El récord de temperaturas en 17 países es una situación climática 'sin precedentes'

July 2010 — What Global Warming Looks Like

The July 2010 global map of surface temperature anomalies (Figure 1), relative to the average July in the 1951-1980 period of climatology, provides a useful picture of current climate. It was more than 5°C (about 10°F) warmer than climatology in the eastern European region including Moscow. There was an area in eastern Asia that was similarly unusually hot. The eastern part of the United States was unusually warm, although not to the degree of the hot spots in Eurasia.

Figure 1 (PDF)​

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Figure 2 (PDF)​

There were also substantial areas cooler than climatology, including a region in central Asia and the southern part of South America. The emerging La Niña is now moderately strong, as evidenced by the region cooler than climatology along the equator in the eastern and central Pacific Ocean.
The global average July 2010 temperature was 0.55°C warmer than climatology in the GISS analysis, which puts 2010 in practically a three way tie for third warmest July. July 1998 was the warmest in the GISS analysis, at 0.68°C.
The 12-month running miccionan of global temperature (Figure 2) achieved a record high level during the past few months. Because the current La Niña will continue at least several months, and likely strengthen somewhat, the 12-month running miccionan temperature is expected to decline during the second half of 2010.

Will calendar year 2010 be the warmest in the period of instrumental data? Figure 3 shows that through the first seven months 2010 is warmer than prior warm years. The difference of +0.08°C compared with 2005, the prior warmest year, is large enough that 2010 is likely, but not certain, to be the warmest year in the GISS record. However, because of the cooling effect of La Niña in the remainder of the year, there is a strong possibility that the 2005 and 2010 global temperatures will be sufficiently close that they will be practically indistinguishable.

Climate anomalies in the Northern Hemisphere summer of 2010, including the heat in Eastern Europe and unusually heavy rainfall and floods in several regions, have received much attention. Are these climate anomalies an example of what we can expect global warming to look like? Maps of temperature anomalies, such as Figure 1, are useful for helping people understand the role of global warming in extreme events.
The location of extreme events in any particular month depends on specific weather patterns, which are unpredictable except on short time scales. The weather patterns next summer will be different than this year. It could be a cooler than average summer in Moscow in 2011.
But note in Figure 1, and similar maps for other months, that the area warmer than climatology already (with global warming of 0.55°C relative to 1951-1980) is noticeably larger than the area cooler than climatology. Also the magnitude of warm anomalies now usually exceeds the magnitude of cool anomalies.

Figure 3 (PDF)​

What we can say is that global warming has an effect on the probability and intensity of extreme events. This is true for precipitation as well as temperature, because the amount of water vapor that the air carries is a strong ******** of temperature. So the frequency of extremely heavy rain and floods increases as global warming increases. But at times and places of drought, global warming can increase the extremity of temperature and associated events such as forest fires.

The paper describing the GISS analysis of global temperature has been revised in response to reviewer suggestions and has been accepted for publication in <cite>Reviews of Geophysics</cite>. The biggest change in the paper is inclusion of an additional analysis is which global temperature change is based only on stations located in "pitch dark" regions, i.e., regions with satellite-observed brightness below the satellite's detection limit (1 μW/m2/sr/μm). Our standard analysis uses stations with satellite-observed brightness below 32 μW/m2/sr/μm. This more strict brightness limitation has no significant effect on analyzed global temperature change, providing additional confirmation that any urban effect on the GISS analysis of global temperature change is small.

The summary section of the revised paper is available here and the entire paper here.
A copy of this webpage text is also available as a PDF document.
Note: This page was first posted on 2010-08-11 and was updated on 2010-08-12 to reflect that the analysis paper has been accepted for publication.
Reference

Hansen, J., R. Ruedy, M. Sato, and K. Lo, 2010: Global surface temperature change, <cite>Rev. Geophys.</cite>, accepted. (PDF)
Contacts

Please address media inquiries regarding the GISS surface temperature analysis to Ms. Leslie McCarthy by e-mail at Leslie.M.McCarthy@nasa.gov or by phone at 212-678-5507.
Scientific inquiries about the analysis may be directed to Dr. James E. Hansen.

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traspotin dijo:

El artículo que pide es éste y fue publicado por AEMET. .

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The claim that Himalayan glaciers are set to disappear by 2035 rests on two 1999 magazine interviews with glaciologist Syed Hasnain, which were then recycled without any further investigation in a 2005 report by the environmental campaign group WWF.

It was this report that Dr Lal and his team cited as their source.

The WWF article also contained a basic error in its arithmetic. A claim that one glacier was retreating at the alarming rate of 134 metres a year should in fact have said 23 metres – the authors had divided the total loss measured over 121 years by 21, not 121.

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U. K. investigative journalists are taking a closer look at Raj. Pachauri, who, as head of the IPCC, continues to defend the report and, according to the Times Online, secured big bucks based on the U. N.’s Himalayan glacier melt claim. The Telegraph uncovered Pachauri’s to ties to carbon trading companies. Ties which have made Pachauri a wealthy man.

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