Monday, April 6, 2026

A huge rise in temperature in 2026?

Carbon dioxide (CO₂) recorded by NOAA was at a record high of 433.24 parts per million (ppm) on April 5, 2026, at Mauna Loa, Hawaii.

The image below illustrates that the daily average for the de-seasonalized global average CO₂ trend was at a record high of 427.5 ppm on April 13, 2026.


The above image shows daily averaged CO₂ through April 13, 2026, from four observatories: Utqiaġvik, formerly known as Barrow, Alaska (in blue), Mauna Loa, Hawaii (in red), American Samoa (in green), and South Pole, Antarctica (in yellow). The thick black lines represent the average of the smoothed seasonal curves and the smoothed, de-seasonalized curves for each of the records. These lines are a very good estimate of the global average levels of CO₂. 

The annual maximum for CO₂ is typically reached in May, so the daily average CO₂ looks set to reach even higher levels in May 2026. The image below, from an earlier post, shows that the 2024 global CO₂ concentration increased by 3.77 ppm, the highest annual growth on record. 


CO₂ is now higher than it has been for millions of years

The image below, from an earlier post, shows CO₂ over thousands of years through April 1, 2026, when the daily average CO₂ concentration recorded by the Keeling Curve, maintained by Scripps Institution of Oceanography at Mauna Loa Observatory, was 432.81 ppm.


Concentrations of CO₂ haven't been this high for millions of years and they are still increasing rapidly. A recent analysis led by Sarah Shackleton and Julia Marks-Peterson finds that, while the average temperature of the ocean has decreased by 2 to 2.5°C over the past 3 million years, average atmospheric CO₂ levels have likely remained below 300 ppm over this time, as discussed in an earlier post.

This makes the recent daily concentration of 433.24 ppm at Mauna Loa even more threatening. It means that, in addition to the key role of heat-trapping greenhouse gases, there were also important contributions from other components of the climate system such as Earth’s reflectivity, variations in vegetation and/or ice cover and ocean circulation.

According to the IPCC, limiting warming to 2°C would have required global greenhouse gas emissions to have peaked before 2025 at the latest, which hasn't happened. In other words, we're headed for a rise that may exceed 3°C above pre-industrial soon. How fast could such a rise eventuate? The two images and text below are from the earlier post What Does Runaway Warming Look Like?

Forcing caused by the rapid rise in the levels of greenhouse gases is far out of line with current temperatures. A 10°C higher temperature is more in line with these levels, as illustrated by the image below, based on 420,000 years of ice core data from Vostok, Antarctica.


How fast could such a 10°C temperature rise eventuate? The image below gives an idea.


A study led by James Hansen concludes that equilibrium global warming for today’s amount of greenhouse gases is 10°C, which is reduced to 8°C by today’s human-made aerosols, and while James Hansen doesn't expect a 10°C rise soon, he warns that decline of aerosol emissions could increase global warming rapidly, in addition to the acceleration already occurring now.

James Hansen doesn't expect a huge rise to occur soon, as the temperature rise of the atmosphere is slowed by take up of extra energy by oceans, land and ice. According to the IPCC AR6 WG1, 91% of the extra energy is taken up by oceans, 5% by land, 3% by ice melting and 1% remains in the atmosphere.

However, extra energy is increasing as greenhouse gas concentrations keep rising, while additionally the capacity of oceans, land and ice to take up extra energy is increasingly compromised. This could cause a huge rise in temperature soon, especially on land in the Northern Hemisphere where there is proportionally more land. The temperature can be expected to rise even faster during heatwaves and especially in large cities that are additionally affected by the Urban Heat Island effect. 

How fast could the temperature rise on land in the Northern Hemisphere exceed 3°C?

The image below shows NASA March 2026 Land+Ocean temperature anomalies vs 1951-1980 in °C.
The above image illustrates that the temperature rise comes with polar amplification, as well as distortion of the Jet Stream enabling cold air to move from high latitudes to lower latitudes and resulting in high temperature anomalies in some areas, with anomalies as high as 10.4°C showing up on the map. 

As illustrated by the image below, the surface air temperature in the Southern Hemisphere was at a record high for the time of year on April 9, 2026.


