Showing posts with label precipitable water. Show all posts
Showing posts with label precipitable water. Show all posts

Tuesday, November 5, 2024

Sea ice alert

Sea ice

[ click on images to enlarge ]
The above image shows Arctic sea ice extent from November 5 to December 24, a period when Arctic sea ice is growing in extent. The red line shows 2024 sea ice extent through November 23, 2024. Dots mark Arctic sea ice extent on November 23 for the respective year. On November 23, Arctic sea ice extent was lower only in 2016, which is worrying, since El Niño conditions were dominant in 2016, whereas La Niña conditions are now dominant. 

The current La Niña is predicted to be weak and short-lived, as illustrated by the image below, from NOAA


The image below shows NOAA monthly temperature anomalies versus El Niño through October 2024. 


The image below shows Antarctic sea ice extent during the months September and October, highlighting extent in 2023 and 2024, as compared to extent averages in previous decades.

As illustrated by the above image, Antarctic sea ice extent in September and October 2023 & 2024 was much lower than in previous decades, a huge difference that occurred during a period when little or no sunlight was reaching Antarctic sea ice. On November 9, 2024, Antarctic sea ice extent was 14.99 million km², a record low for the time of year.

Global sea ice typically reaches its annual maximum extent around this time of year, as Arctic sea ice expands in extent. On November 9, 2024, global sea ice extent was 23.34 million km², a record low for the time of year and well below the 24.15 million km² on November 9, 2023. 


Higher ocean heat in combination with higher air temperatures over the Arctic Ocean are two drivers behind the current slow growth in Arctic sea ice extent, which is in turn keeping global sea ice extent low.

[ from earlier post ]
Record low Arctic sea ice extent of 3.387 million km² was reached on September 17, 2012 (image below left). 

The fact that this has remained the record low for more than a dozen years may be caused by slowing down of the Atlantic meridional overturning circulation (AMOC) resulting in less ocean heat reaching the highest latitudes North, while more ocean heat instead is accumulating in the North Atlantic. 

At the same time, rising ocean heat has caused a steady decrease in the volume of Arctic sea ice, as illustrated by the image on the right.  

The danger is that as more heat accumulates in the North Atlantic, some of it can get abruptly pushed into the Arctic Ocean along the path of the Gulf Stream due to ever stronger hurricanes and formation of a freshwater lid at the surface of the North Atlantic, resulting in more ocean heat reaching the seafloor of the Arctic Ocean and destabilizing sediments that contain hydrates holding huge amounts of methane, in turn resulting in huge amounts of methane abruptly entering the atmosphere. 

[ click on images to enlarge ]

Antarctic sea ice reached a record minimum extent of 1.788 million km² on February 21, 2023 (above image right). The increasingly low Antarctic sea ice extent of the past few years may have been caused by slowing down of AMOC causing less vertical mixing in the Southern Ocean, resulting in more heat  accumulating at the surface that melted more Antarctic sea ice, with numerous feedbacks reinforcing the sea ice decline.

Since the minimum extent of Antarctic sea ice is much lower than the minimum sea ice extent in the Arctic, it may well be that a Blue Ocean Event (BOE) will occur in the Southern Hemisphere, before occurring in the Northern Hemisphere. 

A double Blue Ocean Event could occur in 2025. Both Antarctic sea ice and Arctic sea ice could virtually disappear in 2025. A BOE occurs when sea ice extent falls to 1 million km² or less, which could occur early 2025 for Antarctic sea ice and in Summer 2025 in the Northern Hemisphere for Arctic sea ice.

The compilation of four images by the University of Bremen below illustrates the decline in Antarctic sea ice thickness from August 27, 2024, to November 28, 2024.


An Antarctic Blue Ocean Event in early 2025 would have terrifying consequences; it would rapidly and dramatically drive up global temperatures and threaten to unleash a double Blue Ocean Event in 2025.  

The image and the right and below illustrate the ocean heat that is accumulating at the surface of the Atlantic Ocean.

On November 30, 2024, the sea surface temperature of the US Atlantic was as high as 31.1°C.

On November 28, 2024, the sea surface temperature was 27.1°C in the Gulf of Mexico, 2.07°C higher than 1982-2010.  

[ click on images to enlarge ]

Historic rise: more than 1.5°C above 1903-1924 for 16 consecutive months 


The above image, created with NASA data through October 2024 while using a 1903-1924 custom base, illustrates that the monthly temperature anomaly has been more than 1.5°C above this base for 16 consecutive months (from July 2023 through October 2024). The red line shows a trend (2-year Lowess Smoothing) associated with recent data and the trend indicates that the anomaly is rising. 

How appropriate is the use of a 1903-1924 base? Using a different base can make a lot of difference. As illustrated by the image below, the temperature anomaly for February 2024 can be as high as 1.89°C when using a 1904-1911 base. 


