AGW HEAT WAVE IN SIBERIA

AGW HEAT WAVE IN SIBERIA

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The Arctic is on fire: Siberian heat wave alarms scientists
Climate crisis: alarm at record-breaking heatwave in Siberia ...

THIS POST IS A CRITICAL EVALUATION OF THE ARTICLE 

Siberian heatwave of 2020 almost impossible without climate change

PUBLISHED BY WorldWeatherAttribution.org [LINK] ABOUT  THE ATTRIBUTION OF A  HEAT WAVE IN SIBERIA TO ANTHROPOGENIC GLOBAL WARMING. 

PART-1: WHAT THE worldweatherattribution.org ARTICLE SAYS

Figure 1: Prolonged Siberian heat: January – June 2020 average temperatures compared to normal (1981-2010) over the Siberian region and the location of the town of Verkhoyansk that experienced the record June daily temperature within the Arctic circle.

  1. In the first six months of 2020, Siberia experienced a period of unusually high temperatures, including a record-breaking 38 degrees C in the town of Verkhoyansk on 20 June, causing wide-scale impacts including wildfires, loss of permafrost, and an invasion of pests.
  2. In our latest study, scientists from France, Germany, Netherlands, Russia, Switzerland and the UK collaborated to examine whether and to what extent human-induced climate change had a part to play in making this heatwave hotter and more likely.
  3. In many previous studies we have seen hot spells and heatwaves become hotter and more frequent around the world, consistent with our scientific understanding. In places such as Siberia, a hotter climate can have devastating effects, not just on the local wildlife and people who live there, but also on the world’s climate system as a whole, for example through thawing permafrost, reduced snow cover and melting ice.
  4. The current Siberian heat has contributed to raising the world’s average temperature to the 2nd hottest on record for the period January to May. Using published scientific methods we looked at a large region spanning most of Siberia, inclusive of the area affected by the prolonged six-month heat and the town of Verkhoyansk that recorded the record daily temperature for the Arctic region.
  5. We analysed the average temperatures between January and June 2020 for the large region, as well as the hottest maximum daily temperature in June 2020 for Verkhoyansk. We found in both cases that this event would have effectively been impossible without human-induced climate change
  6. Main findings: The results showed with high confidence that the January to June 2020 prolonged heat was made at least 600 times more likely as a result of human-induced climate change. We note that even with climate change, the prolonged heat was a very rare event expected to occur less than once every 130 years.
  7. The results for the town of Verkhoyansk show that the record breaking June temperatures were also made much more likely by anthropogenic global warming (upwards of many thousands of times), though there is less confidence in this result.
  8. Combining the values from the models and weather observations shows that for the large region the same six-months hot spell would have been at least 2 degrees Celsius cooler had it occurred in 1900 instead of 2020.
  9. For Verkhoyansk, maximum June temperatures increased due to climate change by at least 1 degree compared to 1900.
  10. By 2050 the Siberian region could expect to have temperatures increase by at least 2.5 degrees compared to 1900, but this increase could be as high as 7 degrees. This would correspond to an additional warming of at least 0.5 degrees and possibly up to around 5 degrees by 2050 compared to today.
  11. Background: Siberia can normally expect to have a series of low and high pressure systems moving over the region allowing warmer and cooler air to affect the weather. However, a strong jet stream in the 2019-2020 winter led to very warm conditions which caused ice and snow to melt and in turn increased the warming with darker surfaces absorbing more heat. Overall, the 6 months from January to June 2020 were more than 5 degrees Celsius warmer than average (1981–2010) over the study region (see Figure 1). This extremely hot period led to local heat records being broken, including at the Verkhoyansk weather station which recorded 38 degrees Celsius on 20 June. The Russian Meteorological Service said that this measured temperature was the highest ever recorded beyond the Arctic circle, with the World Meteorological Organization carrying out its own research to verify this.
  12. This has resulted in a range of natural and human disasters leading President Putin to declare a state of emergency, as reported in the media including The Guardian, Reuters and The New York Times. Siberian forests have been experiencing wildfires because of the hot, dry conditions that have extended across thousands of miles, and led to the release of 56 Megatons of CO2 in June. Those areas not affected by the fires have become a breeding ground for large swarms of Siberian silk moths that feed on the trees making them more prone to fire. Fish are swimming deeper in the oceans looking for cooler water making it harder to catch them with current equipment, whilst people on the land have reported an increase in physical and mental conditions as a result of the increased and prolonged heat. The melting of the permafrost has caused infrastructure to collapse leading to fuel leakages and resulting environmental disasters. In addition, the melting could lead to the release of trapped methane gas, a potent greenhouse gas, into the atmosphere.
  13. Heatwaves and hot spells can be defined in a large number of ways and there is not one “right” definition but depending on the impacts different definitions will be appropriate. For this study we used two definitions: (1) the large region over Siberia which experienced prolonged higher than normal temperatures over the first 6 months of 2020, and (2) the weather station in the town of Verkhoyansk that measured a maximum temperature of 38 degrees Celsius on 20 June.
  14. For the large region we analysed average temperatures over 6 months while looking at maximum June temperatures for the single weather station. The large regional definition is relevant for most impacts whereas the temperature record at an individual place can help people understand their local changing climate.
  15. From a scientific point of view it is always useful to compare different ways to define an event in order to assess how much the results depend on the exact definition. In this case we found for both extreme events (prolonged six-month heat and record daily temperature in June 2020 in Verkhoyansk) that human-induced climate change played a very large role.
  16. While we are very confident that the large-scale prolonged event would have been essentially impossible without climate change, our confidence for the daily record at the individual weather station is much lower. This is due to better data being available and the increased robustness achieved from averaging climate models over large regions.