Feedbacks in the Arctic and the accelerating rise of Arctic temperatures can be hidden from public discussion by a focus on long-term global or hemispheric averages, as also discussed in earlier posts such as this one. Over the years, temperature anomalies have been highest in the Arctic, as illustrated by the image below.


The IPCC seeks to downplay the danger of methane eruptions from the seafloor of the Arctic Ocean in many ways, e.g. by a focus on global average temperatures, by using anomalies calculated from a base that isn't pre-industrial and by minimizing the rise to come with projections for future temperatures based on long periods of historical data that are further manipulated by using linear trends to hide recent acceleration and the potential for further acceleration.

The image below, from an earlier post, shows a temperature anomaly forecast for December 2026, with very high anomalies again showing up over most of the Arctic Ocean.


Acceleration of the temperature rise is illustrated by the image below, made with NASA Land-Only anomalies vs. 1880-1890 (not pre-industrial) through March 2026.

The above image indicates that anomalies (vs 1880-1890) have been high since 2021, i.e. the rise in temperature has been at or above 1.5°C for each month since 2021 (black squares connected by the black lines). The Lowess 3-year smoothing trend (red line) indicates that the temperature rise accelerated in 2022 and crossed 2°C in 2022, while the trend further indicates that 3°C may get crossed soon on land (where most people live), in 2029 if this trend continues (linear dashed red extension) or even earlier if the trend's rise accelerates further (as illustrated by the image below with a polynomial trend). 

The image below illustrates that the upcoming El Niño could trigger a rapid and steep rise in temperature on land in the Northern Hemisphere in the course of 2026. 


The image shows land-only data in the Northern Hemisphere through March 2026, with a polynomial trend added that points at 3°C crossed later in 2026. About 0.5°C of the rise can be attributed to El Niño, with further contributions from feedbacks and further forcers. Note that the 1901-2000 base is not pre-industrial, the outlook may be even more dire when using a genuinely pre-industrial base. 

At times, areas can be hit by anomalies that strongly exceed 3°C, as illustrated by the image below that shows that the temperature anomaly versus 1951-19880 for the United States in March 2026 was 4.1°C. 


Strong El Niño on the way

The image below, adapted from NOAA, shows ENSO (El Niño-Southern Oscillation) probabilities for the Niño3.4 region (5°N-5°S,120°W-170°W) relative sea surface temperature index, indicating El Niño (red bar) will emerge in the course of 2026.


The bars on the image below, adapted from NOAA, indicate the likely strength of the upcoming El Niño. 


The ECMWF April 2026 forecasts indicate that a very strong El Niño could emerge in the course of 2026, as illustrated by the combination image below.

[ click on images to enlarge ]

According to a NOAA update issued April 6, 2026, La Niña is still present and a transition from La Niña to ENSO-neutral is expected in the next month, so a steep increase in temperature can be expected to occur over the next few months. 

Ocean temperature

A huge amount of heat has accumulated in oceans, as illustrated by the above image, adapted from Rosenstiel School. Much of this ocean heat is on track to move from the ocean to the atmosphere over the next few months, and much ocean heat will also move along the path of ocean currents to the Arctic Ocean, resulting in sea ice decline.

The world (60°S–60°N, 0–360°E) sea surface temperature (SST) was 21.15°C on April 14, 2026, a record high for the time of year and 0.8°C higher than 1982-2010, as illustrated by the image below.

The SST on April 14, 2026, was just short of the record high SST of 21.17°C reached in 2024. On April 14, 2026, the SST was 0.45°C higher than it was on January 1, 2026.

Arctic sea ice decline

The image below shows Arctic sea ice area over the years, with 2012 highlighted in blue and 2026 highlighted in black. On September 12, 2012, Arctic sea ice area was 2.24 million km². On April 13, 2012, Arctic sea ice area was 13 million km². On April 13, 2026, Arctic sea ice area was 12.01 million km², a record low for the time of year and about 1 million km² lower than it was on April 13, 2012. A Blue Ocean Event could occur in September 2026 if Arctic sea ice area would then be at least 1.24 million km² lower than it was in 2012.

