Sentences with phrase «sea surface temperatures since»
But this post has shown that ALL of the rise in global sea surface temperatures since 1900 can be explained by the oceans integrating the effects of ENSO.
https://wattsupwiththat.com/
And a key to the results are satellite data that note sea surface temperatures since 1982.
The adjacent chart plots sea surface temperatures since 1979, broken into three segments (note: the same starting date from the satellite dataset analysis was utilized to keep the comparisons consistent).
If all we wanted to know about the climate was «why has there been a step change in apparent surface air and sea surface temperature since 1974?»
It will also include scientifically refuting the apparent falsification of the above «dangerous AGW» hypothesis, which has resulted from the observed «lack of warming» of our planet over the past decade (atmosphere, at both the surface and troposphere since 2001, sea surface temperature since ARGO measurements were installed in 2003), despite record increase in atmospheric CO2, as measured at Mauna Loa, by demonstrating with empirical data where the «missing energy» is hiding.
Not exact matches
In June 2015, NOAA researchers led by Thomas Karl published a paper in the journal Science comparing the new and previous NOAA sea surface temperature datasets, finding that the rate of global warming since 2000 had been underestimated and there was no so - called «hiatus» in warming in the first fifteen years of the 21st century.
In the new study, the researchers searched for such events recorded in sea surface temperature data recorded as far back as 1900 and in satellite data since 1982.
During 2016, average temperatures were the highest reported since record keeping began in 1880, reaching 1.69 degrees F (0.94 degrees C) above the average for land and sea surfaces in the 20th century.
Sea surface temperature data since 1882 document large El Niño - like patterns following four out of five big eruptions: Santa María (Guatemala) in October 1902, Mount Agung (Indonesia) in March 1963, El Chichón (Mexico) in April 1982 and Pinatubo in June 1991.
The slowdown refers to slower - than - expected rates at which temperatures measured on the land and at sea surfaces have been rising since the turn of the century.
The incidence of major hurricanes has essentially doubled across the Atlantic basin since 1970, potentially linked to rising sea surface temperatures there.
Again, Monckton must surely know full well that for the last 25 - 30 years satellite temperature measurement of sea and land surface have replaced terrestrial temperature station measurements in many cases since these give a much greater coverage (70 % of the surface of the Earth is water... it's difficult to put weather stations on top of ice sheets etc.!)
The East Pacific Ocean (90S - 90N, 180 - 80W) has not warmed since the start of the satellite - based Reynolds OI.v2 sea surface temperature dataset, yet the multi-model mean of the CMIP3 (IPCC AR4) and CMIP5 (IPCC AR5) simulations of sea surface temperatures say, if they were warmed by anthropogenic forcings, they should have warmed approximately 0.42 to 0.44 deg C.
http://journals.ametsoc.org/doi/abs/10.1175/JCLI-D-11-00148.1 Global satellite observations show the sea surface temperature (SST) increasing since the 1970s in all ocean basins, while the net air — sea heat flux Q decreases.
Since the mid 1970's, global estimates of the potential destructiveness of hurricanes show an upward trend strongly correlated with increasing tropical sea - surface temperature.
Ocean surfaces have warmed considerably over the last few years, and since oceans cover roughly tw0 - thirds of the globe's area, it is reasonable to examine how sea surface temperature evolution has played into the short - term evolution of GMST.
Sea surface temperatures have cooled since late last spring, indicating that the El Niño event has ended.
Second, that hypothesis is not supported by NOAA's satellite - era sea surface temperature data or by NOAA's ocean heat content data since 1955.»
As Arctic temperatures rise at about double the rate of the planet as a whole, Greenland's surface has been melting at a steady clip, contributing about 30 percent of the foot of global sea level rise since 1900.
Since the first microwave sounding unit was launched into orbit in November 1978, satellite - based instruments have measured the temperature of the atmosphere from the surface up to an altitude of about eight kilometers above sea level.
