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Arctic Heats Up.
Spitsbergen 1919 to 1939

Colored Edition in Europe
How Spitsbergen Heats the World
The Arctic Warming 1919-1939
Ca.116 pages and 100 b/w figures. More details in right column. Ca. 116 pages and 100 color figures. Details see column.
 
The ‘Special Pages’ are not integrated in the HMTL presentation below.

Chapter 6

How is the agitation in the Arctic explained?

A. Can a 'climatic revolution' be analysed?

a) Are the IPCC Reports of any help?

To investigate the early Arctic warming that occurred one hundred years ago, one would presumably get not far if taking a core conclusion of the IPCC serious: "The Earth's global mean climate is determined by incoming energy from the Sun and by the properties of the Earth and its atmosphere, namely the reflection, absorption and emission of energy within the atmosphere and at the surface"(IPCC, 2007). Followed from this understanding that IPCC had only little to say about the Arctic "climatic revolution", namely that the "Average Arctic temperatures increased at almost twice the global average rate in the past 100 years. Arctic temperatures have high decadal variability and a warm period was also observed from 1925 to 1945" (IPCC, 2007). With such statement the IPCC demonstrates how superficially one of the most striking climatic shifts of the 20th century is handled. Due to the fact that the sun is not and cannot be the direct source of the extraordinary warming during the Arctic winter, this leads inevitable to the prime source of heat supply, the ocean and the seas. With more attention to this very principle polar region condition the IPCC assessments would provide a more reasonable explanation, and presumably lead to the understanding, that "Climate is the continuation of the oceans by other means"[39], whereby 'means' denote: heat and water supply from the ocean and seas to the atmosphere.

b) Is 'Chaos' a hindrance?

One can hear it often: The atmosphere is a chaotic system and as such it is inherently unpredictable. As weather is forced by the heat energy of the sun, the atmosphere is, therefore, unstable and non-linear. These two characteristics are the crucial components of chaos (Palmer 1991). Discussing the chaos of weather in modern science is about climate change projections. Can computer models tell us anything about the mechanism of climate in the future? Definitely not, as long as models cannot handle the past. As indicated by the output from IPCC in the previous paragraph, one of the most decisive climatic events during the last 150 years computer models seems to have not explained anything. Is the work with weather data of little promise to detect the reasons for the early Arctic warming during the winter season? No, the ocean is the dominating source of warming the Arctic during the time the sun is not shining in the Polar region.

One can furthermore hear: Does the chaotic nature of oceanic circulation limit the predictability of climate, just as the chaotic nature of atmospheric circulation is known to limit the predictability of weather?" (Covey, 1991). Indeed, circulation in the oceans and seas is extremely complex and based on many physical characteristics, namely on temperature, salt concentration and density. These conditions create a permanent forcing within the water body of one square-centimetre, a square-kilometre, a regional sea, or the entire global oceans. However, this does not rectify to assume the internal oceanic processes as chaotic in nature.

Due to its physical structure, a huge cold water body below a very, very thin warmer sea surface, the oceans are extreme stable over time and space. The mean temperature of less than four degrees Celsius has presumable not changed more than one or two degrees over many 100'000 years.

Over millions of years the ocean structure has ensured that the global mean temperatures have not deviated more than about 10o Celsius from today means. Without the oceans and seas the daily global temperature would cover a range of 300o Celsius. The obvious inability of modelling the ocean processes does not mean that analyzing the event at Spitsbergen is hampered by a chaotic oceanic behaviour. If the modellers had accepted that weather modelling will only be promising if based on a comprehensive set of permanently collected ocean data, they could have explained the warming of the Arctic 90 years ago since long.


