Earth’s Contemporary Sea Level Budget and Net Energy Imbalance in a Warming Climate
In response to increasing emissions of greenhouse gases and the radiative forcings and feedbacks they impose, Earth gains heat energy and its climate changes. Often referred to as Earth’s energy imbalance (EEI), the contemporary energy gain of 0.5-1 W/m2 is quite small compared to the radiation fluxes that enter and exit the Earth system at the top of the atmosphere. Therefore, it is difficult to accurately measure the small but crucial EEI as the residual of observed incoming and outgoing radiative fluxes. An alternative approach to estimating EEI is to take inventory of the heat content changes in Earth’s ocean, land, atmosphere, and cryosphere. Since the voluminous ocean absorbs ~90% of Earth’s energy gain, ocean heat uptake provides a major constraint for EEI and its uncertainty. Direct observations of sub-surface ocean temperature change form the basis for estimating ocean heat uptake and constraining EEI. As with many in-situ sensor networks, the coverage by ocean profiling floats (e.g., Argo) is incomplete in space and time, which may introduce biases. For example, the deep ocean below 2000 m (comprising approx. 50% of the total ocean volume) is not covered by the current Argo float network. Independent estimates of ocean heat uptake are therefore required to complement the sensor-float results and to better constrain EEI.
Satellite observations of total sea level change (altimetry: Jason 2,3, Sentinel 6-MF) and ocean mass change (gravimetry: GRACE and GRACE-FO) allow us to dissect the sea level budget into....
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