A recent study argues that existing estimates of ocean temperatures for the period 1900–1930 are too cold. When adjusting ocean data upward, the anomaly compared to this period would come down, so in order not to downplay the temperature rise, it's important to put this into perspective.

As the image below shows, differences between ocean and land data for the period 1880-1898 are even larger, which is important since the period 1880-1898 is part of the period that the IPCC has selected as pre-industrial base. 


While adjusting ocean data for 1921-1943 makes sense, it is even more important to use the most appropriate base as pre-industrial and to adjust the temperature rise from pre-industrial accordingly. When using a genuinely pre-industrial base, anomalies such as the above-mentioned 1.89°C for February 2024 will exceed 2°C, as discussed at the pre-industrial page

[ click on images to enlarge ]
The map on the right with October 2024 temperature anomalies from 1951-1980 based on NCEP data shows high polar anomalies.   

Similarly, the map below with October 2024 temperature anomalies from 1951-1980 based on ERA5 data shows high polar anomalies.  

The 1951-1980 base for the maps is NASA's default base, but neither 1951-1980 nor the above 1903-1924 is pre-industrial. As said, anomalies from a pre-industrial base are higher.


The rise to come

As illustrated by the image below, adapted from Copernicus, the temperature in 2024 has been higher than it was in 2023 for most of the year. On November 23, 2024, the temperature was 13.86°C, the highest on record for the time of year. 


The image below shows temperature anomalies versus 1991-2020 from early 2023 through November 23, 2024. Trends added to the ERA5 data show that the anomaly has been rising for almost 18 consecutive months, i.e. since the start of El Niño (June 2023, pink shading), during ENSO-neutral conditions (from May 2024, blue shading) and into La Niña (from October 2024, also blue shading).


The black linear trend shows a huge rise. The red trend is closer in line with variability such as resulting from ENSO and sunspots. The red trend indicates very high anomalies and a steep further rise into 2025, in line with the next El Niño becoming dominant in the second half of 2025, coinciding with very high sunspots.

Self-amplifying feedbacks, crossing of tipping points and further developments (such as loss of the aerosol masking effect) can all contribute to further accelerate the temperature rise through 2026, resulting in a rise from pre-industrial of more than 10°C, while in the process causing the clouds tipping point to get crossed that can push up the temperature rise by a further 8°C, as discussed in earlier posts such as this one.

Jet Stream distortion

As a result of the narrowing temperature difference between the Arctic and the Tropics, the Jet Stream gets distorted. The image below shows a distorted Jet Stream (250 hPa) over the North Atlantic on November 11, 2024. 


Precipitation

The image below shows an atmospheric river stretched out over the North Atlantic from the Tropics to the Arctic with high rainfall over the North Atlantic and snowfall over Greenland on November 11, 2024.  


Water vapor

The image below shows a forecast for November 12, 2024, with precipitable water anomalies at the high end of the scale over the Arctic Ocean. 

Feedbacks

The image below illustrates how multiple feedbacks can interact and jointly contribute to further acceleration of the temperature rise.

[ from earlier post ]

There are many feedbacks and other mechanisms active and they are interacting on top of driving up temperatures individually. 

Albedo change is a feedback that can have a huge impact. The currently very low global sea ice extent is a self-reinforcing feedback, as it results in less sunlight getting reflected back into space and more heat getting absorbed by oceans.

Extra water vapor is another self-reinfocing feedback, since water vapor is a potent greenhouse gas. 

These are just some of the feedbacks that can contribute to further acceleration of the temperature rise, as discussed in an earlier post.

Carbon dioxide keeps rising

The above image shows carbon dioxide on November 12, 2024 - forecast for 03 UTC by Copernicus. The graph at the bottom of the image shows monthly carbon dioxide exceeding 425 ppb in October 2024 at Mauna Lao, Hawaii, based on NOAA data with trend added.


The images on the right, adapted from Climate Reanalyzer, shows the total precipitation standardized anomaly over the past few years. The top image shows the anomaly in Brazil.

The image underneath on the right shows the anomaly in Africa. In many places, what were previously carbon sinks have turned into sources of carbon emissions.

[ click on images to enlarge ]
Methane

Ominously, high methane peaks have been recorded recently. The image below shows - on the left - that methane reached a peak of 2616 parts per billion (ppb) at 481.5-489 mb on November 28, 2024 pm, with high methane levels recorded over the Arctic and also over Antarctica. The image below shows - on the right - that, on November 28, 2024 pm, high methane levels were present over the oceans at 988.6-1002.4 mb. 



Where does the methane come from?

The image on the right shows methane at pressure levels from 988.6 to 1002.4 mb, which corresponds to near sea level, so no methane does show up on over land with higher elevation, e.g. Greenland, Antarctica, even Australia (lowest continent). 

