TY - JOUR
T1 - The Hohonu Batholith of North Westland, New Zealand
T2 - Granitoid compositions controlled by source H2O contents and generated during tectonic transition
AU - Waight, Tod E.
AU - Weaver, Stephen D.
AU - Muir, Roderick J.
AU - Maas, Roland
AU - Eby, G. Nelson
PY - 1998/12/1
Y1 - 1998/12/1
N2 - Geochemical studies on the Hohonu Batholith, of the West Coast, South Island, New Zealand, have recognised two distinct but chemically related suites of mid-Cretaceous granitoids. The suites are characterised by restricted radiogenic isotopic compositions (Sr(i) = 0.7062 to 0.7085; εNd(i) = -4.4 to -6.1), and represent melting of a mafic lithosphere source followed by interaction with Ordovician metasediments. The two suites (Te Kinga Suite and Deutgam Suite) are distinguished by contrasting contents of Al2O3, Na2O, Sr, Ba, Eu and HREE, attributable to different residual assemblages controlled by differing H2O contents during melting of a metabasaltic source. The relatively mafic, metaluminous, I-type Deutgam Suite represents magmas derived by dehydration melting in equilibrium with an amphibolitic (plagioclase + amphibole) residue. In contrast, the peraluminous, high silica compositions of the Te Kinga Suite were produced by melting at higher H2O contents, reducing the stability of plagioclase and resulting in a melt in equilibrium with a plagioclase-free eclogitic (garnet + amphibole) residue. Residual plagioclase during generation of the Deutgam Suite resulted in lower Al2O3, Na2O, Sr, Ba and Eu contents, whereas residual garnet during generation of the Te Kinga suite resulted in depleted HREE contents. The mid-Cretaceous granitoids of the Hohonu Batholith were generated during a period of rapid tectonic transition from crustal thickening during collision to crustal thinning and core complex formation during extension.
AB - Geochemical studies on the Hohonu Batholith, of the West Coast, South Island, New Zealand, have recognised two distinct but chemically related suites of mid-Cretaceous granitoids. The suites are characterised by restricted radiogenic isotopic compositions (Sr(i) = 0.7062 to 0.7085; εNd(i) = -4.4 to -6.1), and represent melting of a mafic lithosphere source followed by interaction with Ordovician metasediments. The two suites (Te Kinga Suite and Deutgam Suite) are distinguished by contrasting contents of Al2O3, Na2O, Sr, Ba, Eu and HREE, attributable to different residual assemblages controlled by differing H2O contents during melting of a metabasaltic source. The relatively mafic, metaluminous, I-type Deutgam Suite represents magmas derived by dehydration melting in equilibrium with an amphibolitic (plagioclase + amphibole) residue. In contrast, the peraluminous, high silica compositions of the Te Kinga Suite were produced by melting at higher H2O contents, reducing the stability of plagioclase and resulting in a melt in equilibrium with a plagioclase-free eclogitic (garnet + amphibole) residue. Residual plagioclase during generation of the Deutgam Suite resulted in lower Al2O3, Na2O, Sr, Ba and Eu contents, whereas residual garnet during generation of the Te Kinga suite resulted in depleted HREE contents. The mid-Cretaceous granitoids of the Hohonu Batholith were generated during a period of rapid tectonic transition from crustal thickening during collision to crustal thinning and core complex formation during extension.
UR - http://www.scopus.com/inward/record.url?scp=0032458932&partnerID=8YFLogxK
U2 - 10.1007/s004100050362
DO - 10.1007/s004100050362
M3 - Journal article
AN - SCOPUS:0032458932
SN - 0010-7999
VL - 130
SP - 225
EP - 239
JO - Contributions to Mineralogy and Petrology
JF - Contributions to Mineralogy and Petrology
IS - 3-4
ER -