The ULR-repro3 GPS data reanalysis and its estimates of vertical land motion at tide gauges for sea level science
-
Published:2023-02-01
Issue:1
Volume:15
Page:497-509
-
ISSN:1866-3516
-
Container-title:Earth System Science Data
-
language:en
-
Short-container-title:Earth Syst. Sci. Data
Author:
Gravelle MédéricORCID, Wöppelmann GuyORCID, Gobron KevinORCID, Altamimi ZuheirORCID, Guichard MikaëlORCID, Herring ThomasORCID, Rebischung Paul
Abstract
Abstract. A new reanalysis of Global Navigation Satellite System (GNSS) data at or
near tide gauges worldwide was produced by the University of La Rochelle
(ULR) group within the third International GNSS Service (IGS)
reprocessing campaign (repro3). The new solution, called ULR-repro3,
complies with the IGS standards adopted for repro3, implementing advances in
data modelling and corrections since the previous reanalysis campaign and
extending the average record length by about 7 years. The results presented
here focus on the main products of interest for sea level science:
the station position time series and associated velocities on the vertical
component at tide gauges. These products are useful to estimate accurate
vertical land motion at the coast and supplement data from satellite
altimetry or tide gauges for an improved understanding of sea level changes
and their impacts along coastal areas. To provide realistic velocity
uncertainty estimates, the noise content in the position time series was
investigated considering the impact of non-tidal atmospheric loading.
Overall, the ULR-repro3 position time series show reduced white noise and
power-law amplitudes and lower station velocity uncertainties compared with the
previous reanalysis. The products are available via SONEL
(https://doi.org/10.26166/sonel_ulr7a; Gravelle et al.,
2022).
Funder
National Aeronautics and Space Administration National Science Foundation
Publisher
Copernicus GmbH
Subject
General Earth and Planetary Sciences
Reference58 articles.
1. Alken, P., Thébault, E., Beggan, C. D., Amit, H., Aubert, J., Baerenzung, J., Bondar, T. N., Brown, W. J., Califf, S., Chambodut, A., Chulliat, A., Cox, G. A., Finlay, C. C., Fournier, A., Gillet, N., Grayver, A., Hammer, M. D., Holschneider, M., Huder, L., Hulot, G., Jager, T., Kloss, C., Korte, M., Kuang, W., Kuvshinov, A., Langlais, B., Léger, J.-M., Lesur, V., Livermore, P. W., Lowes, F. J., Macmillan, S., Magnes, W., Mandea, M., Marsal, S., Matzka, J., Metman, M. C., Minami, T., Morschhauser, A., Mound, J. E., Nair, M., Nakano, S., Olsen, N., Pavón-Carrasco, F. J., Petrov, V. G., Ropp, G., Rother, M., Sabaka, T. J., Sanchez, S., Saturnino, D., Schnepf, N. R., Shen, X., Stolle, C., Tangborn, A., Tøffner-Clausen, L., Toh, H., Torta, J. M., Varner, J., Vervelidou, F., Vigneron, P., Wardinski, I., Wicht, J., Woods, A., Yang, Y., Zeren, Z., and Zhou, B.: International Geomagnetic
Reference Field: the thirteenth generation, Earth Planets Space, 73,
49, https://doi.org/10.1186/s40623-020-01288-x, 2021. 2. Altamimi, Z., Boucher, C., and Sillard, P.: New trends for the realization
of the International Terrestrial Reference System, Adv. Space Res., 30,
175–184, 2002. 3. Altamimi, Z., Métivier, L., Rebischung, P., Rouby, H., and Collilieux,
X.: ITRF2014 plate motion model, Geophys. J. Int., 209, 1906–1912, 2017. 4. Altamimi, Z., Boucher, C., Sillard, P., Collilieux, X., and Rebischung, P.:
CATREF software (Combination and Analysis of Terrestrial Reference Frames),
Manual, version of 19 April 2018. 5. Amiri-Simkooei, A. R.: On the nature of GPS draconitic year periodic pattern
in multivariate position time series, J. Geophys. Res.-Sol. Ea., 118,
2500–2511, https://doi.org/10.1002/jgrb.50199, 2013.
Cited by
4 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|