Not exact matches
One of the subtle
changes visible
in the new data - set is
how the Amazon's greenness corresponds to one of the long - known causes of rainfall or drought to the Amazon basin:
changes in sea surface temperatures in the eastern Pacific Ocean, called the El Nino Southern Oscillation.
In recent years, a brand of research called «climate attribution science» has sprouted from this question, examining the impact of extreme events to determine how much — often in fractional terms — is related to human - induced climate change, and how much to natural variability (whether in climate patterns such as the El Niño / La Niña - Southern Oscillation, sea - surface temperatures, changes in incoming solar radiation, or a host of other possible factors
In recent years, a brand of research called «climate attribution science» has sprouted from this question, examining the impact of extreme events to determine
how much — often
in fractional terms — is related to human - induced climate change, and how much to natural variability (whether in climate patterns such as the El Niño / La Niña - Southern Oscillation, sea - surface temperatures, changes in incoming solar radiation, or a host of other possible factors
in fractional terms — is related to human - induced climate
change, and
how much to natural variability (whether
in climate patterns such as the El Niño / La Niña - Southern Oscillation, sea - surface temperatures, changes in incoming solar radiation, or a host of other possible factors
in climate patterns such as the El Niño / La Niña - Southern Oscillation,
sea -
surface temperatures,
changes in incoming solar radiation, or a host of other possible factors
in incoming solar radiation, or a host of other possible factors).
And of course the new paper by Hausfather et al, that made quite a bit of news recently, documents
how meticulously scientists work to eliminate bias
in sea surface temperature data,
in this case arising from a
changing proportion of ship versus buoy observations.
A new methodology (combined Pacific variability mode) is developed to objectively analyze
how climate
change may be synergistically interacting with Pacific
sea surface temperature associated warm season teleconnections
in North America.
How hurricanes develop also depends on how the local atmosphere responds to changes in local sea surface temperatures, and this atmospheric response depends critically on the cause of the change.23, 24 For example, the atmosphere responds differently when local sea surface temperatures increase due to a local decrease of particulate pollution that allows more sunlight through to warm the ocean, versus when sea surface temperatures increase more uniformly around the world due to increased amounts of human - caused heat - trapping gases.25, 26,27
How hurricanes develop also depends on
how the local atmosphere responds to changes in local sea surface temperatures, and this atmospheric response depends critically on the cause of the change.23, 24 For example, the atmosphere responds differently when local sea surface temperatures increase due to a local decrease of particulate pollution that allows more sunlight through to warm the ocean, versus when sea surface temperatures increase more uniformly around the world due to increased amounts of human - caused heat - trapping gases.25, 26,27
how the local atmosphere responds to
changes in local
sea surface temperatures, and this atmospheric response depends critically on the cause of the
change.23, 24 For example, the atmosphere responds differently when local
sea surface temperatures increase due to a local decrease of particulate pollution that allows more sunlight through to warm the ocean, versus when
sea surface temperatures increase more uniformly around the world due to increased amounts of human - caused heat - trapping gases.25, 26,27,28
Also we well know
how ENSO events cause
changing CO2 content
in atmosphere when tropical
sea surface temperature is
changing.
But I have been interested
in changes in sea surface temperature and cloud
change and especially
how these decadal
changes in sea surface temperature influenced cloud formation.
How hurricanes develop also depends on how the local atmosphere responds to changes in local sea surface temperatures, and this atmospheric response depends critically on the cause of the change.23, 24 For example, the atmosphere responds differently when local sea surface temperatures increase due to a local decrease of particulate pollution that allows more sunlight through to warm the ocean, versus when sea surface temperatures increase more uniformly around the world due to increased amounts of human - caused heat - trapping gases.18, 25,26,27 So the link between hurricanes and ocean temperatures is compl
How hurricanes develop also depends on
how the local atmosphere responds to changes in local sea surface temperatures, and this atmospheric response depends critically on the cause of the change.23, 24 For example, the atmosphere responds differently when local sea surface temperatures increase due to a local decrease of particulate pollution that allows more sunlight through to warm the ocean, versus when sea surface temperatures increase more uniformly around the world due to increased amounts of human - caused heat - trapping gases.18, 25,26,27 So the link between hurricanes and ocean temperatures is compl
how the local atmosphere responds to
changes in local
sea surface temperatures, and this atmospheric response depends critically on the cause of the
change.23, 24 For example, the atmosphere responds differently when local
sea surface temperatures increase due to a local decrease of particulate pollution that allows more sunlight through to warm the ocean, versus when
sea surface temperatures increase more uniformly around the world due to increased amounts of human - caused heat - trapping gases.18, 25,26,27 So the link between hurricanes and ocean
temperatures is complex.
Lamont's Ryan Abernathey and Richard Seager are studying
how changes in the ocean cause
sea surface temperature to vary, and
how these anomalies drive
changes in atmospheric circulation to create extreme weather events.
Watching the current hurricane coverage (family
in Fla / Ga / NC) I see no mention of
sea surface temperature, no graphics of
how it's
changing as the hurricane tracks across it, nothing about the second hurricane coming on soon.
the
sea surface temperature hasn't
changed in over 140 years), or is it the net energy released by the ENSO cycle has balanced out to zero (
in which case
how was that net energy release calculated for the first part of the record)?
In it, they documented how a change in observing practices before and after World War II produced a cold bias in the sea surface temperatures that were incorporated into the compilations of global average temperatures (see here and here for more details
In it, they documented
how a
change in observing practices before and after World War II produced a cold bias in the sea surface temperatures that were incorporated into the compilations of global average temperatures (see here and here for more details
in observing practices before and after World War II produced a cold bias
in the sea surface temperatures that were incorporated into the compilations of global average temperatures (see here and here for more details
in the
sea surface temperatures that were incorporated into the compilations of global average
temperatures (see here and here for more details).
Dai examined observational data and climate model output to see
how sea surface temperatures and aridity (decreased streamflow and precipitation)
changed over time and to find any similarities
in the features of these
changes.