The danger that a Blue Ocean Event will occur in September 2026 is further illustrated by the image below. The image below, from an earlier post, shows Arctic sea ice volume in the past 25 years. Markers show April (blue) and September (red) volume, corresponding with the year's maximum and minimum. In 2025, Arctic sea ice reached a record low maximum volume, as well as a record low minimum volume.


As illustrated by the above image, adapted from dmi.dk, Arctic sea ice volume was very low in April 2025, so while relatively little melting took place from April 2025 to September 2025, a record low Arctic sea ice volume was still reached in September 2025. The above image shows Arctic sea ice volume through mid February 2026, with an analysis of the strength of the melting between April (annual maximum) and September (annual minimum) by means of the bars colored magenta (strong melting) and green (little melting).

If the downward trend in annual maxima (blue circles) continues, Arctic sea ice looks set to reach an even lower maximum volume in April 2026. The difference between strong melting (magenta) and little melting (green) is 3000 km³, so if strong melting will take place from April 2026, this may well cause a Blue Ocean Event to occur later in 2026. A Blue Ocean Event could also be said to occur when only 1000 km³ or less Arctic sea ice volume remains. The image below, adapted from dmi.dk, shows that Arctic sea ice volume was at a record low for the time of year on April 15, 2026. 


Loss of Arctic sea ice decline could strongly contribute to the temperature rise, as also discussed in this earlier post

Human extinction

In 2022, the IPCC said that limiting warming to 2°C would require global greenhouse gas emissions to peak before 2025 at the latest. As discussed in an earlier post, it looks like we have missed the target of limiting the temperature rise to 2°C, while humans are likely to go extinct with a 3°C rise in temperature, yet the IPCC refuses to warn people about the dire situation. 

The screenshot below describes the existential danger for humans.  
The screenshot below adds: 

Climate Emergency Declaration

The situation is dire and unacceptably dangerous, and the precautionary principle necessitates rapid, comprehensive and effective action to reduce the damage and to improve the outlook, where needed in combination with a Climate Emergency Declaration, as described in posts such as in this 2022 post and this 2025 post, and as discussed in the Climate Plan group.



Links

• NOAA - Recent Daily Average CO2 at Mauna Loa, Hawaii

• NOAA - Daily global CO2

• NOAA - Climate at a Glance Global Time Series

• NOAA - El Niño/Southern Oscillation (ENSO) diagnostic discussion
discussed on facebook at: 

• ECMWF - European Centre for Medium-Range Weather Forecasts - El Niño charts

• NASA - Goddard Institute for Space Studies (GISS) Surface Temperature Analysis
https://data.giss.nasa.gov/gistemp

• Rosenstiel School of Marine, Atmospheric, and Earth Science

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Sunday, April 5, 2026

We missed the target of limiting the temperature rise to 2C

In 2022, the IPCC said that limiting warming to 2°C would require global greenhouse gas emissions to peak before 2025 at the latest, and be reduced by a quarter by 2030.


Let's look into it. Did greenhouse gas emissions peak earlier than 2025? The 2025 Global Carbon Budget in a news release projected 38.1 Gt of fossil carbon dioxide (CO₂) emissions in 2025, a rise of 1.1%, and warned that climate change is reducing the combined land and ocean sinks. It finds that 8% of the rise in atmospheric CO₂ concentration since 1960 is due to climate change weakening the land and ocean sinks.

So, by how much are CO₂ concentrations rising? The image below shows that the 2024 CO₂ concentration increased by 3.77 ppm, the highest annual growth on record.


The image below shows one year of CO₂ daily and weekly means at Mauna Loa, Hawaii, with the daily CO₂ reaching a record high of 432.69 ppm on March 31, 2026. The image also shows a CO₂ concentration of 431.73 ppm for the week beginning on March 29, 2026, an increase of 4.47 ppm compared to 1 year ago. The annual peak in CO₂ is typically reached in May, so the daily average CO₂ looks set to reach an even higher peak in May 2026. How high could the 2026 peak be? 

 
When taking into account CO₂ concentrations recorded at three further locations, the outlook for 2026 is even more dire.

