Preface. Acknowledgements. 1. Introduction. Aim. The Scope of this book. How to use this book. The role of fieldwork in glaciology and glacial geomorphology. The relationship between field glaciology and glaciological theory. 2. Conducting fieldwork. Aim. Designing and planning field based research. Logistical preparations for fieldwork. Fieldwork data . 3. Ice. Aim. Ice masses and ice facies: principles, definition and identification. Sampling glacier ice. Ice analysis. Student projects. 4. Meltwater. Aim. Background. Measuring bulk meltwater discharge: stage discharge rating curves. Sampling and analysing glacial meltwaters. Automatedmeasurements by sensors and loggers. Tracer investigations. Student projects. 5. Hot water borehole drilling and borehole instrumentation. Aim. Introduction. Hot water drilling. Borehole instrumentation. Summary. Student projects. 6. Ice radar. Aim. Background and physical principles. Ice radar equipment. Radar data presentation. Field radar surveys. Processing. Field application and interpretation of ice radar. Student projects. 7. Glacier mass balance and motion. Aim. Surface energy budget. Mass balance. Glacier motion and ice velocity. Student projects. 8. Glacigenic sediments. Aim. Introduction to field sedimentology. Colour and organic content. Sediment texture. Particle morphology: the shape and roundness of sedimentary particles. Bedding. Sedimentary structures. Palaeocurrent data. Other properties. Field sampling techniques. Fabric analysis: general considerations. Clast macrofabrics. Clast microfabrics and microstructural description. Clast mesofabrics. Laboratory analysis. Interpreting the environment of deposition of sediments. Presentation of sedimentological data. Research possibilities. 9. Mapping glaciers and glacial landforms. Aim. General consideration. Aims of the mapping and the areal extent of the map. Desk based studies. Remotely sensed data. Geomorphological mapping. Field mapping. Field surveying techniques. Ground penetrating radar and shallow seismic reflection investigations of sediment bodies. Electrical resistivity surveys. Aquatic (marine and lacustrine) geophysical techniques. Mapping glacier structures (structural glaciology). Final map compilation. Mapping and measurement of landform change over time. Research possibilities. 10. Monitoring and reconstructing glacier fluctuations. Aim. Remotely sensed images. Fieldwork mapping and historical documents. Dating glacier fluctuations using absolute age (numerical age) and relative age estimates. Numerical age dating techniques. Relative age dating techniques. Dating glacier fluctuations concluding remarks. Research possibilities. References. Index.