Methane is light and will rise up in the atmosphere, so more methane will typically accumulate at higher altitudes than at near sea level. Much of the methane that is visible at the higher altitude image (left) is also present at the low altitude image (right) and at relatively high concentrations, peaking at 2415 parts per billion (ppb). 

Furthermore, on the image on the left with the 2616 ppb peak, relatively little extra magenta-colored methane shows up over continental areas where typically high concentrations are present, compared to the image on the right. 

These points indicate that much of the high concentrations of methane could have originated from oceans and from hydrates in sediments that are getting destabilized by high temperature swings. 

[ click on images to enlarge ]

As mentioned above, ocean heat threatens to destabilize sediments that contain hydrates holding huge amounts of methane, resulting in huge amounts of methane abruptly entering the atmosphere.

[ The Buffer has gone, feedback #14 on the Feedbacks page ]
Dangers associated with high temperatures are discussed in this earlier post. A 2018 study (by Strona & Bradshaw) indicates that most life on Earth will disappear with a 5°C rise. Humans, who depend for their survival on many other species, will likely go extinct with a 3°C rise, as illustrated by the image below, from 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

• National Institute of Polar Research Japan
https://ads.nipr.ac.jp

• NOAA - Climate Prediction Center - 14 November 2024
https://www.cpc.ncep.noaa.gov/products/analysis_monitoring/enso_advisory/ensodisc.html

• University of Bremen - sea ice
also discussed on facebook at: 
https://www.facebook.com/groups/arcticnews/posts/10162009995269679

• NOAA - sea surface temperatures - Contoured Regional Images of Blended 5 km SST Analysis 

• Early-twentieth-century cold bias in ocean surface temperature observations - by Sebastian Sippel et al. 
discussed on facebook at: 
https://www.facebook.com/groups/arcticnews/posts/10161956156144679

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

• Climate Reanalyzer
https://climatereanalyzer.org

• Copernicus
https://climate.copernicus.eu

• NOAA - Global Monitoring Laboratory - Carbon Cycle Gases, trends in CO2
https://gml.noaa.gov/ccgg/trends
also discussed on facebook at: 
https://www.facebook.com/groups/arcticnews/posts/10161904718934679
 
https://www.facebook.com/SamCarana/posts/10169996053330161

• Sunspots
https://arctic-news.blogspot.com/p/sunspots.html

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

• Jet Stream
https://arctic-news.blogspot.com/p/jet-stream.html

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

• The Clouds Feedback and the Clouds Tipping Point
https://arctic-news.blogspot.com/p/clouds-feedback.html

• NOAA - HEAP IASI - methane
https://www.ospo.noaa.gov/products/atmosphere/soundings/heap/iasi/iasiproducts.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







Wednesday, September 4, 2024

Water Vapor Feedback



Earth's Energy Imbalance is now about four times as high as it was a decade ago, as illustrated by the above image, by Eliot Jacobson. As a result, feedbacks are starting to kick in with greater ferocity.

Water vapor feedback

One such feedback is the water vapor feedback. The temperature rise results in more evaporation, i.e. more water vapor and heat will enter the atmosphere, much of which will return to the surface in the form of precipitation, but some will remain in the atmosphere, as there will be 7% more water vapor for every 1°C warming. As illustrated by the image below, created with NOAA data, surface precipitable water was 27.181 kg/m² in August 2024, a record high for this month.

[ surface precipitable water through August 2024 ]

How much more water vapor currently is in the atmosphere compared to pre-industrial depends on how much the temperature has risen since pre-industrial. The February 2024 temperature was 1.76°C above 1885-1915, which could be as much as 2.75°C above the pre-industrial temperature. A 2.75°C rise corresponds with almost ⅕ more water vapor in the atmosphere.

More ocean heat and water vapor moving to Arctic

The temperature rise also comes with stronger wind. An earlier post points at a study that found increased kinetic energy in about 76% of the upper 2,000 meters of global oceans, as a result of intensification of surface winds since the 1990s.

Stronger wind speeds up ocean currents, enabling more ocean heat to move to the Arctic, while stronger wind also enables more water vapor to move to the Arctic and more rain to fall closer to the Arctic, along the path of prevailing ocean currents and wind patterns. As a result, both heat and water vapor will increase in the Arctic. 

This will in turn further increase the temperature rise in the Arctic, since water vapor is a potent greenhouse gas, while more water vapor also results in less hydroxyl, thus extending methane's lifetime.

The resulting temperature rise in the Arctic also reduces the snow and ice cover, further amplifying the temperature rise in the Arctic, while the temperature rise and the presence of more open water will also enable more evaporation, resulting in more water vapor in the atmosphere over the Arctic. 

