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Author:   Kenneth P. Kodama (Lehigh University) ,  Linda A. Hinnov (John Hopkins University)
Publisher:   John Wiley and Sons Ltd
Imprint:   Wiley-Blackwell
Dimensions:   Width: 18.80cm , Height: 2.10cm , Length: 26.40cm
Weight:   0.649kg
ISBN:  

9781118561287

ISBN 10:   1118561287
Pages:   176
Publication Date:   26 September 2014
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

1 Introduction 1 1.1 Rock Magnetic Cyclostratigraphy 1 1.2 Basic Steps of a Rock Magnetic Cyclostratigraphy Study 4 1.3 The Significance of Rock Magnetic Cyclostratigraphy 6 1.4 Layout of the Book 7 References 8 2 Rock Magnetism 10 2.1 Introduction 10 2.2 Types of Magnetism 12 2.3 Ferromagnetic Minerals 16 2.4 Fine Particle Magnetism 20 2.4.1 Hysteresis 20 2.4.2 Magnetic Particle Anisotropy 24 2.4.3 Domain State 25 2.5 Environmental Magnetic Parameters 26 2.5.1 Individual Environmental Magnetic Parameters 26 2.5.2 Ratios of Environmental Magnetic Parameters 29 2.6 Identification of Magnetic Mineralogies and Choosing a Rock Magnetic Parameter for Cyclostratigraphy 31 References 32 3 Magnetostratigraphy 35 3.1 Introduction 35 3.2 Measuring Magnetostratigraphy 37 3.2.1 Sampling Strategy 37 3.2.2 Sample Collection 37 3.2.3 Measurement and Demagnetization 38 3.2.4 Tests to Constrain the Age of Remanence 41 3.2.5 Plotting of Magnetostratigraphic Data and Determining a Reversal Stratigraphy 42 3.3 Tying to the GPTS 46 3.4 Providing the Best Time Resolution from Magnetostratigraphy 49 References 49 4 Time Series Analysis for Cyclostratigraphy 52 4.1 Introduction 52 4.2 Geological Time Series 53 4.3 Time Series Analysis Tools and Eocene Arguis Rock Magnetic Cyclostratigraphy 54 4.3.1 Sampling and Interpolation 54 4.3.2 Detrending, Smoothing, and “Prewhitening” 56 4.3.3 Filtering Basics 56 4.3.4 Digital Filters 58 4.3.5 Spectral Analysis 58 4.3.6 Hypothesis Testing and Noise Modeling 73 4.3.7 Time-Frequency Analysis 81 4.3.8 Coherency and Cross-Phase Analysis 83 References 87 5 Milankovitch Forcing Theory 90 5.1 Introduction 90 5.2 Astronomical Parameters 90 5.3 Insolation 93 5.4 Astronomical Tuning and Timescales 93 5.4.1 The Initial Timescale 93 5.4.2 Traditional Astronomical Tuning 96 5.4.3 Objective Astronomical Tuning 97 References 97 6 Case Studies of Rock Magnetic Cyclostratigraphy 99 6.1 Introduction and Environmental Shredding 99 6.2 Stirone River Section, Northern Italy 101 6.3 Arguis Formation, Spanish Pyrenees 104 6.4 Cupido Formation Platform Carbonates, Northeastern Mexico 107 6.5 Latemar Massif, Triassic Carbonates, Northern Italy 111 6.6 Daye Formation, Triassic Carbonates, South China 113 6.7 Mauch Chunk Formation: Mississippian Red Beds, Pottsville, Pennsylvania 117 6.8 Rainstorm Member of the Neoproterozoic Johnnie Formation, Death Valley, California 119 6.9 Encoding of Orbitally Forced Climate Signals 123 References 124 7 Doing Rock Magnetic Cyclostratigraphy 128 7.1 Study Design 128 7.2 Field Sampling 131 7.3 Laboratory Preparation 132 7.4 Remanence Measurements 134 7.5 Time Series Analysis: Summary of Procedures 137 7.5.1 Preparation of the Data Series 138 7.5.2 Spectral Estimation 138 7.5.3 Significance of the Spectral Peaks 139 7.5.4 Evolutionary Spectrogram 140 7.5.5 Tuning and Filtering 140 7.6 Identifying Astronomically Forced Climate Cycles 141 References 143 Appendix 145 Glossary 157 Index 161

Reviews

In my opinion, Ken and Linda have done an outstanding job of assembling a very useful monograph on rock magnetic cyclostratigraphy. It will be of considerable interest to a range of workers. Notably, It is a very hands-on, user friendly compilation that will be readily understood and appreciated by researchers at all levels, including first year MS students or junior/senior undergraduate students whose advisor is keen on them conducting a rock magnetic cyclostratigraphic investigation as part or all of their thesis or an undergraduate research thesis! (Professor John Geissman, University of Texas at Dallas)

Author Information

Kenneth P. Kodama is Professor of Earth and Environmental Sciences at Lehigh University, USA. He has taught Earth sciences and conducted paleomagnetic and rock magnetic research with his students at Lehigh for the past 36 years. In his time away from paleomagnetism he enjoys playing music. Linda A. Hinnov is a research Professor at Johns Hopkins University, USA  specializing in the astronomical forcing of Earth’s paleoclimate system. She has longstanding interests in cyclostratigraphy, and its implications for the evolution of Earth’s geophysical and astronomical parameters and the geologic time scale.

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