Showing posts with label rise. Show all posts
Showing posts with label rise. Show all posts

Sunday, January 14, 2024

Seafloor methane tipping point crossed in 2024?

The heat in December 2023 was felt most strongly in the Arctic, as illustrated by the NASA image below, showing anomalies above 1951-1980 as high as 9.9°C. 

The image below further illustrates heat striking the northern latitudes in 2023, showing that the temperature anomaly in 2023 was 2.19°C above 1880-1920 in between 24°North and the North Pole


The danger is that ocean heat could abruptly be pushed from the North Atlantic into the Arctic Ocean, temporarily raising temperatures at the seafloor of the Arctic Ocean, as discussed in earlier posts such as this one

Terrifying rise of Northern Hemisphere ocean temperature anomalies

The image shows the terrifying rise of Northern Hemisphere ocean temperature anomalies from 1901-2000, illustrating crossing of two tipping points, i.e. the Latent Heat Tipping Point and the Seafloor Methane Tipping Point.

This threatens to cause rapid destabilization of methane hydrates at the seafloor of the Arctic Ocean and lead to explosive eruptions of methane, as its volume increases 160 to 180-fold when leaving the hydrates. 


The image is an update of the image below, from a 2023 post and added here for reference purposes. Check out that post for more on the Latent Heat tipping Point and the Seafloor Methane Tipping Point.


Note that the above analyses are for annual data. An earlier analysis using monthly data shows that the seafloor methane tipping point was reached in August 2023. 

The danger is that, as the latent heat buffer disappears, incoming ocean heat can no longer be consumed by sea ice, but will instead heat up sediments at the seafloor of the Arctic ocean.

Latent heat loss, feedback #14 on the Feedbacks page
Ominously, sea surface temperatures (60°South-60°North) are on the rise in 2024, as illustrated by the image below.


The image below, adapted from NOAA, shows how high temperatures line up with El Niño months.

[ click on images to enlarge ]

Annual temperature anomalies as high as 2.5°C above pre-industrial

The temperature anomaly in 2023 may be as high as 2.5°C above pre-industrial, as illustrated by the image below.


For more on the analysis behind this potential rise of 2.5°C, see the pre-industrial page. Acknowledging the full strength of the rise is important, because of the feedbacks that come with it. Rising temperatures result in more water vapor getting in the atmosphere (7% more water vapor for every 1°C warming), further amplifying the temperature rise, since water vapor is a potent greenhouse gas. 

The IPCC likes people to believe that the temperature rise is only 1.1°C above pre-industrial, in which case there would be only 7.7% more water vapor in the atmosphere, but with a 2.5°C rise, there would be 17.5% more water vapor in the atmosphere. Those who seek to downplay the danger act as if changes to the Jet Stream and to ocean currents, Arctic sea ice, methane and water vapor can all be ignored.

Humans will likely go extinct with a 3°C rise. The image below shows annual mean global surface temperature (Land-Ocean) created with NASA Land-Ocean temperature anomaly versus 1902-1920, further adjusted by 0.99°C to reflect ocean air temperature, higher polar anomalies and an earlier (pre-industrial) base. The blue line shows a polynomial trend based on 1880-2023 data, indicating that a 3°C rise could eventuate by 2035. The magenta line shows a polynomial trend based on data from a shorter period (2010-2023), which better reflects short term variables such as El Niño and which indicates that a 3°C rise could eventuate as early as in 2024, i.e. this year. 


Note again that the above analyses are for annual data. An earlier analysis using monthly data shows that the September 2023 NASA Land+Ocean temperature was 1.78°C higher than it was in September 1923. The anomaly is 1.74°C when compared to a base centered around the year 1900 (1885-1915). This 1.74°C anomaly can be adjusted by 0.99°C to reflect a pre-industrial base, air temperature and higher polar anomalies, adding up to a potential anomaly of 2.73°C.

Climate Emergency Declaration

The situation is dire and the precautionary principle calls for rapid, comprehensive and effective action to reduce the damage and to improve the situation, as described in this 2022 post, where needed in combination with a Climate Emergency Declaration, as discussed at the Climate Emergency Declaration group.