They should have realized that the term "climate" is not well define as the average weather, but that "climate" should be understood as an immediate result of released heat and water vapour from the oceans and seas, every second, and over all time periods. The best region on earth for such climatic studies is the polar region, and particular if such studies can be based on a unique event as the warming in winter 1918/19.

c) The Arctic, Al Gore and better understanding

Al Gore said in July 2007: "Just in the last few months, new studies have shown that the north pole ice cap - which helps the planet cool itself - is melting nearly three times faster than the most pessimistic computer models predicted"[40]. A few months later, he, together with the IPCC, were honoured with the Peace Nobel Prize in December 2007 for "for their efforts to build up and disseminate greater knowledge about man-made climate change, and to lay the foundations for the measures that are needed to counteract such change". The awarding Committee was presumably not aware that neither of the two Nobel laureate had hardly anything achieved in explaining why the Arctic warmed the Northern Hemisphere during the first half of the last century. Al Gore's had paid the North Pole a visit by submarine before becoming Vice President of the U.S.A:


"We were crashing through that ice, surfacing, and I was standing in an eerily beautiful snowscape, windswept, and sparkling white, with the horizon defined by little hummocks, or 'pressure ridges' of ice that are pushed up like tiny mountains ranges when separate sheets collide. But here too, CO2 levels are rising just as rapidly, ...As the polar air warms, the ice here will thin; and since the polar cap plays such a crucial role in the world's weather system, the consequences of a thinning cap could be disastrous" (Al Gore, 1992).

Al Gore's North Pole visit took place about 1990. As almost two decades have passed, one can only wonder that he and his fellow alerter on global and arctic warming still understand so little about at least the early part of the warming in the Arctic. Instead he claimed recently:

  • "We - the human species - have arrived at a moment of decision."
  • "What is at risk of being destroyed is not our planet itself, but the conditions that have made it hospitable for human beings".
  • "We - all of us - now face a universal threat. Though it is not from outside this world, it is nevertheless cosmic in scale." (NYT, 1 July 2007).

How can someone talk about a cosmic scale threat if he is not able and obviously not interested in understanding a 'climatic revolution' that occurred under the eyes of modern science only 90 years ago? The explanation is presumably simple. Whoever is talking about climate without thinking comprehensively in the terms conditioned by the oceans and seas, will get not far in understanding what makes climate tick and where and when human activities are changing climate due to altering the 'natural structure and course' of the oceans and seas.

d) Any analysis is to be based on ocean impact

The question, whether the early Arctic warming can be analysed, intended to stress the ocean issue. No doubt, the impression that the oceans play an important role in weather and climate matters is widely spread, particularly among the average laymen. But when it comes to thinking in oceanic matters comprehensively, science is handling the questions fragmented and in a piecemeal manner. In this way one quickly misses the point. For example back in 1991 a paper asserted that "changes in the intensity of the thermocline circulation, and hence its poleward heat transport, would have a significant effect on global climate" (Weaver, 1991). Who if not this heat transport is the most likely source of the "climatic revolution" in the Arctic before the 1940s. But neither IPCC, nor the scientists working with models and chaos theories, and also not Al Gore, seem to be able to consider the warming of the Arctic from an oceanic perspective.

Even leading Arctic research experts seem to have to go some way to put more focus on the sea areas surrounding the North Pole. They will have difficulties to explain the present situation as long as they cannot explain what had happened in the past. The following section provides a selection of recent findings concerning the warming 90 years ago, with the emphasis on the 'presentation' of the early warming, whether the ocean issue is addressed, and which explanations are given. In the subsequent chapter the main aspect of the early Arctic warming and its causation will be discussed.

B. Recent findings in Arctic research

The following excerpts are selective and do not necessarily present only individual results of the authors but may include quoted conclusion. However, the selection intents to provide a principle picture on whether the authors are aware of the big warming at Spitsbergen since winter 1918/19, respectively the Arctic warming, and how it is presented. For subsequent work the interested reader is advised to consult the original texts.

Overpeck, et al., 1997

From 1840 to the mid-20th century, the Arctic warmed to the highest temperatures in four centuries. This warming ended the Little Ice Age in the Arctic and has caused retreats of glaciers, melting of permafrost and sea ice, and alteration of terrestrial and lake ecosystems. Although warming, particularly after 1920, was likely caused by increases in atmospheric trace gases, the initiation of the warming in the mid-19th century suggests that increased solar irradiance, decreased volcanic activity, and feedbacks internal to the climate system played roles.

Jones, et al., 1999

The Northern Hemisphere warmed between about 1880 and 1940, and cooled after 1940.
The global surface air temperature (SAT) has increased with 0.6 oC since 1861, with a slightly higher rate of warming in the twentieth century.

