Notably the observations show greater warming in the deeper layers, with
the strongest deep ocean warming occurring in the Atlantic & Southern Ocean.
Not exact matches
Driven by
stronger winds resulting from climate change,
ocean waters in the Southern Ocean are mixing more powerfully, so that relatively warm deep water rises to the surface and eats away at the underside of the
ocean waters in the Southern
Ocean are mixing more powerfully, so that relatively warm deep water rises to the surface and eats away at the underside of the
Ocean are mixing more powerfully, so that relatively
warm deep water rises to the surface and eats away at the underside of the ice.
In the
oceans,
warmer weather is driving
stronger winds that are exposing
deeper layers of water, which are already saturated with carbon and not as able to absorb as much from the atmosphere.
Now very often forming blocking fronts helping vast tracts of
ocean to
warm unhindered and when that causes sufficient evaporation to form hurricanes but this time with no roof so the vertical volume of super saturated air is greater thus causing
stronger hurricanes or
deeper rain depressions etc..
They confirmed that the
oceans have warmed substantially, most notably in the deeper layers, and that the strongest warming during this current negative IPO phase has been in the deep of the Southern and Atlantic O
oceans have
warmed substantially, most notably in the
deeper layers, and that the
strongest warming during this current negative IPO phase has been in the
deep of the Southern and Atlantic
OceansOceans.
But as they grow, their
strong winds often pick up seawater, churning the
oceans and moving the
warmest waters
deep below the surface.
We think this
warming happens because the
stronger winds eventually dredge up to the surface
warm waters from the
deep ocean.
A growing number of paleoceanographic observations suggest that the
ocean's
deep ventilation is
stronger in
warm climates than in cold climates.