Links

• NASA - GISS Surface Temperature Analysis
https://data.giss.nasa.gov/gistemp

• Sea surface temperature at record high
https://arctic-news.blogspot.com/2023/03/sea-surface-temperature-at-record-high.html

• 2024 looks to be worse than 2023
https://arctic-news.blogspot.com/2024/01/2024-looks-to-be-worse-than-2023.html

• Climate Reanalyzer - Daily sea surface temperatures
https://climatereanalyzer.org/clim/sst_daily

• NOAA - Northern Hemisphere ocean temperature anomalies vs 1991-2020
https://www.ncei.noaa.gov/access/monitoring/climate-at-a-glance/global/time-series/nhem/ocean/12/12/1850-2023

• NOAA - Monthly temperature anomalies versus El Niño
https://www.ncei.noaa.gov/access/monitoring/monthly-report/global/202313/supplemental/page-2

• NOAA - Climate Prediction Center - ENSO: Recent Evolution, Current Status and Predictions
https://www.cpc.ncep.noaa.gov/products/analysis_monitoring/lanina/enso_evolution-status-fcsts-web.pdf

• Cold freshwater lid on North Atlantic
https://arctic-news.blogspot.com/p/cold-freshwater-lid-on-north-atlantic.html

• Albedo, latent heat, insolation and more
https://arctic-news.blogspot.com/p/albedo.html

• Latent Heat
https://arctic-news.blogspot.com/p/latent-heat.html

• The Threat of Global Warming causing Near-Term Human Extinction
https://arctic-news.blogspot.com/p/threat.html

• Feedbacks
https://arctic-news.blogspot.com/p/feedbacks.html

• Pre-industrial
https://arctic-news.blogspot.com/p/pre-industrial.html

• When Will We Die?

• Extinction
https://arctic-news.blogspot.com/p/extinction.html

• Climate Plan
https://arctic-news.blogspot.com/p/climateplan.html

• Climate Emergency Declaration
https://arctic-news.blogspot.com/p/climate-emergency-declaration.html

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Friday, January 12, 2024

Crossing 1.5C - On track toward an uninhabitable Earth

by Andrew Glikson

“… but they can be sure that they won't be recorded for their crimes in history -- because there won't be any history” (Noam Chomsky, 2023)

The macabre criminality of world’s so-called leaders, coupled with the ignorant compliance of a majority of the victims of global heating and potential nuclear annihilation, belong to the inconceivable. It is not clear whether any climate scientists are left to whom governments are listening, for if they did, they would learn that the intensification of extreme weather events currently and later in the century is bound to render large parts of the planet uninhabitable. In particular of islands ravaged by cyclones and sea level rise, extensive tropical and subtropical coastal zones and lands subjected to storms, floods, draughts and fires, in Africa, Australia and India. Polar-sourced cold fronts crossing the weakening jet stream boundary are already disrupting North America, Siberia and Europe, as are warm air masses penetrating the Arctic circle.

Distracted by a series of horrific bloodsheds induced by toxic masculinity of alpha males around the world, propagated by the “media”, the multitudes are only dimly aware of the oncoming climate carnage, orders of magnitude bigger than currently forecast.

According to leading climate scientists like James Hansen and his colleagues: “Without major action to reduce emissions, global temperature is on track to rise by 2.5°C to 4.5°C by 2100” (NASA 2023). It is far from clear whether anything can be done to arrest or reverse global heating, for as temperatures rise so is the production of fossil fuels enhanced by science-ignorant hordes of politicians and economists oblivious to the basic laws of physics. Alternative clean energy without sharp cuts in fossil fuel combustion can hardly stem global heating.

[ Figure. 1. Daily surface temperature analysis from the ECMWF reanalysis version 5 (ERA5). ]

December was the 7th consecutive month of record-shattering global temperature (Figure 1.), driven by the combination of a moderately strong El Nino and a large decrease of Earth’s albedo. Hansen et al. (2024) expect record monthly temperatures to continue into mid-2024, due to the present large planetary energy imbalance, with the 12- month running-mean global temperature reaching +1.6-1.7°C relative to 1880-1920. It will be clear that the 1.5°C ceiling has been passed for all practical purposes, and that the mean global temperature is currently accelerating toward 2.0°C above pre-industrial temperature by the middle of the decade (Figure 2), while the Arctic has been warming nearly four times faster than the rest of the world over the last 43 years, on average around 3℃ warmer than it was in 1980. Over the past 30 years Antarctica has been one of the fastest-changing places on Earth, warming more than 3 times than the rest of the world.