Kelly, et al., 1999

Trends in Arctic temperatures have been broadly similar to those for the Northern Hemisphere during the study period. The Arctic variations were, however, greater in magnitude and more rapid.

The overall range of the long-term variations in the temperature of the Arctic has been greater in winter.

In the winter record, the 1910s rather than the 1880s was the coldest decade. 1917 and 1918 were notably cold years especially in the winter records. The 1910s was the coldest decade in winter.

The annual data show a drop of 0.45oC from the previous decade. During the final years of this decade, warming began in the Barents Sea and Kara Sea regions.

The 1920s was a transitional decade with strong warming affecting most regions. The Barents and Kara Seas had warmed by about 2oC annually.

Polyakov, et al., 2003

The higher temperatures in the Arctic, during the 1930s-40s and the recent decades, and the lower temperatures, during the 1960s-70s and prior to the 1920s may be associated, at least partly, with the positive and negative phases of the LFO (low-frequency oscillation).

The seasonal differences in the alternate warming periods (1920s-30s and from the 1980s to the present) and cooling period (1940s-50s) are striking.

The warming during the 1920s-30s was very fast in spring, autumn and winter, but much weaker and slower in the summer. The period between 1918 and 1922 displays exceptionally rapid winter warming.

The rapid autumnal temperature rise, in the 1930s, was a local phenomenon that was observed only in Scandinavia and in the western part of maritime Russia.

This variability appears to originate in the North Atlantic and is likely induced by slow changes in oceanic thermohaline circulation.

However, SAT records demonstrate multi-decadal variability, which is stronger in the polar region than at lower latitudes. This may suggest that the origin of this variability may lie in the complex interactions between the Arctic and North Atlantic.

The Arctic temperature was higher in the 1930s-40s than during the recent decades, and hence a trend calculated for the period beginning with 1920 and going up to the present actually shows a cooling trend.

The complicated nature of Arctic temperature and pressure variations determines the difficulty of understanding the causes of the variability, and of evaluating the anthropogenic warming effect.

Polyakov, et al., (2004)

The Arctic surface air temperatures were highest in the 1930s - early 1940s.
The normalized AWCT (Atlantic Water Core Temperature) shows warm periods from late 1920s to 1950s.

Bengtsson, et al., 2004

The huge warming of the Arctic, which started in the early 1920s and lasted for almost two decades, is one of the most spectacular climate events of the 20th century.
The Arctic warming from 1920-1940 is one of the most puzzling climatic anomalies of the 20th century.
During the peak period of 1930-1940, the annually averaged temperature anomaly from the area 60oN-90oN amounted to around 1.7oC.
Whether this event is an example of an internal climate mode or of an externally induced phenomenon (by enhanced solar effects) is presently under debate.
Here we suggest that natural variability is the most likely cause, reduced sea ice-cover being crucial for the warming.
This warming was associated and presumably initiated by a major increase in the westerly and south-westerly wind, north of Norway, this leading to an enhanced atmospheric and ocean heat transport from the warm North Atlantic Current, through the passage between northern Norway and Spitsbergen, into the Barents Sea.
We suggest that the warm Arctic event just happened by chance, through an aggregation of several consecutive winters with pronounced, high latitude westerly in the Atlantic sector.
It is interesting to note that the increasing high latitude at which westerly usually flow wasn't related, this time, to the North Atlantic Oscillation, which was simultaneously weakening.
What consequences may have the findings of this study for the possible evolution of the Arctic climate? Notwithstanding an expected overall climate warming, it is suggested that the Arctic climate would be exposed to considerable internal variations during several years, initiated by stochastic variations of the high latitude atmospheric circulation and subsequently enhanced and maintained by sea ice feedback.

Johannessen, et al., 2004

SAT (surface air temperature) observations and model simulations indicate that the nature of the arctic warming in the last two decades is distinct from the early twentieth-century warm period. It is strongly suggested that the earlier warming was natural internal climate-system variability, whereas the recent SAT changes are a response to anthropogenic forcing.

Two characteristic warming events stand out, the first from the mid 1920s to about 1940 and the second starting in 1980 and still ongoing.

