The complex is mainly composed of gabbro and syenite and is of the Silurian-Devonian age.[1] The Concord Gabbro-Syenite Complex is a part of a larger suite of twenty plutons that form a chain extending almost 500 km, which lie within the CharlotteMetamorphic belt.[2] The complex is located in Cabarrus County in south central North Carolina. Many of the Concord plutons have minor quantities of syenite, which form horseshoe-shaped rings around the gabbro.[3] The Concord Gabbro-Syenite Complex within the Concord pluton is dated to 407 ± 36 Ma,[4] making it the oldest formation within the twenty plutons. It is thought unlikely that the plutons located within the Concord Suite formation spanned this much time, implying that complexes such as the Concord Gabbro-Syenite Complex most likely formed during an older Taconicigneous suite.[5]
Modeling
Magnetic modeling
Magnetic modeling suggests that there are large quantities of magnetite concentrated within the gabbro and the syenite.[2][5] Despite this, there is no petrologic evidence that would confirm the existence of magnetite within the complex. Three possible explanations have been put forward to explain the magnetization of the two intrusive rocks:[4]
There was an induced part of the complex that parallels the present Earth field.[2][4]Файл:Gabbro sample.jpgGabbro sample from the Concord gabbro-syenite Complex
There was a remaining component whose direction depended on the magnetic field of the complex, which was a major component during the placement of the intrusive rocks.[2][4]
There was possible re-magnetization due to tectonics.[4][5]
Gravitational modeling
Early gravitational modeling showed that there was a deep gravity source located within the Concord Gabbro-Syenite Complex.[2] It was initially attributed to the depth of the gabbro and syenite plutons within the complex. Subsequent gravitational modeling assumed that the gabbro had a higher density (circa 280 kg/m3) than the surrounding country rock[5] but made no assumptions regarding the density of the syenite.[4]
Petrology and geochemistry
The complex is made up of gabbro and syenite, but more specifically a olivine-plagioclase gabbro and clinopyroxene-plagioclase gabbro.[5]
Thin section of gabbro and syenite from the Concord gabbro-syenite complex in plane-polarized light and crossed polarized light.
The gabbro located within the Concord complex is made up of medium-grained olivine-plagioclase and clinopyroxene-plagioclase gabbro consisting of a variety of minerals such as:[4]
Plagioclase
Olivine
Clinopyroxene/orthopyroxene
Amphibole
Biotite
Magnetite
Mineralogy of Syenite
The syenite located within the Concord complex is made up of coarse-grained phenocrysts of perthite that are surrounded by other various minerals such as:[4]
Plagioclase
Microcline
Clinopyroxene
Biotite
Amphibole
Quartz
Chemical composition
The average weight % oxides of the Concord gabbro and syenite
Oxide weight %
MnO
FeO1
K2O
CaO
TiO2
Na2O
MgO
Al2O3
SiO2
Total
Gabbro
0.14
9.73
0.31
10.47
1.20
2.51
9.59
17.59
46.9
98.44
Syenite
00.19
3.95
4.41
2.26
1.05
7.45
1.27
17.10
60.8
98.48
Tectonic setting
It is thought that the meta-gabbros present throughout the Concord Gabbro-Syenite Complex were placed approximately 520-580 million years ago (in the Cambrian era) and that a subduction zone caused the igneous activity which created the meta-gabbros.[1] The crystallization of the gabbro and syenite is thought to have occurred 385-415 million years ago, placing its tectonic setting during the Siluro-Devonian era. During this era, the Charlotte and Carolina slate belts were believed to be connected to the North American Continent against the central Piedmont suture. The thrusting of the belts into the western terrain could have resulted in crustal thickening, melting, and mantle uplifting.[1][5]