[ Figure. 2. Global temperature relative to 1880-1920 based on the GISS analysis
(Goddard Institute of Space Studies) analysis - by James Hansen et al., 2024. ]

A projection by NOAA states: “While we cannot stop global warming overnight, we can slow the rate and limit the amount of global warming by reducing human emissions of heat-trapping gases and soot (“black carbon”). Unfortunately, this projection takes neither the amplifying feedback, i.e. from warming oceans, melting ice sheets, migrating climate zones and melting of methane, nor the time factor into account.

A factor rarely taken into account emerges from Hansen et al. (1996)'s paper “Ice melt, sea level rise and superstorms: evidence from paleoclimate data, climate modelling, and modern observations that 2°C global warming could be dangerous” (Figure 3). Here the flow of cold ice melt water results in formation of large cold-water pools of in the Atlantic and Southern oceans, inducing a contraction of the tropical climate zone and an overall decline in mean global temperatures. The collision between the cold air and water fronts and the tropical warm air mass would lead to severe storms over large tracts of Earth.

Likely transient respites in global warming (stadials) may take place over the next few centuries or longer, when the flow of cold ice-melt water from the Greenland and Antarctica ice sheets (Bronselaer et al., 2018; Glikson, 2019) reduces the mean rate of warming, although this may occur too late for civilization (Figure 3).
[ Figure 3. Surface air temperature (°C) relative to 1880-1920 for several scenarios - by James Hansen et al. 2016.
Future model transient cooling periods consequent on flow of ice meltwater from Greenland and Antarctica into oceans ]
The criminal insanity of political, military, strategic, economic leaders, matched by the blindness of billions, supports what has been referred to as Fermi’s Paradox ─ where the apparent absence of signals from technological civilizations in the Milky Way, may be explained in terms of a self-destruction of such civilizations.

Having ignored climate science, dismissed or fired climate scientists and repeatedly confected lies, while global heating accelerates with deleterious consequences, Homo “sapiens” is finding itself on track toward carbon poisoning of the atmosphere, the lungs of the inhabitable Earth, acidification of the hydrosphere and coating of the land with carbon and plastics.

A/Prof. Andrew Y Glikson
Earth and Paleo-climate scientist

Andrew Glikson
Books:

The Asteroid Impact Connection of Planetary Evolution
https://www.springer.com/gp/book/9789400763272
The Archaean: Geological and Geochemical Windows into the Early Earth
https://www.springer.com/gp/book/9783319079073
The Plutocene: Blueprints for a Post-Anthropocene Greenhouse Earth
https://www.springer.com/gp/book/9783319572369
The Event Horizon: Homo Prometheus and the Climate Catastrophe
https://www.springer.com/gp/book/9783030547332
Climate, Fire and Human Evolution: The Deep Time Dimensions of the Anthropocene
https://www.springer.com/gp/book/9783319225111
Evolution of the Atmosphere, Fire and the Anthropocene Climate Event Horizon
https://www.springer.com/gp/book/9789400773318
From Stars to Brains: Milestones in the Planetary Evolution of Life and Intelligence
https://www.springer.com/us/book/9783030106027
Asteroids Impacts, Crustal Evolution and Related Mineral Systems with Special Reference to Australia
https://www.springer.com/us/book/9783319745442
The Fatal Species: From Warlike Primates to Planetary Mass Extinction
https://www.springer.com/gp/book/9783030754679
The Trials of Gaia. Milestones in the evolution of Earth with reference to the Antropocene
https://www.amazon.com.au/Trials-Gaia-Milestones-Evolution-Anthropocene/dp/3031237080


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Sunday, January 7, 2024

2024 looks to be worse than 2023


The year 2024 looks to be worse than the year 2023. The above chart shows sea surface temperatures that were extremely high in 2023 followed by a steep rise in 2024, crossing 21°C in early January 2024.

