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Field Geology of High-Grade Gneiss Terrains

Authors: Dr. Cees W. Passchier, Dr. John Stuart Myers, Professor Dr. Alfred Kröner

Publisher: Springer Berlin Heidelberg

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About this book

Although there are numerous publications on the geology of high-grade gneiss terrains, few descriptions exist of how to map and carry out structural analysis in these terrains. Textbooks on structural geology concentrate on technIques appli cable to low-grade terrains. Geologists who have no experience of mapping high-grade gneisses are often at a loss as to how to apply techniques to high grade rocks that were developed for low to medium grade metamorphic terrains. Any study of deep crustal processes and their development through time should begin with examination of the primary data source - outcrops of high grade metamorphic terrains. We feel that the urge to apply advanced techniques of fabric analysis, petrology, geochemistry, isotope geochemistry and age deter mination to these rocks often results in brief sampling trips in which there is little, if any analysis of the structural and metamorphic history revealed by outcrop patterns. Many studies of the metamorphic petrology and geochemistry of high-grade gneiss terrains make ineffective use of available field data, often because the authors are unaware of structural complexities and of the ways to recognise and use them. This is unfortunate, because much data can be collected in the field at minimal cost that cannot easily, if at all, be obtained from material in the laboratory. The primary igneous or sedimentary nature of a rock, the relative age of intrusive veins, and the sequence of deformation that they under went, can usually best be determined by straightforward observation in the field.

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Table of Contents

Frontmatter

1. Introduction

Abstract

High-grade¹ gneisses make up a significant part of the continental crust exposed in orogenic belts and in Precambrian cratons. A lot of research has been focussed on high-grade gneiss terrains because they contain a large proportion of the Earth’s mineral wealth. Some of these terrains are considered to represent exhumed segments of the lower continental crust and, as such, give valuable insight into processes of crustal genesis.

Cees W. Passchier, John Stuart Myers, Alfred Kröner

2. Mapping in Gneiss Terrains

Abstract

Whatever the purpose of working in gneiss terrains, a prerequisite for success is a thorough understanding of the geometry and relative age relations of rock units and the sequence of deformation and metamorphism. Because of the three-dimensional complexity of deformation and intrusion relations in gneiss terrains, it is in most cases impossible to understand relations by visiting a single outcrop, or even by means of a small number of transects through the area under consideration. If no detailed geological maps are present, or if the subject of study is insufficiently dealt with on available maps, it will be necessary to map an area in some detail.

Cees W. Passchier, John Stuart Myers, Alfred Kröner

3. Fabric Development in Gneiss Terrains

Abstract

This chapter describes some aspects of the development of fabrics in gneiss terrains. It provides essential background information that should be read before attempting to map a gneiss terrain. Inevitably, the interpretations are ‘state of the art’ and not necessarily the absolute answer. Additional information can be found in the cited literature and various specialised journals such as the Journal of Structural Geology, the Journal of Metamorphic Geology, Tectonophysics, Tectonics and Precambrian Research.

Cees W. Passchier, John Stuart Myers, Alfred Kröner

4. Interpretation of Structures and Fabrics Recognition and Interpretation of Fabric Patterns in Outcrop

Abstract

High-grade gneisses with a long and complex history have a finite ‘memory’ of past events. This memory is formed by fabric elements such as foliations, lineations, folds, mineral assemblages, boudins and sequences of intrusion. One of the aims of a geologist is to tap this memory as effectively as possible. The memory of rocks, however, is rather inadequate in that it is partly destroyed by the same events which produce the fabric elements that are recorded (Williams, 1983). Strong deformation erases older fabric elements; intrusions, recrystallisation and partial melting do the same (Figs. 1.1; 4.1). One of the purposes of this manual is to help geologists working in high-grade gneiss terrains to recognise the effects which modify or obliterate the rock’s memory, and to obtain all the data from the rock which are still available.

Cees W. Passchier, John Stuart Myers, Alfred Kröner

5. Metamorphic History of Gneiss Terrains

Abstract

The local metamorphic history is an essential topic in the study of high-grade gneiss terrains. This chapter only deals with those aspects of the metamorphic history that can be studied in the field. We will briefly outline terminology, the methods which can be applied, and the difficulties involved. For more information we refer to textbooks such as Miyashiro (1975), Winkler (1976), Mason (1981), Best (1982), Vernon (1983), Spry (1986), Yardley (1989) and to the references given in the text.

Cees W. Passchier, John Stuart Myers, Alfred Kröner

6. Geochemistry, Isotope Geochemistry and Geochronology: Application to Field Studies

Abstract

Structural studies make it possible to reconstruct the metamorphic and deformation history of a rock body but do not provide information on the absolute timing of these processes. Likewise, field observations and structural work alone may not unambiguously identify the protoliths of many high-grade gneisses or the compositional changes associated with migmatisation, anatexis and the general action of fluid and/or vapour phases in a rock. Geochemical research can answer many of these problems but, as most of this research is laboratory-oriented, we limit ourselves to some general outlines of the possible lines of research, so that these can be borne in mind during fieldwork.

Cees W. Passchier, John Stuart Myers, Alfred Kröner

7. Origin and Evolution of High-Grade Gneiss Terrains

Abstract

In the previous chapters we have given an impression of the way in which the analysis of high-grade rocks can be approached in the field. Here we conclude with some current larger-scale ideas on the origin and evolution of such rock assemblages.

Cees W. Passchier, John Stuart Myers, Alfred Kröner

8. Problem Section

Abstract

This manual describes some of the most important features that should be observed, recorded and analysed in the field interpretation of gneiss terrains. However, every outcrop is unique, and unforeseen problems will be encountered. Increasing experience will make it easier to solve these problems but will also enable the detection of further subtle complexities. In this section we present examples of some commonly encountered phenomena that may easily be misinterpreted. These are followed by a series of exercises in the form of outcrop maps and photographs.

Cees W. Passchier, John Stuart Myers, Alfred Kröner

9. References

Cees W. Passchier, John Stuart Myers, Alfred Kröner

Backmatter

Title: Field Geology of High-Grade Gneiss Terrains
Authors: Dr. Cees W. Passchier
Dr. John Stuart Myers
Professor Dr. Alfred Kröner
Copyright Year: 1990
Publisher: Springer Berlin Heidelberg
Electronic ISBN: 978-3-642-76013-6
Print ISBN: 978-3-540-53053-4
DOI: https://doi.org/10.1007/978-3-642-76013-6