| Reference Type | Journal (article/letter/editorial) |
|---|
| Title | Grenville metagabbro complexes of the Otter Lake area, Quebec |
|---|
| Journal | Canadian Journal of Earth Sciences |
|---|
| Authors | Kretz, Ralph | Author |
|---|
| Jones, Peter | Author |
| Hartree, Ron | Author |
| Year | 1989 (February 1) | Volume | 26 |
|---|
| Issue | 2 |
|---|
| Publisher | Canadian Science Publishing |
|---|
| DOI | doi:10.1139/e89-018Search in ResearchGate |
|---|
| Generate Citation Formats |
|---|
| Mindat Ref. ID | 480355 | Long-form Identifier | mindat:1:5:480355:7 |
|---|
|
| GUID | 0 |
|---|
| Full Reference | Kretz, Ralph, Jones, Peter, Hartree, Ron (1989) Grenville metagabbro complexes of the Otter Lake area, Quebec. Canadian Journal of Earth Sciences, 26 (2) 215-230 doi:10.1139/e89-018 |
|---|
| Plain Text | Kretz, Ralph, Jones, Peter, Hartree, Ron (1989) Grenville metagabbro complexes of the Otter Lake area, Quebec. Canadian Journal of Earth Sciences, 26 (2) 215-230 doi:10.1139/e89-018 |
|---|
| In | (1989, February) Canadian Journal of Earth Sciences Vol. 26 (2) Canadian Science Publishing |
|---|
| Abstract/Notes | Metagabbro complexes in a portion of the Grenville Province lying northwest of Ottawa occur as sheets, cylinders, and irregular bodies within a medium- to high-grade marble–gneiss–amphibolite terrane. The largest bodies (0.5–10 km in greatest dimension) consist principally of felsic metagabbro, mafic metagabbro, and minor metapyroxenite. Major-element and select trace-element analyses show that different complexes contain distinctly different amounts of K and other elements resulting in different interelement trends.Microstructure and microprobe mineral analyses provide evidence that the following metamorphic changes have occurred: (i) recrystallization of Ca pyroxene, orthopyroxene, and plagioclase; (ii) reaction of Mg-rich olivine with plagioclase to produce reaction zones consisting of orthopyroxene and a hornblende–spinel intergrowth; (iii) reaction of Mg–Fe olivine with plagioclase to produce garnet and hornblende; (iv) production of anthophyllite and hornblende from orthopyroxene and plagioclase; (v) production of hornblende (locally as rims about Ca pyroxene) from Ca pyroxene and plagioclase; (vi) crystallization of biotite, possibly by reaction between orthopyroxene and K-feldspar; and (vii) crystallization of small inclusions of spinel and ilmenite in Ca pyroxene and of spinel and biotite in plagioclase.With regard to the reaction olivine + plagioclase = orthopyroxene + hornblende + spinel, the anorthite and locally the forsterite components were extracted preferentially from plagioclase and olivine; K and Ti (for hornblende) and Zn (for spinel) were evidently obtained from the surrounding minerals; and H, F, and Cl (for hornblende) were obtained from beyond the gabbro bobies. Locally the reaction occurred within large crystals of Ca pyroxene where embedded olivine and plagioclase crystals were in contact.The production of hornblende rims about Ca pyroxene evidently involved plagioclase as a reactant, but the rims formed regardless of the contacting minerals. For example, rims were locally produced where Ca-pyroxene crystals were embedded in large crystals of orthopyroxene.Application of five geothermometers to crystals of both igneous and metamorphic origin yield temperatures of about 700 °C, similar to temperatures recorded for the enclosing marble and gneiss. |
|---|
These are possibly similar items as determined by title/reference text matching only.