The chart below illustrates this further, showing the daily sea surface temperature anomaly using 1 Sep. 1981 to 31 Dec. 2023 data versus the 1982-2011 mean for latitudes between 60°S and 60°N.

The importance of sea surface temperatures

Slowing down of the Atlantic meridional overturning circulation (AMOC) results in less ocean heat reaching the Arctic Ocean and, instead, a huge amount of ocean heat has been accumulating in the North Atlantic in 2023.

Much of the heat in the North Atlantic could soon be pushed abruptly into the Arctic Ocean, as storms can temporarily speed up currents strongly, carrying huge amounts of ocean heat with them into the Arctic Ocean.


The mechanism behind this has been described often in earlier posts and this page. Meltwater and rain can cause a freshwater lid to form and grow at the surface of the North Atlantic and this, in combination with greater stratification as ocean temperatures rise (above image), can enable more ocean heat to increasingly travel underneath this lid from the North Atlantic into the Arctic Ocean, and especially so at times when Jet Stream changes are causing storms that speed up ocean currents along this path.


The danger is illustrated by the above image, showing a forecast for January 11, 2024, with the Jet Stream moving almost vertically over the North Atlantic to the north. The image below shows heat over the North Atlantic, with temperatures reaching as high as 10.5°C or 50.8°F over Greenland (at the green circle) at 1000 hPa on January 10, 2024, 07:00 UTC.


The image below shows 2 meter temperature anomalies on January 11, 2024. 


Very high sea surface temperature anomalies can occur in the path of the Gulf Stream, as illustrated by the image below showing high sea surface temperatures on January 3, 2024, as high as 11.7°C (21°F) at the green circle, over the counterpart of the Gulf Stream in the Pacific, off the coast of Japan. 


Earlier posts have warned about this, such as this post and this video, almost seven years ago. This could cause events during which much ocean heat moves abruptly into the Arctic Ocean, resulting in seafloor methane releases, overwhelming of the latent heat buffer and causing sea ice loss (and thus albedo loss), as well as loss of lower clouds (thus causing further albedo loss), while open oceans are also less efficient than sea ice when it comes to emitting in the far-infrared region of the spectrum and while an ice-free Arctic Ocean will also release more ocean heat into the atmosphere.


Arctic sea ice volume is very low for the time of year, as illustrated by the above image.

A large part of the thicker sea ice is located off Greenland's East Coast, as illustrated by the above image. Much of the sea ice will therefore rapidly disappear as the water heats up in 2024.


The above image, adapted from tropicaltidbits.com, shows a forecast for October 2024 of the 2-meter temperature anomaly in degrees Celsius, based on 1984-2009 model climatology. The anomalies are forecast to be very high for the Arctic Ocean.

In the video below, Jennifer Francis is interviewed by Nick Breeze. 



The importance of daily air temperatures, Northern Hemisphere


[ from the Extinction page ]
The situation is dire. The Northern Hemisphere is getting hit hardest by high temperatures, as illustrated by the above image. 

The Northern Hemisphere is home to some 90% of the world population of more than 8 billion people, with much of them living in South-East Asia.

As more people become aware of the dire situation, widespread panic may set in.

People may stop showing up for work, resulting in a rapid loss of the aerosol masking effect, as industries that now co-emit cooling aerosols (such as sulfates) grind to a halt.

Many people may start to collect and burn more wood, resulting in an increase in emissions that speed up the temperature rise.

As temperatures rise, more fires could also break out in forests, peatlands and urban areas including landfills and waste dumps, further contributing to emissions that speed up the temperature rise.

The image on the right illustrates how fast a huge temperature could unfold.

As a somewhat sobering footnote, humans will likely go extinct with a 3°C rise and most life on Earth will disappear with a 5°C rise, as discussed in an earlier post.


Climate Emergency Declaration

The situation is dire and the precautionary principle calls for rapid, comprehensive and effective action to reduce the damage and to improve the situation, as described in this 2022 post, where needed in combination with a Climate Emergency Declaration, as discussed at this group.



