La2010: A new orbital solution for the long term motion of the Earth

TL;DR

This paper introduces La2010, a refined Earth's orbital solution accurate for up to 50 million years, improving previous models through better parameter fitting and revised precession equations, aiding paleoclimate studies.

Contribution

The paper presents La2010, a new orbital solution with enhanced accuracy and extended validity, surpassing previous models like La2004, by refining parameters and precession calculations.

Findings

Valid for over 50 million years with proper phase accuracy

Improved parameter fitting using high-precision ephemeris

Multiple solutions compatible with planetary ephemeris for paleoclimate calibration

Abstract

We present here a new solution for the astronomical computation of the orbital motion of the Earth spanning from 0 to -250 Myr. The main improvement with respect to the previous numerical solution La2004 (Laskar et al. 2004) is an improved adjustment of the parameters and initial conditions through a fit over 1 Myr to a special version of the high accurate numerical ephemeris INPOP08 (Fienga et al. 2009). The precession equations have also been entirely revised and are no longer averaged over the orbital motion of the Earth and Moon. This new orbital solution is now valid over more than 50 Myr in the past or in the future with proper phases of the eccentricity variations. Due to chaotic behavior, the precision of the solution decreases rapidly beyond this time span, and we discuss the behavior of various solutions beyond 50 Myr. For paleoclimate calibrations, we provide several different solutions that are all compatible with the most precise planetary ephemeris. We have thus reached the time where geological data are now required to discriminate among planetary orbital solutions beyond 50 Myr.