The oceanic response to surface loading, such as that related to atmospheric pressure, freshwater exchange, and changes in the gravity field, is essential to our understanding of sea level variability. In particular, so-called self-attraction and loading (SAL) effects caused by the redistribution of mass within the land–atmosphere–ocean system can have a measurable impact on sea level. In this study, the nature of SAL-induced variability in sea level is examined in terms of its equilibrium (static) and nonequilibrium (dynamic) components, using a general circulation model that implicitly includes the physics of SAL. The additional SAL forcing is derived by decomposing ocean mass anomalies into spherical harmonics and then applying Love numb...
Ocean warming contributes to global mean sea level rise by reducing the density of seawater, thus in...
Inverted barometer effects and steric changes effects on hydrostatic response of ocea
There is large uncertainty in the future regional sea level change under anthropogenic climate chang...
The oceanic response to surface loading, such as that related to atmospheric pressure, freshwater ex...
The annual exchange of water between the continents and oceans is observed by GPS, gravimetry, and a...
The impact of self-attraction and loading (SAL) on ocean bottom pressure xi, an effect not previousl...
Self-attraction and loading (SAL) effects caused by changes in mass loads associated with land hydro...
The impact of self-attraction and loading (SAL) on Earth rotation has not been previously considered...
Mass distribution in the global ocean, equivalently described in terms of Ocean Bottom Pressure (OBP...
We investigate the effect of self-attraction and loading (SAL) induced by the projected accumulation...
Author Posting. © American Meteorological Society, 2022. This article is posted here by permission o...
We derive a generalized theory for gravitationally self-consistent, static sea level variations on e...
As ice sheets gain or lose mass, and as water moves between the continents and the ocean, the solid ...
Variations in the Earth's water cycle are commonly quantified by their effect on global mean sea?lev...
Variations in the Earth’s water cycle are commonly quantified by their effect on global mean sea‐le...
Ocean warming contributes to global mean sea level rise by reducing the density of seawater, thus in...
Inverted barometer effects and steric changes effects on hydrostatic response of ocea
There is large uncertainty in the future regional sea level change under anthropogenic climate chang...
The oceanic response to surface loading, such as that related to atmospheric pressure, freshwater ex...
The annual exchange of water between the continents and oceans is observed by GPS, gravimetry, and a...
The impact of self-attraction and loading (SAL) on ocean bottom pressure xi, an effect not previousl...
Self-attraction and loading (SAL) effects caused by changes in mass loads associated with land hydro...
The impact of self-attraction and loading (SAL) on Earth rotation has not been previously considered...
Mass distribution in the global ocean, equivalently described in terms of Ocean Bottom Pressure (OBP...
We investigate the effect of self-attraction and loading (SAL) induced by the projected accumulation...
Author Posting. © American Meteorological Society, 2022. This article is posted here by permission o...
We derive a generalized theory for gravitationally self-consistent, static sea level variations on e...
As ice sheets gain or lose mass, and as water moves between the continents and the ocean, the solid ...
Variations in the Earth's water cycle are commonly quantified by their effect on global mean sea?lev...
Variations in the Earth’s water cycle are commonly quantified by their effect on global mean sea‐le...
Ocean warming contributes to global mean sea level rise by reducing the density of seawater, thus in...
Inverted barometer effects and steric changes effects on hydrostatic response of ocea
There is large uncertainty in the future regional sea level change under anthropogenic climate chang...