Links
• Climate Reanalyzer 
https://climatereanalyzer.org

• Nullschool

• Danish Meteorological Institute - Arctic sea ice volume and thickness
https://ocean.dmi.dk/arctic/icethickness/thk.uk.php

• New Record Ocean Temperatures and Related Climate Indicators in 2023 - by Lijing Checg et al. (2024)

• Cold freshwater lid on North Atlantic
https://arctic-news.blogspot.com/p/cold-freshwater-lid-on-north-atlantic.html

• Extinction







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Friday, November 17, 2023

Arctic Ocean Heatstroke

[ discussed at facebook ]
The above image illustrates how much hotter October 2023 was in the Northern Hemisphere, compared to October in other years. The temperature in October 2023 was more than 2°C above October in 1880-1920, in the Northern Hemisphere, even with 3 years smoothing. Note that 1880-1920 is not pre-industrial, when using a base that is genuinely pre-industrial, the anomaly would be even higher.


The above image, adapted from Climate Reanalyzer, and the image below, adapted from NASA, both use the same 1951-1980 baseline to illustrate the October 2023 temperature anomaly.


Anomalies are very high, especially over the Arctic Ocean, which reflects the enormous amounts of heat that are transferred from the Arctic Ocean to the atmosphere.

There are further reasons behind the very high anomalies over the Arctic, one of which is methane, which has risen very fast over the years.

The image on the right illustrates methane's historic rise, showing IPCC and, more recently, WMO data. Methane (CH₄) reached 1923 parts per billion (ppb) in 2022, 264% of the 1750 level, while carbon dioxide (CO₂) reached 417.9 parts per million (ppm) in 2022, 150% of the 1750 level, and nitrous oxide (N₂O) reached 335.8 ppb, 124% of the 1750 level.

This image below shows some very high hourly average methane levels recently recorded at Barrow, Alaska.


The image below shows high monthly methane levels at Mauna Loa, Hawaii, U.S. 


The image below, created with a Copernicus forecast for November 15, 2023 03 UTC, shows very high methane levels over the Arctic at 500 hPa.



The image below shows that the NOAA-20 satellite recorded high methane levels over the Arctic Ocean, especially north of Alaska, on November 15, 2023 AM at 399.1 mb.

The image below shows methane levels as high as 2700 ppb recorded by the MetOp-B satellite on November 17, 2023 PM at 293 mb.


The image below shows high methane levels over Greenland recorded by the MetOp-B satellite on November 18, 2023 PM at 399 mb.


The image below shows mean methane levels of 1942 ppb recorded by the MetOp-B satellite on November 19, 2023 PM at 399 mb.


The Argo Float 6904087 compilation image below illustrates that the highest water temperatures in the Arctic Ocean can occur at a depth of about 250 meters.

[ click on images to enlarge ]
The Argo Float 6901934 compilation image below illustrates that the highest water temperatures in the Arctic Ocean can occur at a depth of about 250 meters.

[ click on images to enlarge ]
Arctic Ocean surface temperatures are strongly influenced by air temperatures and seasons, ranging from more than 10°C to as low as -1.8°C when there is sea ice.

[ from earlier post ]
By contrast, the water temperature below the surface can remain stable throughout the year at close to 0°C all the way down to 2000 meters without freezing, due to higher salinity. However, the water temperature can be well above 0°C throughout the year at a depth of a few hundred meters, which is worrying since much of the water is less than 200 m deep where the continental shelves extend into the Arctic Ocean (light blue map on the right) and methane hydrates at the seafloor there could instantly be destabilized by a sudden influx of warm water from the North Atlantic. 

Over the next few months, as sea ice keeps growing in extent, this seals off the Arctic Ocean from the atmosphere. This makes it harder for heat to get transferred from the Arctic Ocean to the atmosphere and increases the danger that more heat will reach sediments located at the seafloor and cause methane to be released from hydrates as well as methane that is present in the form of free gas underneath the hydrates.

The danger is illustrated by the image below, adapted from Climate Reanalyzer, which shows a rise in temperature (2 m) by 2100 compared to 1852-1900 using a CMIP6 SSP585 model. 


[ image from the Extinction page ]
Note that none of the bases used in the above images is pre-industrial, neither 1880-1920, nor 1951-1980, nor 1852-1900. Using a base that is genuinely pre-industrial base would result in even higher anomalies. The image on the right shows a 2.29°C 2020 anomaly from 3480 BC.  

