************************************************************************ IERS Message No. 122 December 14, 2007 ************************************************************************ Earth rotation session at EGU General Assembly in Vienna Dear Colleagues, We wish to inform you of and to encourage participation in our session (G5), entitled, "Observing and understanding Earth rotation variability and its geophysical excitation" organized for the European Geosciences Union General Assembly in Vienna, Austria, during April 13-18, 2008. The session description is given below. The deadline for abstract submission is January 14, 2008. For further information please see: http://meetings.copernicus.org/egu2008/ . Thank you for your interest and we hope to see you in Vienna! David Salstein Juergen Mueller Harald Schuh conveners ----------------------------------------------------------------------- Observing and understanding Earth rotation variability and its geophysical excitation The Earth's varying rotation is measured by a number of space geodetic techniques, individually or in combination. The results are reckoned as the Earth orientation parameters (EOP), which result from the intersection of the terrestrial, Earth fixed, and the celestial, space-fixed, reference frames. Conventionally, variations of the EOP are expressed by 5 parameters to describe precession/nutation, the rate of change of axial rotation, and polar motion. As the accuracy and the temporal resolution of the EOP determinations have steadily improved over recent years, we have been seeking more detailed explanations for their excitations. Besides tidal influences from outside the Earth, the principal causes for variable EOP appear to be related to the changing motions and mass distribution of the fluid portions of the planet. Observations of the geophysical fluids, such as the atmosphere, oceans, and other hydrological reservoirs, have achieved a new maturity, as they are typically combined within the context of dynamically designed fluid models, often through optimal methods of data assimilation. Independent observations of the relevant mass fields include the result of novel gravity missions like GRACE as well. Besides the view of contemporary determination of the EOP and the related geophysical excitations, are forecasts of these quantities, important in practical matters of determining Earth position for spacecraft navigation. We seek contributions to this session that highlight new determinations of EOP series and their analyses, and new developments concerning the dynamical basis for the links between the Earth rotation, geophysical fluids, and other geodetic quantities related to the Earth gravity field or surface deformation. ************************************************************************ IERS Messages are edited and distributed by the IERS Central Bureau. To subscribe or unsubscribe, please write to . Archives: http://www.iers.org/iers/publications/messages/ ************************************************************************