The problem here is that estimates of changes in sea surface temperature and the depth of the warm mixed layer might be very unreliable, since the general behavior of the Atlantic circulation is only now being directly observed — and the most recent findings are that flow rates vary over a whole order of magnitude:
«The climate patterns responsible for the expected above - normal 2007 hurricane season continue to be the ongoing multi-decadal signal (the set of oceanic and atmospheric conditions that have spawned increased Atlantic hurricane activity since 1995), warmer - than - normal sea surface temperatures in key areas of the Atlantic Ocean and Caribbean Sea, and the El Nino / La Nina cycle&raqsea surface temperatures in key areas of the Atlantic Ocean and Caribbean Sea, and the El Nino / La Nina cycle&raqSea, and the El Nino / La Nina cycle»
The increase in these winds has caused eastern tropical Pacific cooling, amplified the Californian drought, accelerated sea level rise three times faster than the global average in the Western Pacific and has slowed the rise of global average surface temperatures since 2001.
The 60S - 60N averaged sea surface temperatures have been relatively flat since 2001 as shown in a personal communication from NOAA, that should be widely available soon.
The higher sea surface temperatures in the tropics (~ 0.85 K / decade in recent decades) have lead to an increase in LW (infrared) radiation, and a loss to space of some 3 W / m2 all over the tropics (50 % of the surface), which more than halves the — theoretical — global influence (~ 2.4 W / m2) of all extra GHGs together since the start of the industrial revolution.
The National Climatic Data Center has released its review of worldwide sea surface temperatures for August and for the stretch from June through August and finds that both the month and the «summer» (as looked at from the Northern Hemisphere) were the warmest at least since 1880, when such records were first systematically compiled.
In a study published in the journal Nature the researchers say analysis of sea surface temperature data shows that the AMOC has slowed down by roughly 15 % since the middle of the 20th century, with human - made climate change a prime suspect.
Since 1850, CO2 levels rose, as did the «globally and annually averaged land and sea surface temperature anomaly» (for what it's worth), but nobody knows whether or not the increase in CO2 had anything whatsoever to do with the warming.
So the infilled GISS data, which extends out over the Arctic, would show the greater warming since the 1970s... until the warming stops for Northern Hemisphere sea surface temperatures and for the low - to - mid latitude land surface air temperatures.
All we know for sure is that it hasn't warmed (according to the «globally and annually averaged land and sea surface temperature anomaly» record of HadCRUT) since the end of 1997.
And if you look for why the sea surface temperatures are warming since the 1970s, you don't have any explanation other than greenhouse warming.
Although the IPCC climate models have performed remarkably well in projecting average global surface temperature warming thus far, Rahmstorf et al. (2012) found that the IPCC underestimated global average sea level rise since 1993 by 60 %.
The 2009 State of the Climate Report of the US National Oceanic and Atmospheric Administration (NOAA) tells us that climate change is real because of rising surface air temperatures since 1880 over land and the ocean, ocean acidification, sea level rise, glaciers melting, rising specific humidity, ocean heat content increasing, sea ice retreating, glaciers diminishing, Northern Hemisphere snow cover decreasing, and so many other lines of evidence.
Surface warming / ocean warming: «A reassessment of temperature variations and trends from global reanalyses and monthly surface climatological datasets» «Estimating changes in global temperature since the pre-industrial period» «Possible artifacts of data biases in the recent global surface warming hiatus» «Assessing the impact of satellite - based observations in sea surface temperature trendsSurface warming / ocean warming: «A reassessment of temperature variations and trends from global reanalyses and monthly surface climatological datasets» «Estimating changes in global temperature since the pre-industrial period» «Possible artifacts of data biases in the recent global surface warming hiatus» «Assessing the impact of satellite - based observations in sea surface temperature trendssurface climatological datasets» «Estimating changes in global temperature since the pre-industrial period» «Possible artifacts of data biases in the recent global surface warming hiatus» «Assessing the impact of satellite - based observations in sea surface temperature trendssurface warming hiatus» «Assessing the impact of satellite - based observations in sea surface temperature trendssurface temperature trends»
As this new peer reviewed study concludes, the models being used to predict sea surface temperatures for the tropical Pacific have produced results that have standard deviations of some 200 % stronger versus observed measurements since the Super El Niño of 1997/98.