Note also that even a small temperature rise (of less than 1°C) can destabilize a vulnerable methane hydrate, which can cause an eruption that in turn can destabilize neighbouring hydrates, resulting in a self-reinforcing feedback loop of methane releases, including methane in the form of free gas from underneath the hydrates. This can drive up temperatures very rapidly. 

Seafloor methane is only one out of many elements that could jointly cause a temperature rise of over 10°C within a few years, in the process causing the clouds tipping point to get crossed that can push up the temperature rise by a further 8°C, as illustrated by the image on the right, from the extinction page.

Conclusion

The precautionary principle calls for comprehensive and effective action to reduce the damage and to improve the situation, along the lines of this 2022 post in combination with a declaration of a climate emergency.


Links

• Climate Reanalyzer
https://climatereanalyzer.org/research_tools/monthly_maps

• NASA Temperature anomaly October 2023

• WMO Greenhouse Gas Bulletin No. 19 – 15 November 2023

• Copernicus - Methane forecasts





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Friday, October 13, 2023

Temperature rise - September 2023 and beyond

The above image, adapted from NASA and the image below, adapted from Climate Reanalyzer and using the same baseline, illustrate the September 2023 temperature anomaly.


September 2023 was the month with the highest temperature anomaly on record. What contributed to this?

El Niño
 

The temperature rose about 0.5°C from November 2022 to March 2023, and this occurred at a time when we were not even in an El Niño yet, as illustrated by the above image, from an earlier post. Below is an updated image, from January 1950 to September 2023, adapted from NOAA

[ click on images to enlarge ]
[ click on images to enlarge ]
The current El Niño is still strengthening, as illustrated by the image on the right, adapted from IRI.

Further contributors

There are further reasons why the temperature can be expected to keep rising beyond September 2023.

The number of sunspots has been higher than predicted and looks set to keep rising above predicted levels until July 2025, as discussed here.

The eruption of the submarine volcano near Tonga in January 2022 caused a lot of water vapor to reach high up into the atmosphere and this may still contribute to the temperature rise, as discussed here.

Aerosols that have a cooling effect, such as dust and sulfates (SO₄), are also important. As fossil fuel is burned, sulfates are co-emitted. Since they pollute the air, measures have been taken and are being taken to reduce them, e.g. in shipping, and this has pushed up the temperature rise. Meanwhile, cooling aerosols such as sulfates are still high. As illustrated by the image below, adapted from nullschool.net, SO₄ was as high as 8.621 τ at the green circle on October 6, 2023, at 07:00 UTC. In future, SO₄ could fall dramatically, e.g. in case of a sudden economic collapse, reducing the aerosol masking effect rapidly and abruptly causing a substantial rise in temperature.


After little change in the Antarctic sea ice extent graph for decades, extent loss was dramatic in 2022 and even more dramatic in 2023, as less and less sunlight was getting reflected back into space and instead was getting absorbed by the water of the Southern Ocean, as illustrated by the image below, adapted from NSIDC.
Sea ice retreat comes with loss of albedo, i.e. loss of the amount of sunlight reflected back into space, resulting in more heat getting absorbed in the Southern Ocean, making it a self-reinforcing feedback loop. Clouds constitute another self-reinforcing feedback loop; a warmer Southern Ocean comes with fewer bright clouds, further reducing albedo, as discussed here and here. For decades, there still were many lower clouds over the Southern Ocean, reflecting much sunlight back into space, but these lower clouds have been decreasing over time, further speeding up the amount of sunlight getting absorbed by the water of the Southern Ocean, and this 'pattern effect' could make a huge difference globally, as a recent study points out. Emissivity is a further factor; open oceans are less efficient than sea ice when it comes to emitting in the far-infrared region of the spectrum (feedback #23 on the feedbacks page). 



The above image was created by Zach Labe with NSIDC data (Arctic + Antarctic) for each year from 1979 to 2023 (satellite-era; NSIDC, DMSP SSM/I-SSMIS). The image illustrates that global sea ice extent  recently reached the largest anomaly in the satellite record. Anomalies are calculated using a 5-day running mean from a climatological baseline of 1981-2010. 2016 is shown with a yellow line. 2023 is shown using a red line (updated 10/16/2023).