The average growth for the years 2023, 2024 and 2025 was about 3 ppm. The highest daily CO₂ peak in 2025 was 431.25 ppm, so with 3 ppm growth the 2026 CO₂ concentration could reach a daily peak of 434.25 ppm in May, i.e. at the top end of the scale on the image below, or even higher than that, if growth turns out to be more than 3 ppm per year.

The 2025 annual mean at Mauna Loa was 427.35. If this growth of 3 ppm per year persists, CO₂ concentrations could reach an annual mean of 430.35 ppm in 2026. 


High time for the IPCC to warn that we missed the target of limiting the temperature rise to 2°C and that with a 3°C rise in temperature humans are likely to go extinct. 

Climate Emergency Declaration

The situation is dire and unacceptably dangerous, and the precautionary principle necessitates rapid, comprehensive and effective action to reduce the damage and to improve the outlook, where needed in combination with a Climate Emergency Declaration, as described in posts such as in this 2022 post and this 2025 post, and as discussed in the Climate Plan group.



Links

• IPCC - The evidence is clear: the time for action is now. We can halve emissions by 2030. (2022 News Release)
https://www.ipcc.ch/2022/04/04/ipcc-ar6-wgiii-pressrelease

• Global Carbon Budget - Fossil fuel CO2 emissions hit record high in 2025 (November 2025 News Release)
• NOAA - Global Monitoring Laboratory - Carbon Cycle Greenhouse Gases - Mauna Loa, Hawaii
https://gml.noaa.gov/ccgg/trends/mlo.html

• NOAA - Global Monitoring Laboratory - data viewer - Mauna Loa, Hawaii
https://gml.noaa.gov/dv/iadv/graph.php?code=MLO&program=ccgg&type=ts

• Transforming Society 
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Wednesday, April 1, 2026

Carbon dioxide highest in millions of years

Greenhouse gas concentrations

The highest daily average carbon dioxide (CO₂) concentration recorded by the Keeling Curve, maintained by Scripps Institution of Oceanography at Mauna Loa Observatory, was 432.81 parts per million (ppm), recorded on April 1, 2026. The image below shows CO₂ over thousands of years. 


The image below shows that the highest daily average CO₂ concentration recorded by NOAA at Mauna Loa, Hawaii, was 432.69 ppm, recorded on March 31, 2026 (yellow circle on the right). The image also shows hourly (red circles) and daily (yellow circles) averaged CO₂ values from Mauna Loa, Hawaii, over 31 days. The inset on the right shows recent daily averages.


The image below shows daily (green circles), weekly (red lines) and monthly (blue lines) averages for the last year. The weekly average for the week beginning on March 22, 2026, was 430.93 ppm (red line top right). NOAA's CO₂ average daily concentrations were at a record high of 432.69 ppm, at Mauna Loa, Hawaii, on March 31, 2026.


To find CO₂ levels this high back in history, one needs to go back millions of years, as illustrated by the two images below, from an earlier post.


What makes current conditions even more dire is that not only are concentrations of CO₂ extremely high (without match going back millions of years) and rising, but the speed at which CO₂ is currently rising is also unprecedented, while additionally there has been an increase in total solar irradiance of ∼400 Wm⁻² since the formation of the Earth. The image below shows the combined climate forcing by changing CO₂ and solar output for the past 450 million years.


Between 14 and 15 million years ago, the temperature in central Europe was 20°C higher than today, as illustrated by the image below (adapted from a 2020 study by Methner et al.).

[ from earlier post, click on images to enlarge ]
Given today's extremely high CO₂ levels, why is the temperature in central Europe not 20°C higher today? The answer is that - for now - most of the extra heat trapped by the extremely high (and rising) greenhouse gas levels doesn't stay in the atmosphere, but is absorbed by oceans, by land, and in the process of melting ice. However, the capacity for oceans, land and ice to keep taking up more heat appears to be reducing fast, as described in more detail further below. 

