Book contents
- Frontmatter
- Contents
- Preface
- Acknowledgements
- 1 Nucleosynthesis and nuclear decay
- 2 Mass spectrometry
- 3 The Rb–Sr method
- 4 The Sm–Nd method
- 5 Lead isotopes
- 6 Isotope geochemistry of oceanic volcanics
- 7 Isotope geochemistry of continental rocks
- 8 Osmium isotopes
- 9 Lu–Hf and other lithophile isotope systems
- 10 K–Ar and Ar–Ar dating
- 11 Rare-gas geochemistry
- 12 U-series dating
- 13 U-series geochemistry of igneous systems
- 14 Cosmogenic nuclides
- 15 Extinct radionuclides
- 16 Fission-track dating
- Index
7 - Isotope geochemistry of continental rocks
- Frontmatter
- Contents
- Preface
- Acknowledgements
- 1 Nucleosynthesis and nuclear decay
- 2 Mass spectrometry
- 3 The Rb–Sr method
- 4 The Sm–Nd method
- 5 Lead isotopes
- 6 Isotope geochemistry of oceanic volcanics
- 7 Isotope geochemistry of continental rocks
- 8 Osmium isotopes
- 9 Lu–Hf and other lithophile isotope systems
- 10 K–Ar and Ar–Ar dating
- 11 Rare-gas geochemistry
- 12 U-series dating
- 13 U-series geochemistry of igneous systems
- 14 Cosmogenic nuclides
- 15 Extinct radionuclides
- 16 Fission-track dating
- Index
Summary
Oceanic volcanics, which erupted through thin, young lithosphere, provide a window on the asthenosphere and deep mantle. In contrast, continental basalts and mantle xenoliths, emplaced through thick, old lithosphere, may tell us about the nature of the deep crust and the lithospheric mantle, as well as the evolution of magmas during their ascent to the surface. Isotopic data are a powerful tool for such studies, firstly because of their ability to date geological events, and secondly because of their usefulness as tracers of complex mixing processes.
Unfortunately, continental igneous rocks are difficult to interpret. This is because they can derive an enriched elemental and isotopic signature from three possible sources: mantle plumes, sub-continental lithosphere, and the crust. Resolving these components from one another in continental volcanics and plutons has been a major subject of discussion in geochemistry for several decades. Much progress has been made, but the large number of variables tends to make each case a unique example; or, as Read (1948) put it, there are ‘granites and granites’. This makes a generalised approach to continental magmas difficult, and forces us to adopt a case-study approach as an attempt to illustrate underlying principles.
Mantle xenoliths provide a more direct means of sampling the sub-continental lithosphere. Their texture provides evidence of a solid source, while the peridotite (i.e. lherzolite) petrology of the commonest types is readily distinguished from crustal xenoliths (which will not be dealt with here).
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- Radiogenic Isotope Geology , pp. 174 - 202Publisher: Cambridge University PressPrint publication year: 2005
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