In the video below, Paul Beckwith discusses the importance of loss of sea ice at around -60° (South).


As said, there are many factors behind the temperature increase around latitude -60° (South). As Paul mentions, this latitude receives a lot of sunlight around the year. Therefore, it is not surprising that, as oceans continue to heat up, there is huge loss of sea ice at this latitude, as well as loss of lower clouds, while open oceans are additionally less efficient than sea ice when it comes to emitting in the far-infrared region of the spectrum. The image below, adapted from NASA, shows a white band around -60° (South), indicating that the Southern Ocean has long been colder there than elsewhere, but has recently started to catch up with the global temperature rise.



The above image also illustrates that anomalies are highest in the Arctic, narrowing the temperature difference between the Arctic and the Tropics, with the air flow slowing down accordingly. 

[ image adapted from Copernicus ]
This in turn changes the Jet Stream and the Polar Vortex, resulting in blocking patterns that can, in combination with rising temperatures, strongly increase the frequency, intensity, duration and area coverage of extreme weather events such as storms and lightning, heatwaves and forest fires.

Forest fires in Canada have been releasing massive amounts of emissions that push up the temperature, including greenhouse gases such as carbon dioxide, warming aerosols such as black carbon & brown carbon and NMVOC (non-methane volatile organic carbon) and carbon monoxide that reduce the availability of hydroxyl, resulting in more methane and ozone in the atmosphere. 

[ NH sea surface temperature anomaly ]
At the same time, slowing down of the Atlantic Meridional Ocean Current (AMOC) can result in more ocean heat accumulating at the surface of the North Atlantic, as illustrated by the image on the right, from an earlier post.

As temperatures rise, increased meltwater runoff from Greenland and more icebergs moving south, in combination with stronger ocean stratification and stronger storms over the North Atlantic, can also cause a freshwater lid to form at the surface of North Atlantic that can at times enable a lot of hot water to get pushed abruptly underneath this lid toward the Arctic Ocean. The danger is that more heat will reach the seafloor and destabilize methane hydrates contained in sediments at the seafloor of the Arctic ocean. 

Ominously, very high methane levels continue to be recorded at Barrow, Alaska, as illustrated by the image below, adapted from NOAA.

The next few months will be critical as Arctic sea ice is sealing off the Arctic Ocean from the atmosphere, trapping heat underneath the ice and making it harder for ocean heat to get transferred from the Arctic Ocean to the atmosphere above the Arctic. Furthermore, sea ice is very thin, reducing the latent heat buffer that could otherwise have consumed ocean heat. 

The next danger is that the thin Arctic sea ice will rapidly retreat early next year as a warming Arctic Ocean will transfer more heat to the atmosphere over the Arctic, resulting in more rain and more clouds in the atmosphere over the Arctic, speeding up sea ice loss and further pushing up the temperature rise over the Arctic, as discussed at the feedbacks page, which also discusses how less Arctic sea ice can push up temperatures through the emissivity feedback. As temperatures rise over the Arctic, permafrost on land also threatens to thaw faster, threatening to cause huge releases of greenhouse gases, including carbon dioxide, methane and nitrous oxide. 


Meanwhile, emissions of greenhouse gases keep rising, further pushing up the temperature, as illustrated by the image below, from an earlier post.
  
Global energy-related greenhouse gas emissions 2000-2022, adapted from EIA ]
In the video below, Guy McPherson describes how temperature rise, loss of habitat and meltdown of nuclear power facilities each could result in rapid extinction of humans and many other species.


There are numerous further feedbacks that can accelerate the temperature rise and tipping points that can get crossed and cause even more abrupt rise of the temperature. One of these is the clouds tipping point that in itself can cause a temperature rise of 8°C, as discussed here.

Further feedbacks are also discussed at the Extinction page.  One further feedback is water vapor. A warmer atmosphere holds more water vapor, at a rate of 7% for each Degree Celsius the temperature rises. As temperatures keep rising, ever more water vapor will be sucked up by the atmosphere. This will also cause more droughts, reducing the ability of land to sustain vegetation and provide soil cooling through shading and through evaporation and formation of lower clouds, as discussed here. More water vapor in the atmosphere will also speed up the temperature rise because water vapor is a potent greenhouse gas.