Concentrations of carbon dioxide haven't been this high for millions of years, as confirmed by recent analysis led by Sarah Shackleton and Julia Marks-Peterson. Their analysis finds that, while the average temperature of the ocean has decreased by 2 to 2.5°C over the past 3 million years, average atmospheric carbon dioxide levels have likely remained below 300 parts per million over this time. Methane levels have also remained relatively stable. This makes the recent daily concentration of 432.81 ppm at Mauna Loa and the high recent methane levels (see earlier post) even more threatening and it means that, in addition to the key role of heat-trapping greenhouse gases, there were important contributions from other components of the climate system such as Earth’s reflectivity, variations in vegetation and/or ice cover and ocean circulation. There are many feedbacks and further contributors to acceleration of the temperature rise that could add up to a rise of more than 20°C by the end of 2026, as discussed in an earlier post

Earth energy imbalance

Outgoing longwave radiation is reducing due to rising greenhouse gases, resulting in an increasingly larger amount of extra energy. The image below depicts Earth energy imbalance.  
According to the IPCC AR6 WG1, 91% of the extra energy is taken up by oceans, 5% by land, 3% by ice melting and 1% remains in the atmosphere. Oceans, land and ice melting thus act as a buffer that did take up the vast majority (99%) of the extra energy, based on IPCC data.  

[ image by Leon Simons ]
Not only is the extra energy increasing, as depicted by the above image, but the proportions of where the extra energy is going is additionally changing. 

The ocean's capacity to act as an energy buffer is increasingly compromised by stratification, changes to ocean currents, changes in salinity, ocean oxygen depletion, acidification and more, as discussed in earlier posts such as this one. This is a big issue, since oceans take up 91% of the extra heat caused by greenhouse gases, so if there is even a 1% reduction in the heat taken up by oceans, the heat remaining in the atmosphere may double.  

Furthermore, the capacity for ice to act as a buffer by consuming energy in the process of melting is increasingly compromised by sea ice decline, by retreat of glaciers, and by darkening of ice due to dust, algae, black carbon and more. Arctic sea ice is facing a Blue Ocean Event with sea ice decline threatening to both dramatically lower albedo and reduce the ability for ocean heat to be consumed in the process of melting.  Mountain glaciers are also in decline and permafrost is approaching the point where thawing of permafrost will speed up rapidly, as discussed in earlier posts such as this one

The capacity for land to take up heat also faces a tipping point: The Land Evaporation Tipping Point can get crossed locally when water is no longer available locally for further evapotranspiration, i.e. from all processes by which water moves from the land surface to the atmosphere via evaporation and transpiration, including transpiration from vegetation, evaporation from the soil surface, from the capillary fringe of the groundwater table, and from water bodies on land. Once this tipping point gets crossed, the land and atmosphere will heat up strongly, due to the extra heat, i.e. heat that was previously consumed by evaporation and thawing, as described at this page.

So, while the extra energy is increasing, as depicted by the above image, the capacity of oceans, land and ice to take up energy is decreasing and an increasingly large amount of extra heat therefore threatens to accumulate in the atmosphere, especially in the Northern Hemisphere over land and in the Arctic, where temperatures are rising faster than anywhere in the world.

Methane

Ominously, a peak methane level of 2690 ppb was recorded at 487.2 mb by the NOAA 21 satellite on March 31, 2026 AM, as illustrated by the image below. 


Could the Northern Hemisphere land-only temperature rise exceed 3°C soon?

The upcoming El Niño could trigger a rapid and steep rise in temperature on land in the Northern Hemisphere, as illustrated by the combination image below that uses land-only data in the top panel and Northern Hemisphere data in the bottom panel. 

[ image from earlier post, discussed on facebook here ]
Arctic sea ice

The image below, adapted from dmi.dk, shows that Arctic sea ice volume was at a record low for the time of year on April 5, 2026.


Climate Emergency Declaration

The situation is dire and unacceptably dangerous, and the precautionary principle necessitates rapid, comprehensive and effective action to reduce the damage and to improve the outlook, where needed in combination with a Climate Emergency Declaration, as described in posts such as in this 2022 post and this 2025 post, and as discussed in the Climate Plan group.



