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IERS Message No. 272                                        May 11, 2015
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Symposium on Earth Rotation in July 2016 - First Announcement


Dear Colleagues -

A Joint IAU / IAG / IERS Symposium "Geodesy, Astronomy and Geophysics in
Earth Rotation (GAGER2016)" will be held during 18 - 23 July 2016 at
Wuhan, Hubei Province, China. The full announcement is attached. Please
visit also the symposium's website

   http://main.sgg.whu.edu.cn/gager2016/ .

Kind regards,
Cheng-Li Huang

President, IAU Comm. 19 "Rotation of the Earth"



First Announcement and Call for Abstract Submission

Geodesy, Astronomy and Geophysics in Earth Rotation (GAGER2016) -
A Joint IAU / IAG / IERS Symposium

18 July - 23 July 2016, Wuhan, Hubei, China

http://main.sgg.whu.edu.cn/gager2016/


Background

Earth rotation varies continuously in both its rate and its axis of
orientation, with respect to either crust-fixed or space-fixed reference
frames. Its study links the fields of Geodesy, Astronomy and Geophysics.
Rotational fluctuations occur on all observable time scales, from
subdaily to decadal and longer, and are measured by geodetic and
astronomical methods. Interpretation of the variations reveals subtle
features of the Earth system involving a wide range of geophysical and
astronomical effects, which are causing those rotational fluctuations.
These include external tidal forcing by the sun, moon, and planets,
interactions between the solid Earth and its surficial fluid envelopes
(atmosphere, oceans, and hydrosphere), and internal processes within the
solid Earth. Those causes fall into three categories: mass
redistribution (or matter term excitation), relative motion (or motion
term excitation) and torque, and can be converted to the rotational
excitations through the responses of the stratified, deformable Earth.
Theoretical developments relating Earth rotation variations with
specific geophysical causes have a long and rich history, providing
unique information about the rheology of the planet. But the high
accuracy of modern geodetic data presents some challenges for the
fullest theoretical understandings, such as the frequency-dependent
rotational responses of the Earth, the nonpassive responses of the
oceans to the Earth's rotational variations and the dynamic-barometer
effect in the ocean-atmosphere-ocean interactions.

Measurements of the Earth's time-varying rotation have been provided
traditionally by optical astrometry and more recently by the space
geodetic techniques of satellite and lunar laser ranging (SLR and LLR),
very long baseline interferometry (VLBI), global navigation satellite
systems (GNSS), and Doppler orbitography and radio positioning
integrated by satellite (DORIS). With the launch of the GRACE twin
gravity satellites in March 2002 and the densification of the global
GNSS ground tracking network, new opportunities for studying the Earth's
rotation have opened. GRACE directly observes surface mass
redistribution while the global network of GNSS receivers senses the
associated load deformations of the Earth's surface and its effect on
the Earth's rotation. While all the above-mentioned techniques can only
provide the position of the celestial intermediate pole, the emerging
ring laser gyroscopes are directly sensitive to the terrestrial position
of the instantaneous rotation pole of the Earth and thus may contribute
to better understanding ultra-high-frequency rotational variations,
particularly those occurring on subdaily to daily time scales. Combining
independent observations of the Earth's rotation, gravity, and shape
enable greater insight into the common processes causing them over a
very broad band.

This joint science symposium, organized by Commission 19/A2 (Rotation of
the Earth) of the International Astronomical Union (IAU), Commission 3
(Earth Rotation and Geodynamics) of the International Association of
Geodesy (IAG), and the International Earth Rotation and Reference
Systems Service (IERS), and hosted by Wuhan University, Shanghai
Astronomical Observatory and the Institute of Geodesy and Geophysics,
will be a forum for assessing our current ability to observe the Earth's
time varying rotation, for assessing our current understanding of the
causes of the observed variations, for assessing the consistency of
Earth rotation observations with global gravity and shape observations,
for exploring methods of combining Earth rotation, gravity, and shape
observations to gain greater understanding of the mass load acting on
the surface of the solid Earth, and for identifying improvements in the
global geodetic observing system needed to further our understanding of
the Earth's variable rotation.

The Scientific and Local Organizing Committees welcome scientists from
all over the world to contribute to this symposium.


Venue

The symposium will be held in the Junyi Dynasty Hotel in Wuhan, the
capital city of Hubei Province, China.


Abstract submission

Deadline for Abstract Submission is April 30, 2016. Abstracts should be
submitted to Dr. Wei Chen (wchen [at] sgg.whu.edu.cn or
weichen.geo [at] gmail.com) and Mr. Yuanjin Pang
(pan_yuanjin [at] 163.com), and should specify "oral" or "poster"
presentation(s) is(are) preferred.


Theme of the symposium

All the submitted abstracts should be related to Earth rotation,
including but not limited to the following topics:

- Theoretical modeling of Earth's rotation
- Modeling of Earth's gravity, figure, (an)elasticity and rheology for
  Earth rotation studies
- Modeling of atmosphere-ocean and solid Earth-ocean interactions
- Observation, analysis and prediction of Earth rotation variations
- Contributions of satellite gravimetry to Earth rotation studies
- Ring laser gyroscopes' contributions to ultra-high-frequency Earth
  rotation variations
- Geophysical excitations of Earth rotation variations
- Constraints of the physics and dynamics the Earth's interior from
  Earth rotation observations


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