The impact of self-attraction and loading (SAL) on ocean bottom pressure xi, an effect not previously considered, is analyzed in terms of the mean annual cycle based on decade long estimates of changes in land hydrology, atmospheric pressure, and oceanic circulation. The SAL-related changes in xi occur as a result of deformation of the crust due to loading and self-gravitation of the variable fluid loads. In the absence of SAL, net freshwater input and changes in mean atmospheric pressure over the ocean give rise to a spatially constant xi annual cycle with an amplitude similar to 1-2 cm in equivalent water thickness. Consideration of SAL physics introduces spatial variations that can be significant, particularly around continental boundari...
Ocean bottom pressure (OBP) changes are caused by a redistribution of the ocean’s internal mass that...
Variations in ocean bottom pressure are important for understanding ocean circulation and climate. W...
Variations in the Earth's water cycle are commonly quantified by their effect on global mean sea?lev...
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 annual exchange of water between the continents and oceans is observed by GPS, gravimetry, and a...
The oceanic response to surface loading, such as that related to atmospheric pressure, freshwater ex...
The oceanic response to surface loading, such as that related to atmospheric pressure, freshwater ex...
We investigate the effect of self-attraction and loading (SAL) induced by the projected accumulation...
Mass distribution in the global ocean, equivalently described in terms of Ocean Bottom Pressure (OBP...
The impact of self-attraction and loading (SAL) on Earth rotation has not been previously considered...
Abstract Seasonal variability of the ocean bottom pressure (OBP) in the world oceans is investigated...
We use a coupled climate model to evaluate ocean bottom pressure changes in the IPCC-A1B climate sce...
peer reviewedTemporal variations in the geographic distribution of atmospheric, hydrologic and ocean...
[1] Ocean mass variations are important for diagnosing sea level budgets, the hydrological cycle, th...
Ocean bottom pressure (OBP) changes are caused by a redistribution of the ocean’s internal mass that...
Variations in ocean bottom pressure are important for understanding ocean circulation and climate. W...
Variations in the Earth's water cycle are commonly quantified by their effect on global mean sea?lev...
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 annual exchange of water between the continents and oceans is observed by GPS, gravimetry, and a...
The oceanic response to surface loading, such as that related to atmospheric pressure, freshwater ex...
The oceanic response to surface loading, such as that related to atmospheric pressure, freshwater ex...
We investigate the effect of self-attraction and loading (SAL) induced by the projected accumulation...
Mass distribution in the global ocean, equivalently described in terms of Ocean Bottom Pressure (OBP...
The impact of self-attraction and loading (SAL) on Earth rotation has not been previously considered...
Abstract Seasonal variability of the ocean bottom pressure (OBP) in the world oceans is investigated...
We use a coupled climate model to evaluate ocean bottom pressure changes in the IPCC-A1B climate sce...
peer reviewedTemporal variations in the geographic distribution of atmospheric, hydrologic and ocean...
[1] Ocean mass variations are important for diagnosing sea level budgets, the hydrological cycle, th...
Ocean bottom pressure (OBP) changes are caused by a redistribution of the ocean’s internal mass that...
Variations in ocean bottom pressure are important for understanding ocean circulation and climate. W...
Variations in the Earth's water cycle are commonly quantified by their effect on global mean sea?lev...