The early twentieth-century warming was largely confined to north of 60N. Both the 1920-39 and 1980-99 warming phenomena are more pronounced during winter for the high Arctic. The anthropogenic forcing in the 1920s-1930s was by far too weak to generate the observed warming - the change. The GHG (green-house-gas) forcing in the early decades of the twentieth century was only 20% of the present. We theorize that the Arctic warming in the 1920s/1930s and the subsequent cooling until about 1970 are due to natural fluctuations internal to the climate system.


Serreze, 2006

Since the mid-1800s, global average surface air temperature has risen approximately 0.7oC. It is widely believed that at least part of this warming arises from increased concentrations of infrared absorbing gases in the atmosphere, the so-called greenhouse effect.

Substantial high-latitude warming from about 1920 to 1940 was followed by cooling until about 1970.

A trend calculated from 1920 to present, however, yields a small Arctic cooling. Over the period 1901 to 1997, the difference in the Northern Hemisphere trend and that for the Arctic is statistically insignificant.

It nevertheless seems clear that the warming in recent decades, the warming in the earlier part of the 20th century, as well as the cooling between them are more pronounced in high latitudes than the Northern Hemisphere as a whole.

The earlier warming has no summer signalled at all, and exhibits a strong latitude dependency. In summary, we conclude that:

(1) In sharp contrast to the high-latitude warming in the earlier part of the 20th century, the recent warming is part of a global signal, suggestive of external forcing;

(2) Arctic amplification of this SAT signal, as well the observed decline in the sea ice cover, has been strongly influenced by low-frequency climate variability, especially that associated with the NAM and PDO;[41]

(3) The NAM and PDO cannot neatly explain all of the changes.

Overland, 2006

What is the comparison of recent decades with earlier warm periods in the Arctic such as the 1920s-1940s.

It should be noted that the Arctic north of 66oN represents a small fraction of the globe and that it lies at the northern limit of major storm tracks; thus Arctic is subject to considerable seasonal to decadal atmospheric variability or 'climate noise'.

The Arctic also includes major feedback processes. The most important is albedo feedback where loss of snow or ice increases the absorption of solar radiation by land or ocean. A second one is cloud - radioactive feedback where increase open water creates increased moisture flux to the atmosphere, this creating more clouds and a shift in radiation balance.

The Artic is also influenced by external forcing from volcanoes, changes in solar activity, and anthropogenic sources.

At present all three factors can be considered 'causes' of Arctic climate: natural variability, internal feedbacks, and external forcing, but with unknown relative importance and interaction.

The earlier warming shows large region-to-region, month-to-month, and year-to-year variability suggesting that these composite temperature anomalies are due primarily to natural variability in weather systems.

Overland, 2008

A meridional pattern was also seen in the late 1930s with anomalous winter (DJFM) SAT, at Spitsbergen, of greater than +4oC. Both periods suggest natural atmospheric advective contributions to the hot spots with regional loss of sea ice.

C. The issues debated by Arctic science

a) The ignorance of older research

Did the scientific disciplines of meteorology and climate come in being only few decades ago? The work of modern scientists in the field of Arctic research seems to confirm the question. None of the mentioned papers has analysed the considerable work of their forefathers. Their long list of used references rarely uses research work older than 10 years. Prominent names in meteorology from the 1930s, like Birkeland, Brooks, Scherhag, Schokalsky, Manley, Carruthers, etc. are seldom mentioned, and if so, only randomly. None of their interesting work is analysed, evaluated, or discussed. The extraordinary temperature rise at Spitsbergen, the date, the extent, the duration at this station and in the wider region have neither been emphasised nor elaborated. The extremely important distinction of summer and winter temperature in this region was never made to a core issue for research work, nor is the extensive sea ice cover from Kap Farwell/South Greenland, Iceland, and Bear Island in late spring made a discussion point.

It seems that modern science believes that the world of Arctic climatology had to be newly created somewhat 30 to 40 years ago. But even if they thought that their discipline would need to be newly invented, it would nevertheless have been necessary to prove the case by demonstrating that the research work of the 1930s and 1940s had been superficial, wrong, incompetent, and useless. But simply ignoring the work is too little to do serious research on understanding how the Arctic climate is ticking.

