Length of day and polar motion, with respect to temporal variations of the Earth gravity field

TL;DR

This study investigates the relationship between Earth's length of day, polar motion, and gravity field variations using satellite data, aiming to improve understanding of Earth's internal dynamics and system couplings.

Contribution

It is among the first to utilize gravity variation data in established models linking Earth's rotation parameters with gravity field changes.

Findings

Correlations between gravity field variations and Earth's rotation parameters identified.

Enhanced models of Earth's global dynamics developed.

Potential constraints on core-mantle coupling mechanisms proposed.

Abstract

The masses distribution inside the Earth governs the behaviour of the rotation axis in the Earth (polar motion), as well as the Earth rotation rate (or equivalently, length of day). This masses distribution can be measured from space owing to artificial satellites, the orbitography of which provides the Earth gravity field determination. Then, the temporal variations of the Earth gravity field can be related to the variations of the Earth Orientation Parameters (EOP) (with the Inertia Tensor). Nowadays, owing to the satellite laser ranging (SLR) technique and to the new gravimetric satellite missions (such as CHAMP or GRACE), the temporal variations of the low degree coefficients of the Earth gravity field (i.e. Stokes coefficients) can be determined. This paper is one of the first study using gravity variations data in the equations already established (e.g. Lambeck 1988) and linking the variations of the length of day and of the C20 Stokes coefficient (or, linking the polar motion and the C21 and S21 coefficients). This paper combines the Earth rotation data (mainly obtained from VLBI and GPS measurements) and the Earth gravity field variations ones (e.g. Lageos I and II data, or GRACE data), in order to complete and constrain the models of the Earth rotation. The final goal is a better Earth global dynamics understanding, which possible application can be the constraint on the couplings into the Earth system (e.g. core-mantle couplings).