Links

• Keeling Curve - by Scripps Institution of Oceanography at UC San Diego 
https://keelingcurve.ucsd.edu

• NOAA - Global Monitoring Laboratory - Carbon Cycle Greenhouse Gases - Mauna Loa, Hawaii
https://gml.noaa.gov/ccgg/trends/mlo.html

• NOAA - Global Monitoring Laboratory - data viewer - Mauna Loa, Hawaii
https://gml.noaa.gov/dv/iadv/graph.php?code=MLO&program=ccgg&type=ts

• NOAA - Office of satellite and product operations - HEAP NUCAPS
https://www.ospo.noaa.gov/products/atmosphere/soundings/heap/nucaps/new/nucaps_products.html

• Broadly stable atmospheric CO2 and CH4 levels over the past 3 million years - by Julia Marks-Peterson et al.
https://www.nature.com/articles/s41586-025-10032-yand

• Global ocean heat content over the past 3 million years - by Sarah Shackleton et al.
https://www.nature.com/articles/s41586-026-10116-3
discussed on Facebook at:
https://www.facebook.com/groups/arcticnews/posts/10164017885199679

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

• Blue Ocean Event
https://arctic-news.blogspot.com/p/blue-ocean-event.html

• The threat of seafloor methane eruptions
https://arctic-news.blogspot.com/2025/11/the-threat-of-seafloor-methane-eruptions.html

• The 2026 El Nino - update March 2026
https://arctic-news.blogspot.com/2026/03/the-2026-el-nino-update-march-2026.html

• Transforming Society
https://arctic-news.blogspot.com/2022/10/transforming-society.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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Thursday, March 26, 2026

Signals flashing red indicating further acceleration toward climate collapse

Greenhouse gas concentrations

The image below shows hourly (red circles) and daily (yellow circles) averaged carbon dioxide (CO₂) values from Mauna Loa, Hawaii, over 31 days. The highest daily average CO₂ concentration on record, 431.95 ppm, was recorded at Mauna Loa, Hawaii, on March 28, 2026 (third yellow circle from the right). In bold on the image are recent daily averages, since March 24, 2026.


CO₂ average daily concentrations were at a record high of 431.95 parts per million (ppm), at Mauna Loa, Hawaii, on March 28, 2026. The image below shows daily (green circles), weekly (red lines) and monthly (blue lines) averages for the last year. The weekly average for the week beginning on March 22, 2026 was 430.93 ppm (red line top right).


The image below shows daily average CO₂ concentration at Mauna Loa, Hawaii since 2020. The highest daily average CO₂ concentration on record, 431.95 ppm, was recorded at Mauna Loa, Hawaii, on March 28, 2026.


Concentrations of carbon dioxide haven't been this high for millions of years, as confirmed by recent analysis led by Sarah Shackleton and Julia Marks-Peterson. Their analysis finds that, while the average temperature of the ocean has decreased by 2 to 2.5°C over the past 3 million years, average atmospheric carbon dioxide levels have likely remained below 300 parts per million over this time. Methane levels have also remained relatively stable. This makes the recent daily concentration of 431.95 ppm at Mauna Loa and the high recent methane levels (see image below) even more threatening and it means that, in addition to the key role of heat-trapping greenhouse gases, there were important contributions from other components of the climate system such as Earth’s reflectivity, variations in vegetation and/or ice cover and ocean circulation.

[ click on images to enlarge ]

The above combination image shows methane levels as high as 2240 parts per billion (ppb) close to sea level (left panel, 1000 mb) and as high as 2541 ppb at a slightly higher altitude (right panel, 840 mb) recorded by the NOAA 21 satellite on March 11, 2026 AM. The combination image below shows methane levels as high as 231 ppb at 1000 mb (left panel) and as high as 2576 ppb at 399.1 mb (right panel) recorded by the NOAA 20 satellite on March 11, 2026 PM.


Together, these combination images support the suggestion that a burst of methane did enter the atmosphere at a location over the ocean, resulting in very high methane levels in the morning slightly above sea level and even higher methane levels higher up in the atmosphere later that day. 

Sea surface temperature

The image below shows world (60°S–60°N, 0–360°E) sea surface temperatures from NOAA OISST V2.1. The sea surface temperature was 21.15°C on March 27, 2026, a record high temperature for the time of year and a +0.75°C anomaly compared to 1982-2010. The sea surface temperature has risen by 0.46°C since the start of 2026.