PART-2: CRITICAL COMMENTARY

  1. Anthropogenic global warming is a theory about a long term warming trend in global mean temperature. Its interpretation in terms of localized temperature events is limited by their relevance to the long term trend in global mean temperature. Recent studies in climate science described in a related post [LINK] have found that the assumed correspondence between these distinct climate phenomena may have no basis.
  2. Specifically, what we find in these papers is that the theory of anthropogenic global warming works well in climate models only at long time spans and only for global mean temperature or large latitudinal extents thereof that wrap around the globe.
  3. Specifically, what these studies found is that for time spans less than 30 years and for regional definitions that are less than a significant slice of the globe, anthropogenic global warming simulations in climate models are unable to reproduce observations.
  4. The papers conclude from these studies that climate contains both an external forcing with fossil fuel emissions (AGW) and an internal variability that is natural and which we denote as the internal variability of climate (IVC). The relative roles of these two climate forcings vary significantly according to time span and geographical extent as described above. Specifically, below a time span of 30 years it is found that IVC dominates particularly so if the geographical extent is also constrained beyond large latitudinal extents.
  5. This result has been described as „at short time scales of 30 years or less, or in limited geographical extents,  internal variability in the climate system confounds assessment of human-induced climate change and imposes irreducible limits on the accuracy of climate change projections and climate change impacts„.
  6. These findings in climate research pose a serious credibility challenge for event attribution studies in general and specifically to this study of high temperature events in the Arctic region of Siberia where temperatures in the town of Verkhoyansk are cited as extreme with the implication that the entire province of the Sakha Republic of Russia where Verkhoyansk is located may also be similarly affected with unusually high temperatures in June and July of 2019 and 2020.
  7. Here we note that the total area of the affected region defined as the Sakha Republic of Russia is 3 million square km representing less than 0.6% of global land surface area. As well, the time span of the study is also severely restricted to two years or less.
  8. CONCLUSION: These time and regional constraints limit the relevance and utility of the findings by the scientists at World Weather Attribution dot org. Their observations are likely the result of internal climate variability and not impacts of anthropogenic global warming. These findings are therefore  not credible and more likely to be the product of confirmation bias and circular reasoning possibly motivated by the climate activism needs of the researchers. 
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