Geoscience Reference
In-Depth Information
R. Madden and P. Julian. Detection of a 40-50 day oscillation in the zonal wind in the tropical
Pacific.
J. Atmos. Sci.
, 28:702-708, 1971.
P.M. Mathews, T.A. Herring, and B.A. Buffett. Modeling of nutation and precession: New nutation
series for nonrigid Earth and insights into the Earth's interior.
J. Geophys. Res.,
104(B4):2068,
doi:
10.1029/2001JB000390
,
2002.
D.D. McCarthy and B. Luzum. IERS Conventions 2010.
IERS Technical Note
, (36):179 pp., 2010.
P. McClure. Diurnal polar motion. GSFC document X-592-73-259, Goddard Space Flight Center,
Greenbelt, Maryland, 1973.
P.J. Mendes Cerveira, J. Böhm, H. Schuh, T. Klügel, A. Velikoseltsev, U. Schreiber, and A.
Brzezi nski. Earth rotation observed by Very Long Baseline Interferometry and ring laser.
Pure
Appl. Geophys.,
166(8-9):1499-1517, doi
:
10.1007/s00024-004-0487-z
,
2009.
J.B. Merriam. Zonal tides and changes in the length of day.
Geophys. J. R. Astron. Soci.
, 62:551-561,
1980.
H. Moritz and I.I. Müller.
Earth Rotation: Theory and Observation
. Ungar, New York, 1987.
L.V. Morrison and F.R. Stephenson. Historical eclipses and the variability of the Earth's rotation.
J. Geodyn.,
32(1-2):247-265, doi:
10.1016/S0264-3707(01)00024-2
,
2001.
W.H. Munk and G.J.F. MacDonald.
The Rotation of the Earth: A Geophysical Discussion
.Cam-
bridge University Press, New York, 1960.
J. Nastula and D. Salstein. Regional atmospheric angular momentum contributions to polar motion
excitation.
J. Geophys. Res.,
104(B4):7347-7358, doi:
10.1029/1998JB900077
,
1999.
S.G. Philander.
El Niño, La Niña, and the Southern Oscillation
. Academic Press, San Diego, 1990.
R.M. Ponte. Oceanic excitation of daily to seasonal signals in Earth rotation: results from a
constant-density numerical model.
Geophys. J. Int.,
130(2):469-474, doi:
10.1111/j.1365-246X.
1997.tb05662.x
,
1997.
R.D. Ray, D.J. Steinberg, B.F. Chao, and D.E. Cartwright. Diurnal and semidiurnal variations in the
Earth's rotation rate induced by oceanic tides.
Science
, 264(5160):830-832, doi:
10.1126/science.
264.5160.830
,
1994.
D.A. Salstein. Angular momentum of the atmosphere. In J. Holton, J. Pyle, J. Curry, editor,
Ency-
clopedia of Atmospheric Sciences
, pages 128-134. Elsevier, 2002.
D.A. Salstein and R.D. Rosen. Topographic forcing of the atmosphere and a rapid change in the
length of day.
Science
, 264:407-409, 1994.
T. Sasao and J.M. Wahr. An excitation mechanism for the free 'core nutation'.
Geophys. J. R. Astron.
Soc.,
64:729-746, 1981.
M. Schindelegger, J. Böhm, D. Salstein, and H. Schuh. High-resolution atmospheric angular
momentum functions related to Earth rotation parameters during CONT08.
J. Geod.,
8(7):425-
433, doi
:
10.1007/s00190-011-0458-y
,
2011.
H. Schuh and S. Böhm. Earth rotation. In H.K. Gupta, editor,
Encyclopedia of Solid Earth Geo-
physics
, pages 123-129. Springer, 2011.
H. Schuh, S. Nagel, and T. Seitz. Linear drift and periodic variations observed in long time series
of polar motion.
J. Geod.,
74(10):701-710, doi:
10.1007/s001900000133
,
2001.
F. Seitz. Atmosphärische und ozeanische Einflüsse auf die Rotation der Erde - Numerische Unter-
suchungenmit einemdynamischen Erdsystemmodell. C578, Deutsche Geodätische Kommission,
München (in German), 2004.
F. Seitz and H. Schuh. Earth rotation. In G. Xu, editor,
Science of Geodesy I: Advances and Future
Directions
, pages 185-227. Springer, 2010.
M.L. Smith and F.A. Dahlen. The period and Q of the Chandler wobble.
Geophys. J. R. Astron.
Soc.,
64:223-281, 1981.
R.O. Vicente and C.R. Wilson. On the variability of the Chandler frequency.
J. Geophys. Res.,
102(B9):20439-20445, doi:
10.1029/97JB01275
,
1997.
J. Vondrák and C. Ron. Quasi-diurnal atmospheric and oceanic excitation of nutation.
Acta Geodyn.
Geomater.,
4(4):121-128, 2007.
J. Vondrák and C. Ron. Study of atmospheric and oceanic excitations in the motion of Earth's spin
axis in space.
Acta Geodyn. Geomater.,
7(1):19-28, 2010.