Furthermore, changes in salinity and ocean currents, together with ocean stratification, ocean oxygen depletion and sea ice loss can result in oceans changing from heat sinks into heat sources, resulting in more heat remaining in the air and getting transferred to the air, as discussed in earlier post such as this one and as discussed in this analysis, also discussed here.

Earth Albedo

The image below, adapted from an image by Eliot Jacobson, shows now much the Earth Albedo (reflectivity) has fallen from February 23 through January 2026.


Arctic sea ice

One of the contributors to albedo loss is Arctic sea ice loss. The image below, adapted from NSIDC, shows that on March 25, 2026, the Arctic sea ice extent was 14.011 million km², the lowest extent on record for the time of year.

The image below, adapted from ads.nipr.ac.jp, shows that Arctic sea ice extent was 13.37 million km² on March 27, 2026, the lowest sea ice extent on record for the time of year. 

The situation is very dangerous, since we're moving out of a La Niña (which is suppressing the temperature) into an El Niño (which will be elevating the temperature). 

The danger is that a Blue Ocean Event will occur in 2026 if Arctic sea ice continues to be low and if melting from April 2026 onward will be strong. A Blue Ocean Event can be said to occur when virtually no sea ice remains to keep consuming ocean heat that is entering the Arctic Ocean mainly from the Atlantic Ocean. Virtually no sea ice could be 1 million km² or less in sea ice extent, but it could also be measured in area, as illustrated by the image below.

The image below shows that the Arctic sea ice area was the lowest on record on March 25, 2026. Arctic sea ice area was 13.43 million km² on March 25, 2012, and area was 12.31 million km² on March 25, 2026, i.e. a difference of 1.12 million km² and the same difference as there was on March 20, 2026. Arctic sea ice area was 2.24 million km² on September 12, 2012, so with this difference persisting, Arctic sea ice area would be 1.12 million km² in September 2026, or very close to a Blue Ocean Event.


The danger that a Blue Ocean Event will occur in September 2026 is further illustrated by the image below. The image, from an earlier post, which shows Arctic sea ice volume in the past 25 years. Markers show April (blue) and September (red) volume, corresponding with the year's maximum and minimum. In 2025, Arctic sea ice reached a record low maximum volume, as well as a record low minimum volume.


As illustrated by the above image, adapted from dmi.dk, Arctic sea ice volume was very low in April 2025, so while relatively little melting took place from April 2025 to September 2025, a record low Arctic sea ice volume was still reached in September 2025. The above image shows Arctic sea ice volume through mid February 2026, with an analysis of the strength of the melting between April (annual maximum) and September (annual minimum) by means of the bars colored magenta (strong melting) and green (little melting).

If the downward trend in annual maxima (blue circles) continues, Arctic sea ice looks set to reach an even lower maximum volume in April 2026. The difference between strong melting (magenta) and little melting (green) is 3000 km³, so if strong melting will take place from April 2026, this may well cause a Blue Ocean Event to occur later in 2026. A Blue Ocean Event could also be said to occur when only 1000 km³ or less Arctic sea ice volume remains. The image below, adapted from dmi.dk, shows that Arctic sea ice volume was at a record low for the time of year on March 31, 2026. 


Could the N.H land-only temperature rise by more than 3°C in 2027?

The image below, adapted from Copernicus, shows that the global surface air temperature was 14.31°C on March 26, 2026, the highest temperature on record for the time of year. 


Could the temperature rise by more than 3°C soon? The upcoming El Niño could trigger a rapid and steep rise in temperature on land in the Northern Hemisphere, as illustrated by the combination image below that uses land-only data in the top panel and Northern Hemisphere data in the bottom panel. While the image shows NASA data from 2011 until 2028 (top panel, land-only) and data from 2011 until 2029 (bottom panel, N.H), the trends are calculated using annual data from 2010 through 2025. The quartic trends point at the temperature crossing 3°C in the Northern Hemisphere in early 2028 (bottom), and on land-only in early 2027.  


There are compound impacts such as that the temperature will rise faster on land in the Northern Hemisphere, and even faster during heatwaves in large cities where they are affected by the Urban Heat Island effect. Moreover, the 1880-1920 base is not pre-industrial, the outlook may be even more dire when using a genuinely pre-industrial base. 