Since 1950, global mean sea surface temperatures have risen roughly 1 ° F (0.6 ° C).6 Scientists estimate that regional sea surface temperatures in the North Sea increased by 1.6 ° F (0.9 ° C) from 1958 to 200sea surface temperatures have risen roughly 1 ° F (0.6 ° C).6 Scientists estimate that regional sea surface temperatures in the North Sea increased by 1.6 ° F (0.9 ° C) from 1958 to 200sea surface temperatures in the North Sea increased by 1.6 ° F (0.9 ° C) from 1958 to 200Sea increased by 1.6 ° F (0.9 ° C) from 1958 to 2002.7
-- denying that the «globally and annually averaged land and sea surface temperature anomaly» (HadCRUT3) has cooled slightly over the past 15 years (since May 1997)
Ocean warming: «Assessing recent warming using instrumentally homogeneous sea surface temperature records» «Tracking ocean heat uptake during the surface warming hiatus» «A review of global ocean temperature observations: Implications for ocean heat content estimates and climate change» «Unabated planetary warming and its ocean structure since 2006»
Sea surface temperatures have warmed steadily since December, and are now in the neutral range.»
«Direct observational data on surface air temperature are sparse for the Antarctic, but none of the datasets examined provides evidence of net warming south of 60 ° S since 1979, a period during which sea - ice extent increased a little.»
During that same period, average annual rainfall in New South Wales declined by 3.6 inches (92 millimeters).3 Scientists think the decline in autumn rainfall in southeast Australia since the late 1950s may be partly due to increases in heat - trapping gases in Earth's atmosphere.3, 14 Major bushfires over southeast Australia are linked to the positive phase of an ocean cycle called the «Indian Ocean Dipole» — when sea surface temperatures are warmer than average in the western Indian Ocean, likely in response to global warming.15, 16
«Reassessing biases and other uncertainties in sea surface temperature observations measured in situ since 1850: 1.
Reassessing biases and other uncertainties in sea - surface temperature observations measured in situ since 1850, part 1: measurement and sampling uncertainties
Since you are a frequent visitor to WUWT, you are well aware that I have illustrated, explained, and animated cause (ENSO) and effect (the warming of sea surface temperatures, ocean heat content, lower troposphere temperatures, and land + sea surface temperatures) in dozens of blog posts over the past 3 1/2 years.
Since ENSO is a coupled ocean - atmosphere process, I have presented its impact on and the inter-relationships between numerous variables, including sea surface temperature, sea level, ocean currents, ocean heat content, depth - averaged temperature, warm water volume, sea level pressure, cloud amount, precipitation, the strength and direction of the trade winds, etc..
Uncertainties of estimated trends in global - and regional - average sea - surface temperature due to bias adjustments since the Second World War are found to be larger than uncertainties arising from the choice of analysis technique, indicating that this is an important source of uncertainty in analyses of historical sea - surface temperatures.
The NOAA Weekly ENSO Sea Surface Temperature Indices Webpage Has Changed Location By Bob Tisdale There has been concern expressed recently around the blogosphere that NOAA hasn't updated their weekly El Niño - Southern Oscillation (ENSO) sea surface temperature - based indices webpage since May 16, 20Sea Surface Temperature Indices Webpage Has Changed Location By Bob Tisdale There has been concern expressed recently around the blogosphere that NOAA hasn't updated their weekly El Niño - Southern Oscillation (ENSO) sea surface temperature - based indices webpage since May 16Surface Temperature Indices Webpage Has Changed Location By Bob Tisdale There has been concern expressed recently around the blogosphere that NOAA hasn't updated their weekly El Niño - Southern Oscillation (ENSO) sea surface temperature - based indices webpage since MaTemperature Indices Webpage Has Changed Location By Bob Tisdale There has been concern expressed recently around the blogosphere that NOAA hasn't updated their weekly El Niño - Southern Oscillation (ENSO) sea surface temperature - based indices webpage since May 16, 20sea surface temperature - based indices webpage since May 16surface temperature - based indices webpage since Matemperature - based indices webpage since May 16, 2012.
Guest post by Bob Tisdale This post will serve as the Preliminary Sea Surface Temperature Anomaly Update for June 2012, since we'll be using preliminary June 2012 data in it.
I think your efforts are very helpful in understanding the evolution of sea surface temperatures over the last century, especially the causal link between ENSO and the AMO, since this explains why there is a cyclical appearance in the temperature record which is closely correlated with the AMO index.
Reworded, the reduction in trade wind strength due to the El Niño causes less evaporation, and since there is less evaporation, tropical North Atlantic sea surface temperatures rise.