However, our Figure 1 and Table 1 illustrate that the long -
term global heat content trend has risen at a steady, increasing rate over the past 4 decades.
Not exact matches
Global surface temperatures have continued to rise steadily beneath short - term natural cooling effects, and the rise in global heat content has not slowed a
Global surface temperatures have continued to rise steadily beneath short -
term natural cooling effects, and the rise in
global heat content has not slowed a
global heat content has not slowed at all.
Our original draft blog post noted that DK12 had effectively been «pre-bunked,» as several recent studies have reconciled
global heat content data with top of the atmosphere (TOA) energy imbalance measurements with no evidence of a long -
term slowdown in
global warming.
Thus, we suggest that scientists and modelers who seek
global warming signals should track how much
heat the ocean is storing at any given time,
termed global ocean
heat content (OHC), as well as sea level rise (SLR).
Global surface temperatures have continued to rise steadily beneath short - term natural cooling effects, and the rise in global heat content has not slowed a
Global surface temperatures have continued to rise steadily beneath short -
term natural cooling effects, and the rise in
global heat content has not slowed a
global heat content has not slowed at all.
As you know, Isaac Held recently discussed the relative contributions of forced and unforced variations to
global surface temperature change in
terms of the direction of changes in ocean
heat content.
For
global warming diagnosis, use ocean
heat content changes, recognizing that the deeper ocean
heating (i.e. below the long
term thermocline) is mostly unavailable to affect weather on multi-decadal time periods).
«
Global Warming» can be much more accurately monitored in terms of an increase in the global annual average heat content measured in J
Global Warming» can be much more accurately monitored in
terms of an increase in the
global annual average heat content measured in J
global annual average
heat content measured in Joules.