 0812-0099 1440-0952 |
DOI: | 10.1080/08120099.2022.2032340 |