Friday, July 24, 2009

ENSO Linked to Climate Change

This is an extremely important paper that does several things.

First it reveals the importance of the El Nino Southern oscillation as a predictor of global temperature shifts. Our own postings had picked up on several other phenomena but not this one in particular. In fact the others strongly hinted at an important southern Oscillation. This paper clarifies how important.

Secondly it is able to establish magnitudes that effectively make the CO2 hypothesis unnecessary. This is a major disconnect because it also reveals that the CO2 hypothesis was tossed in to make up for the missing input now understood to be provided by ENSO. Whoops!

Thirdly, we have narrowed down our key variables to Solar, Volcanic injection and these atmospheric engines that can shift decadally and have absolutely nothing to do with human activity, although we are obviously trying.

I would estimate that the probability of CO2 content been a significant climate forcer just dropped by an order of magnitude. In short this is very bad news for the true believers. The northern hemisphere is still warmer than it has been and we are likely to lose our Arctic summer sea ice. This will preserve the benefits of this warming cycle for a lot of years, perhaps until we have a volcano that causes a large enough drop in temperature to rebuild the ice.

El Nino is presently charging and I presume it will induce another injection of heat into the north over the next two years. This is a guess only, based on recent surprising behavior from 2007. We may also have a bad hurricane season next year, although I would not count on it.

Most important, we now know that ENSO is the hot button to watch. I do not know if this is a valid observation, but is seems that a cycle of warming induced by a slight increase in solar energy is accumulated in the tropics and has been released by the activation of ENSO at a faster pace than previously. This sounds almost plausible but I simply have only conjecture and many others should be available.

Peer-Reviewed Study Rocks Climate Debate! 'Nature not man responsible for recent global warming...little or none of late 20th century warming and cooling can be attributed to humans'

'Surge in global temps since 1977 can be attributed to a 1976 climate shift in the Pacific Ocean'

Wednesday, July 22, 2009By
Marc MoranoClimate Depot

A new peer-reviewed climate study is presenting a head on challenge to man-made global warming claims. The study by three climate researchers appears in the July 23, 2009 edition of Journal of Geophysical Research. (Link to Abstract)

Full Press Release and Abstract to Study:

July 23, 2009

Nature not man responsible for recent global warming

Three Australasian researchers have shown that natural forces are the dominant influence on climate, in a study just published in the highly-regarded Journal of Geophysical Research. According to this study little or none of the late 20th century global warming and cooling can be attributed to human activity.

The research, by Chris de Freitas, a climate scientist at the University of Auckland in New Zealand, John McLean (Melbourne) and Bob Carter (James Cook University), finds that the El Niño-Southern Oscillation (ENSO) is a key indicator of global atmospheric temperatures seven months later. As an additional influence, intermittent volcanic activity injects cooling aerosols into the atmosphere and produces significant cooling.

"The surge in global temperatures since 1977 can be attributed to a 1976 climate shift in the Pacific Ocean that made warming El Niño conditions more likely than they were over the previous 30 years and cooling La Niña conditions less likely" says corresponding author de Freitas.

"We have shown that internal global climate-system variability accounts for at least 80% of the observed global climate variation over the past half-century. It may even be more if the period of influence of major volcanoes can be more clearly identified and the corresponding data excluded from the analysis.”

Climate researchers have long been aware that ENSO events influence global temperature, for example causing a high temperature spike in 1998 and a subsequent fall as conditions moved to La Niña. It is also well known that volcanic activity has a cooling influence, and as is well documented by the effects of the 1991 Mount Pinatubo volcanic eruption.

The new paper draws these two strands of climate control together and shows, by demonstrating a strong relationship between the Southern Oscillation and lower-atmospheric temperature, that ENSO has been a major temperature influence since continuous measurement of lower-atmospheric temperature first began in 1958.

According to the three researchers, ENSO-related warming during El Niño conditions is caused by a stronger Hadley Cell circulation moving warm tropical air into the mid-latitudes. During La Niña conditions the Pacific Ocean is cooler and the Walker circulation, west to east in the upper atmosphere along the equator, dominates.

"When climate models failed to retrospectively produce the temperatures since 1950 the modellers added some estimated influences of carbon dioxide to make up the shortfall," says McLean.

"The IPCC acknowledges in its 4th Assessment Report that ENSO conditions cannot be predicted more than about 12 months ahead, so the output of climate models that could not predict ENSO conditions were being compared to temperatures during a period that was dominated by those influences. It's no wonder that model outputs have been so inaccurate, and it is clear that future modelling must incorporate the ENSO effect if it is to be meaningful."

Bob Carter, one of four scientists who has recently questioned the justification for the proposed Australian emissions trading scheme, says that this paper has significant consequences for public climate policy.

"The close relationship between ENSO and global temperature, as described in the paper, leaves little room for any warming driven by human carbon dioxide emissions. The available data indicate that future global temperatures will continue to change primarily in response to ENSO cycling, volcanic activity and solar changes.”

“Our paper confirms what many scientists already know: which is that no scientific justification exists for emissions regulation, and that, irrespective of the severity of the cuts proposed, ETS (emission trading scheme) will exert no measurable effect on future climate.”
--

McLean, J. D., C. R. de Freitas, and R. M. Carter (2009), Influence of the Southern Oscillation on tropospheric temperature, Journal of Geophysical Research, 114, D14104, doi:10.1029/2008JD011637.

This figure from the McLean et al (2009) research shows that mean monthly global temperature (MSU GTTA) corresponds in general terms with the Southern Oscillation Index (SOI) of seven months earlier. The SOI is a rough indicator of general atmospheric circulation and thus global climate change. The possible influence of the Rabaul volcanic eruption is shown.

Excerpted Abstract of the Paper appearing in the Journal of Geophysical Research:

Time series for the Southern Oscillation Index (SOI) and global tropospheric temperature anomalies (GTTA) are compared for the 1958−2008 period. GTTA are represented by data from satellite microwave sensing units (MSU) for the period 1980–2008 and from radiosondes (RATPAC) for 1958–2008. After the removal from the data set of short periods of temperature perturbation that relate to near-equator volcanic eruption, we use derivatives to document the presence of a 5- to 7-month delayed close relationship between SOI and GTTA. Change in SOI accounts for 72% of the variance in GTTA for the 29-year-long MSU record and 68% of the variance in GTTA for the longer 50-year RATPAC record.
Because El Niño−Southern Oscillation is known to exercise a particularly strong influence in the tropics, we also compared the SOI with tropical temperature anomalies between 20°S and 20°N. The results showed that SOI accounted for 81% of the variance in tropospheric temperature anomalies in the tropics.
Overall the results suggest that the Southern Oscillation exercises a consistently dominant influence on mean global temperature, with a maximum effect in the tropics, except for periods when equatorial volcanism causes ad hoc cooling. That mean global tropospheric temperature has for the last 50 years fallen and risen in close accord with the SOI of 5–7 months earlier shows the potential of natural forcing mechanisms to account for most of the temperature variation.

Received 16 December 2008; accepted 14 May 2009; published 23 July 2009.

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