Note also that the above are annual average temperature anomalies, i.e. the average for higher and lower anomalies during the year. A recent study shows that extreme global climate outcomes may occur even under moderate 2°C warming for several sectors. For droughts in global key breadbasket regions, precipitation extremes over highly populated areas and fire weather extremes across forests, global climatic impact-drivers at 2°C of global warming may turn out to be much more extreme than model-averaged projections at 3°C or 4°C warming. Indeed, the peaks are more critical than the averages. 

Recent research finds that, while fully frozen permafrost can be considered both to function as a seal preventing subsurface gases being released, and to prevent the creation of new CO₂ and CH₄, gas permeability increases by about 25–100 times during thawing, with most permeability change occurring in the −5°C to −1°C range, indicating that the protective gas seal previously provided by permafrost will be lost as permafrost thaws.

The danger is that the temperature will not merely "overshoot" the 3°C threshold, but that the temperature will continue to rise, especially on land in the Northern Hemisphere, and accelerate over the Arctic. Given the severity, ubiquity and imminence of the danger, one would think that highlighting the danger will prompt people into taking effective climate action, but the outlook is that the temperature will continue to rise for at least a few years, hence the choice of the trend and the canvas, which in the above image is limited to 3°C and until 2028, respectively 2029 (as also discussed on facebook here).

Polynomial trends such as the one in the above image can highlight warnings about dangers that are discussed in this post and in earlier posts, in particular warnings that a strong El Niño is on the way which could cause a strong rise in temperature in the course of 2026 and trigger further acceleration of the temperature rise. 

Indeed, the rise resulting from a strong El Niño would come on top of a temperature rise that is already accelerating due to high concentrations of greenhouse gases, while deforestation and numerous feedbacks are kicking in with greater ferocity, and while the temperature rise is amplified in the Arctic (see image below, from earlier post), which could lead to a Blue Ocean Event soon, further speeding up the temperature rise and resulting in loss of permafrost, eruption of methane from the seafloor of the Arctic Ocean, further loss of lower clouds, etc.


The above image, from an earlier post, shows that the 2025 Arctic temperature was 3.431°C higher than in 1951-1980. The only year on record that had an anomaly higher than 2025 was 2016, when there was a super El Niño.

Climate Emergency Declaration

The situation is dire and unacceptably dangerous, and the precautionary principle necessitates rapid, comprehensive and effective action to reduce the damage and to improve the outlook, where needed in combination with a Climate Emergency Declaration, as described in posts such as in this 2022 post and this 2025 post, and as discussed in the Climate Plan group.



Links

• NOAA - Global Monitoring Laboratory - Carbon Cycle Greenhouse Gases - Mauna Loa, Hawaii
https://gml.noaa.gov/ccgg/trends/mlo.html

• NOAA - Global Monitoring Laboratory - data viewer - Mauna Loa, Hawaii

• NOAA - Office of satellite and product operations - HEAP NUCAPS

• Broadly stable atmospheric CO2 and CH4 levels over the past 3 million years - by Julia Marks-Peterson et al.
https://www.nature.com/articles/s41586-025-10032-y
and
• Global ocean heat content over the past 3 million years - by Sarah Shackleton et al.

• Earth Albedo - by Eliot Jacobson

• NASA - GISS Surface Temperature Analysis - custom plots
https://data.giss.nasa.gov/gistemp/graphs_v4/customize.html
quartic trend analysis was discussed earlier on facebook at: 

• NSIDC - Sea Ice Extent
https://nsidc.org/sea-ice-today/sea-ice-tools/charctic-interactive-sea-ice-graph

• Kevin Pluck - sea ice visuals
https://seaice.visuals.earth

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

• Copernicus

• Blue Ocean Event
https://arctic-news.blogspot.com/p/blue-ocean-event.html

• Moderate global warming does not rule out extreme global climate outcomes - by Emanuele Bevacqua et al.
https://www.nature.com/articles/s41586-026-10237-9
discussed on facebook at:
https://www.facebook.com/groups/arcticnews/posts/10164067383004679

• Measurement of Gas Fraction and Gas Permeability of Thawing Permafrost Caused by Climate Change - by Paul Glover et al. 
https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2025EF007232
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