But even more fundamental aspects were ignored, respectively not seen. One of the most astonishing examples is the indifference of many research work shown when it comes to the marked difference between summer and winter temperatures. Although a number of papers acknowledge that there has been a marked higher temperature winter level versus the summer level, this issue was never picked up for thorough investigation. Although arctic winter warming cannot be directly enhanced by a solar effect, Overland and others do not question nor even hesitate to bring solar activities in play.

The superficiality is topped by a complete ignorance of seasonal air temperatures of Arctic coastal or inland stations in relation to the status of sea ice relevant at that location. At most general freezing and melting aspects are mentioned, but the extreme weather and climate relevant seasonal icing in the Northern North Atlantic and Barents Sea has not been elaborated in any of the papers mentioned above. One paper, for example, merely mentions that "reduced sea ice-cover being crucial for warming". No wonder that the researchers missed to elaborate and to explain the special situation of Spitsbergen throughout the 150 years since the end of the Little Ice Age, but particularly the early warming of 90 years ago, and the subsequent warming since the 1980s.

The astonishment is enhanced by the fact that some researches have no problem to acknowledge that the warming since the 1920s:

  • was greater in magnitude and more rapid, than the recent one;
  • displays exceptional rapid winter warming;
  • the seasonal differences are striking;
  • has no summer signal at all;
  • is one of the most spectacular climate events;
  • is one of the most puzzling climatic anomalies, but do not rest until finding an answer to each of the raised points.

Based on those initial general remarks, some further 'explanation' given in the referred paper will be picked up and discussed.

b) About the suddenness of the early event

None of the papers recognises or investigates the most remarkable feature of the early warming, namely the suddenness. The suddenness, which we could pin-point as having happened -statistically- in January to February 1919, is the source of information that ticker question and cry for answers. At a remote archipelagos as Spitsbergen a sudden warming during winter would inevitably leave only few options for the identification of the causation. It seems impossible to come up with something else than the ocean body. But even that would need to be qualified more precisely, as a sea body like the Norwegian Sea itself would presumably never be able to produce such a big warming suddenly and to sustain it over two decades. The warm Atlantic water travelling toward the North Pole with the Spitsbergen Current would have quickly caught attention. The research of Arctic warming could commence.

For example: One researcher asserts that "this variability may lie in complex interactions between Artic and North Atlantic". But the logic would have told one that the more interaction had happen, the less likely it would have allowed happening with suddenness.

Another example is certainly the frequent reference to "natural variability". One can not base a research merrily on longer period statistics without evaluating the statistics on lower frequencies as well. Any detailed analysis of the rise of winter temperatures at Spitsbergen shows that the jump was not natural, but "unnatural".

c) Circulation variations - Brooks Question 1938

One paper suggested that the Arctic climate would be exposed to considerable internal variations during several years, initiated by stochastic variations of the high latitude atmospheric circulation and subsequently enhanced and maintained by sea ice feedback. No word on what caused the alleged circulation variations. No word on what essential conclusion can be drawn. A stochastic process is one wherein the system incorporates an element of randomness as opposed to a deterministic system.

Other researcher said that the temperature variations might be due to: "at least partly, with the positive and negative phases of the low-frequency oscillation (LFO)". LFO means to vary between alternating extremes, usually within a definable period of time. Such notion explains not the suddenness, nor the magnitude, and neither the long duration over two decades. The notion does not lead to the location Spitsbergen, does not put the emphasis on Northern North Atlantic as the determining factor, and miss the point that this warming could have only be initiated and sustained by the West Spitsbergen Current.

The problem is not new but haunted already the researchers in the 1930s. What had caused the warming of the Arctic? R. Scherhag, presumably one of the most keen and competent researcher on the issue, was one of the few who came up with at least one assertion, which the American meteorologist C.E.P. Brooks, immediately questioned. In 1937 R. Scherhag wrote:

"The greater mildness of winters observable in the temperate zone during the last hundred years, accompanied by an increase in atmospheric circulation, has, during the last fifteen years, led to an extraordinary rise in temperature in the arctic regions, which in its turn has been accompanied by a corresponding retreat if the ice and a higher temperature in the sea. (Scherhag, 1937)

In 1938 Brooks asked the right question, which neither Scherhag, nor modern science has answered yet:

"Attributing the recent period of warm winters to an increase in the strength of the atmospheric circulation only pushes the problem one stage further back, for we should still have to account for the change of circulation." (Brooks, 1938)

Indeed! Since long such question concerning circulation changes and variation should not have been placed as presumptions, as mentioned in the previous paragraphs, but answered.