The fact that such tipping points and feedbacks occur as greenhouse gas levels reach certain levels and as the temperature rise makes it critical to assess how fast greenhouse gas levels could rise and by how much the temperature has already risen. 

NASA data up through September 2023

The image below, adapted from NASA, shows that the September 2023 NASA Land+Ocean temperature was 1.78°C higher than it was in September 1923. The anomaly is 1.74°C when compared to a base centered around the year 1900 (1885-1915). The 1.74°C anomaly can be adjusted by 0.99°C to reflect a pre-industrial base, air temperature and higher polar anomalies (as shown in the box on the bottom right of the image), adding up to a potential anomaly of 2.73°C. 

[ click on images to enlarge ]
Indeed, earlier analysis such as discussed here, points out that the temperature may already have risen by more than 2°C (compared to pre-industrial) in 2015, when politicians pledged at the Paris Agreement to take action to combat the temperature rise to prevent this from happening. 

Blue: Polynomial trend based on Jan.1880-Sep.2023 data. 
Magenta: Polynomial trend based on Jan.2010-Sep.2023 data.
The above image is created with NASA Land+Ocean monthly mean global temperature anomalies vs 1885-1915, adjusted by 0.99°C to reflect ocean air temperature, higher polar anomalies and a pre-industrial base, and has trends added.  

Alarms bells have been sounding loud and clear for a long time, as discussed in posts such as this one, warning that the temperature could rise by more than 3°C by 2026. The above magenta graph shows how this could occur as early as next year (end 2024).

[ image from earlier post ]
[ image from the Extinction page ]
The above image illustrates the latent heat tipping point - estimated to correspond with a sea surface temperature anomaly of 1°C above the long term average (1901-1930 on the above image) - to get crossed and the seafloor methane tipping point - estimated to correspond with a sea surface temperature anomaly of 1.35°C - to get reached, as discussed in earlier posts such as this one, .

A Blue Ocean Event could occur as the latent heat and seafloor methane tipping points get crossed, and the ocean temperature keeps rising, as huge amounts of methane get released in the Arctic, as ever more heat keeps reaching and destabilizing methane hydrates contained in sediments at the seafloor of the Arctic Ocean, as discussed in many earlier posts such as this one.

Seafloor methane is one of many elements that could jointly cause a temperature rise of over 10°C, in the process causing the clouds tipping point to get crossed that can push up the temperature rise by a further 8°C, as illustrated by the image on the right, from the extinction page.

Conclusion

The precautionary principle should prevail and the looming dangers should prompt people into demanding comprehensive and effective action to reduce the damage and to improve the situation. 

To combat rising temperatures, a transformation of society should be undertaken, along the lines of this 2022 post in combination with a declaration of a climate emergency.


Links

• NASA - global maps

• NOAA - ENSO and Temperature bars

• The International Research Institute for Climate and Society, Columbia University Climate School
https://iri.columbia.edu/our-expertise/climate/forecasts/enso/current/?enso_tab=enso-sst_table

• Nullschool.net

• NSIDC - sea ice graph

• Zach Labe - Global sea ice - extent, concentration, etc.

• NASA - zonal means
https://data.giss.nasa.gov/gistemp/zonal_means

• Copernicus - Northern Hemisphere wildfires: A summer of extremes
https://atmosphere.copernicus.eu/northern-hemisphere-wildfires-summer-extremes

• NOAA - Barrow Atmospheric Baseline Observatory, United States
https://gml.noaa.gov/dv/iadv/graph.php?code=BRW&program=ccgg&type=ts

• Paul Beckwith - Accelerated Global Warming from Antarctic Sea Ice Collapse: Albedo, Latitude, Snow Cover on Ice…
https://www.youtube.com/watch?v=-5P1W4TrczQ

• Guy McPherson - College of Complexes Presentation (with Improved Audio) 

• NASA custom plots
https://data.giss.nasa.gov/gistemp/graphs_v4/customize.html

• Transforming Society



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