Milankovitch and Climate: Understanding the Response to Astronomical Forcing, Part 1André Berger |
Contents
BERGER | 37 |
BRETAGNON P Accuracy of long term planetary theory | 55 |
BERGER A and P PESTIAUX Accuracy and stability | 81 |
Copyright | |
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Other editions - View all
Milankovitch and Climate: Understanding the Response to Astronomical Forcing A.L. Berger,J. Imbrie,J. Hays,G. Kukla,B. Saltzman No preview available - 1984 |
Milankovitch and Climate: Understanding the Response to Astronomical Forcing A.L. Berger,J. Imbrie,J. Hays,G. Kukla,B. Saltzman No preview available - 2013 |
Common terms and phrases
A. L. Berger accumulation rate age model amplitude Arctic Ocean Arctic Ocean Ice astronomical average basin beds bioturbation CaCO3 calculated carbonate cycles CARPOR Cenomanian changes coefficients coherence core correlation corresponding Cretaceous curve deep-sea deposition depth diagenesis dissolution DSDP Earth Earth's orbit eccentricity Entropy eolian equations estimates evaporite Figure Fourier function Funza Geol geological glacial global Hays Ice Sheet ice volume Imbrie intervals isotope record Kukla kyr BP kyr period lags latitudes limestone linear Lockatong Maximum Entropy method Milankovitch and Climate monsoon obliquity Ocean Ice Sheet orbital forcing orbital parameters orbital variations oscillations oxygen isotope paleoclimatic pelagic perturbations phase Pisias planets planktonic Pleistocene Power Spectral Density precession Quaternary radiolarian radiometric radiometric dates Saltzman Eds scale Science sedimentary sedimentation rate sequence Shackleton signal solar insolation solution SPECMAP Spectral Analysis spectral peaks spectrum stratigraphic STYLOLITES Table temperature theory thickness tion tuning values variables variance