Brooks question is also not answered if, for example, one paper names instead the changed circulation a major increase in the westerly and south-westerly wind, north of Norway, and thereon coming up with the assumption that this lead to "an enhanced atmospheric and ocean heat transport from the warm North Atlantic Current, through the passage between northern Norway and Spitsbergen, into the Barents Sea" (Bengtsson, 2004). Presumably, the authors want to say what also Brooks expressed in 1938, when he wanted to explain his statement on accounting for a change of circulation:

"Moreover, it is almost equally plausible to regard the change of circulation as a result of the warming of the Arctic, for open ice conditions in the Arctic Ocean are favourable to the formation of depressions. More probably the increased circulation is both cause and effect of the warmed Arctic; high temperature causes storminess and decrease of pressure in high latitudes, which in turn is associated with stronger wet winds in middle latitudes, driving an excess of warm sea water into the Arctic and raising the temperature still further."(Brooks, 1938)

Although Brooks was already on the right way, he seems himself aware that this is not the needed explanation on what caused the circulation to change in the first place. The cited recent paper has hardly more to offer as Brooks before 70 years. At least Brooks conclusions is presented in general terms, while the recent paper name the Barents Sea without any elaboration whether this fairly shallow sea, with an average depth of 230m, can initiate a very sudden warming, and sustain a warming of a longer period of time. This issue will be discussed more deeply in the next chapter.


d) The non sensual use of "natural variability"

Almost all papers relate the early warming in the 1920s partly or primarily to:

  • natural variability in the weather system;
  • atmospheric variability or "climate noise";
  • natural fluctuations internal to the climate system;
  • considerable internal variations;
  • feedbacks internal to the climate system.

These references explain nothing. Nowadays WMO[42] still defines climate as the average weather, while the global convention, on this matters has not a definition of climate at all[43]. Instead the "climate system" is defined as: "the totality of the atmosphere, hydrosphere, biosphere and geosphere and their interactions". This does not paraphrase more than "global nature". Raising the matter here shall indicate the use of such term, or equivalent circumscriptions, does in no way contribute to explain anything of the situation in the Arctic since the late 1910s. The researchers in the 1930s seem to have had a more solid approach in mind, as none of them - as far as it could be observed - has ever assumed that this warming is due to "natural variability"|. More information on the term "climate" is available at a specialized web-site[44].

D. Summary

The question was, whether modern science is able to provide reasonable explanations on the reasons for the Arctic warming. This is definitely not the case for the warming that occurred 90 years ago. The assessments and conclusions remain superficial and hypothetic. The current arctic warming can presumably only reasonably be understood and explained by a thorough understanding of the warm and cold periods of the last century. It surprises that the sudden warming of the Arctic, although widely acknowledged, has never been seen as the presumably best study field, under the most promising circumstances, to reach evident results. Instead the matter is side stepped and made scientifically irrelevant by claiming that there is nothing to investigate due to the fact that it happed as a natural fluctuation. The next chapter shall show that this is not a sustainable approach, but that it is possible to prove that the causation can be named.


39 The climate definition matter is discussed in detail at: http://www.whatisclimate.com/

40 The New York Times (2007); Al Gore, "Moving Beyond Kyoto", Sunday, the 1st of July 2007, WK 13.

41 Northern Annular Mode (NAM) and Pacific Decadal Oscillation (PDO).

42 World Meteorology Organisation

43 United Nations Framework Convention on Climate Change, 1992; but defines instead in Article 1 the following terms:
1. "Adverse effects of climate change" means changes in the physical environment or biota resulting from climate change which have significant deleterious effects on the composition, resilience or productivity of natural and managed ecosystems or on the operation of socio-economic systems or on human health and welfare.
2. "Climate change" means a change of climate which is attributed directly or indirectly to human activity that alters the composition of the global atmosphere and which is in addition to natural climate variability observed over comparable time periods.
3. "Climate system" means the totality of the atmosphere, hydrosphere, biosphere and geosphere and their interactions.

