New Study: Absorbed Solar Radiation Increased From 1998-2017…Explaining Ocean Warming

The net climate forcing from albedo changes can account for the increase in ocean heat content in recent decades.

Scientists (Goode et al., 2021) have determined Earth’s albedo declined from 1998-2017, driving a +0.5 W/m² net increase in absorbed solar radiation, a positive energy imbalance.

Image Source: Goode et al., 2021

The authors report it is “unclear whether these changes arise from the climate’s internal variability or the feedback to external forcings.” (Given the absolute certainty that humans are driving Earth’s energy imbalance promulgated in media, one would have assumed the mechanism(s) driving albedo changes would not still be unclear.)

Human CO2 forcing was said to be +0.6 W/m² over this period (1998-2017), which would effectively match the imbalance derived from albedo changes.

However, CO2 forcing cannot radiatively affect more than the top 0.01 mm of the ocean surface, effectively ruling out CO2 as a factor in ocean heat transfer (and global warming). In contrast, solar radiation penetrates deeply (10s of meters) and directly heats the ocean.

So the +0.5 W/m² increase in absorbed solar radiation can explain increases in ocean heat content, whereas the longwave radiation increase associated with greenhouse gas emissions (+0.6 W/m²) cannot.

Image Source: Wong and Minnett, 2018

As mentioned, CO2 radiative forcing does not affect more than the top 0.01 mm of the 4,000,000 mm deep ocean. This is the penetrative “depth” where evaporative cooling occurs.

Furthermore, while it has long been confirmed that shortwave radiation directly warms the top tens of meters of the ocean, it is less commonly reported that longwave radiation (i.e., from greenhouse gases) actually contributes to the cooling of the ocean surface (Hasse, 1963 and 1971).

This once again contradicts the claims that human emissions are driving changes in ocean heat content.

Image Source: Hasse, 1963 and 1971

via NoTricksZone

December 23, 2021 at 12:57PM

Leave a Reply

Fill in your details below or click an icon to log in: Logo

You are commenting using your account. Log Out /  Change )

Google photo

You are commenting using your Google account. Log Out /  Change )

Twitter picture

You are commenting using your Twitter account. Log Out /  Change )

Facebook photo

You are commenting using your Facebook account. Log Out /  Change )

Connecting to %s