44http://www.whatisclimate.com/

Book details

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Europe Edition in Color

  • About the book
    The ice in the polar region is melting away at an unprecedented speed during the last decade. Is the Arctic screaming? Is a tipping point reached? Is the ice melting apocalyptic? Indeed, during the last 150 years the sea ice retreat has never been as severe as in recent years. But, what is the cause? Was the current warming set in motion by the early Arctic warming which started since the late 1910s, and lasted from 1919 to 1939?
    The book will provide astonishing, but important answers. Actually, the extraordinary warming in the polar region, since 1919, was not an Arctic, but a Spitsbergen warming. The study shows that it is possible to set with precision the location and timing of the warming. Available information of the Arctic Ocean, Greenland, Iceland, North Europe, and Russia are analyzed in order to establish with accuracy, where and when the warming appeared, and by which magnitude. After all, the warming lasted for two decades and was in 1938 as high as currently. Thus, the investigation provides a unique picture on the knowledge about the Arctic impact on the climate.
    This work elaborates historical and resent research papers comprehensively and discusses them in such detail that seems no longer possible to assume that the earlier Arctic warming is due to "natural variability". Calling the ice melting an: "Apocalypse Now", should be met with reservation, as long as the first Arctic warming from 1919 to 1939 is not thoroughly understood. With the material and information presented, the climate change debate will be enhanced with astonishing new aspects.
  • Publisher
  • The ice in the polar region is melting away at an unprecedented speed during the last decade. Is the Arctic screaming? Is a tipping point reached? Is the ice melting apocalyptic? Indeed, during the last 150 years the sea ice retreat has never been as severe as in recent years. But, what is the cause? Was the current warming set in motion by the early Arctic warming which started since the late 1910s, and lasted from 1919 to 1939?
    The book will provide astonishing, but important answers. Actually, the extraordinary warming in the polar region, since 1919, was not an Arctic, but a Spitsbergen warming. The study shows that it is possible to set with precision the location and timing of the warming. Available information of the Arctic Ocean, Greenland, Iceland, North Europe, and Russia are analyzed in order to establish with accuracy, where and when the warming appeared, and by which magnitude. After all, the warming lasted for two decades and was in 1938 as high as currently. Thus, the investigation provides a unique picture on the knowledge about the Arctic impact on the climate.
    This work elaborates historical and resent research papers comprehensively and discusses them in such detail that seems no longer possible to assume that the earlier Arctic warming is due to "natural variability". Calling the ice melting an: "Apocalypse Now", should be met with reservation, as long as the first Arctic warming from 1919 to 1939 is not thoroughly understood. With the material and information presented, the climate change debate will be enhanced with astonishing new aspects.
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  • Acknowledgement
  • This book would not have been possible without the invaluable help and commitment from Angela Boartes. The liaison commenced in 2006 and includes the care for the websites www.whatisclimate.com and www.arctic-warming.com. Arctic warming became the first big challenge by preparing a conference paper for PACON 2007/Honolulu and a website, and Angela supported it greatly. When it was decided to present the complex matter in great detail and underline the text with explanatory images, Angela and her team showed high professionalism and willingness. It made the research, the elaborating of material, and the writing a smooth and enjoyable undertaking. Angela also undertook all the formatting and publication procedure. With appreciation I express my very cordial thanks.

    Arnd Bernaerts/February 2009
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"CAN THE "BIG WARMING" AT SPITSBERGEN
FROM 1918 to 1940 BE EXPLAINED?"
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Annex

Annex B I - Colored Sea Ice graphs 1910-1919
Annex F - Air Temp. 1912-1930; North Atlantic Region.
Annex G - Annual Mean Temp

General Material
  • April Sea Ice Cover 1910 -1919.
  • January & February Temperatures 1912 to 1930 at various stations.
  • Annual Mean Temperatures from ca. 1880 to 1945 at various stations.