High levels of methane are already present over the Arctic and the water vapor feedback makes things worse. Additionally, more ocean heat entering the Arctic Ocean threatens to further destabilize sediments at the seafloor that contain methane hydrates and cause even more methane to erupt, resulting in huge amounts of methane entering the atmosphere over the Arctic, from the hydrates and also from free gas underneath the hydrates.

[ click on images to enlarge ]
More water vapor and rainfall combined with higher temperatures will also cause more methane releases from lakes, wetlands and permafrost on land in the northern parts of Canada, Europe and Siberia. 

The image on the right shows a forecast by Climate Reanalyzer of high temperature anomalies in the northern parts of Europe on September 7, 2024. 

The image below shows high methane levels forecast by Copernicus at surface level in northern Europe on September 7, 2024, 03 UTC (run 00 UTC). 


As the image below shows, methane concentrations as high as 2400 parts per billion (ppb) were recently recorded at the NOAA observatory in Utqiagvik (Barrow), Alaska.


As Earth's Energy Imbalance keeps rising, an increasing amount of heat accumulates in oceans. The image below, adapted from NOAA, illustrates the huge amount of heat present in the ocean around North America, with sea surface temperatures as high as 33.6°C (92.48°F) recorded on September 6, 2024. The image also shows the Gulf Stream (middle right), the Atlantic ocean current that carries heat from the Gulf of Mexico to the Arctic Ocean. 


The image below, by Brian McNoldy shows that ocean heat content in the Gulf of Mexico was at record high on September 4, 2024.


The temperature rise is hitting the Arctic hard, as illustrated by the image below, created with NASA content.


The temperature rise in the air is most profound at both poles, a phenomenon known as polar amplification, as illustrated by the temperature anomaly map for August 2024 below. 


[ from earlier post ]
Oceans are still absorbing an estimated 91% of the excess heat energy trapped in the Earth's climate system due to human-caused global warming. If just a small part of that heat instead remains in the atmosphere, this could constitute a huge rise in temperature. Heat already stored in the deeper layers of the ocean will eventually be released, committing Earth to at least some additional surface warming in the future.

Polar amplification of the temperature rise causes a relative slowing down of the speed at which heat flows from the Equator to the poles. This impacts ocean currents and wind patterns, resulting in slowing down of the Atlantic meridional overturning circulation (AMOC) and of ocean currents around Antarctica that carry heat to the deep ocean, as well as in deformation of the Jet Stream. 

recent study warns about intensification of global warming due to the slowdown of the overturning circulation. The overturning circulation carries carbon dioxide and heat to the deep ocean, where it is stored and hidden from the atmosphere. As the ocean storage capacity is reduced, more carbon dioxide and heat are left in the atmosphere. This feedback accelerates global warming.
[ from earlier post ]
Warmer oceans also result in stronger stratification, which further contributes to make it harder for heat to reach the deeper parts of oceans. As a result, a larger proportion of heat that was previously entering oceans will instead remain in the atmosphere or accumulate at the ocean surface, and slowing down of the overturning circulation further contributes to this, as discussed above. 

At the same time, overall global wind strength increases as temperatures rise, and as the Jet Stream gets more deformed, this can at times strongly boost the flow of wind and water along prevailing ocean currents, wind patterns and storm tracks that carry heat toward the Poles. Furthermore, polar amplification of the temperature rise results in a relatively stronger rise in water vapor in the air over Antarctica and the Arctic. 


At times, part of this accumulated energy can, in the form of ocean heat and precipitable water, be abruptly transported to the Arctic, along the path of prevailing ocean currents and wind patterns boosted by stronger wind and storms. This is illustrated by the above image that shows unusually high amounts of precipitable water recorded near the North Pole on September 1, 2024, at 04 UTC (20 kg/m² at the green circle). This can be further facilitated by the formation of a freshwater lid at the surface of the North Atlantic that enables more ocean heat to travel underneath this lid to the Arctic Ocean. 


Temperatures remain high

Temperatures remain high, even while a transition to La Niña is expected by Sep-Nov 2024, persisting through Jan-Mar 2025, as illustrated by the image below, adapted from NOAA.


The image below, from an earlier post and adapted from NOAA, illustrates that El Niño conditions were present from June 2023 through April 2024, and that ENSO-neutral started in May 2024. While El Niños typically occur every 3 to 5 years, as NOAA explains, El Niños can occur as frequently as every two years, as happened in 2002, 2004 and 2006, and as illustrated by the image below. The danger is that we could move into a new El Niño in 2025, while temperatures remain high due to feedbacks and while sunspots move toward a peak in this cycle, expected to occur in July 2025.


The image below illustrates that, for 14 consecutive months, the temperature anomaly has exceeded 1.2°C above 1951-1980 or (more aptly) 2°C above pre-industrial, and is rising again, even while El Niño ended April 2024.


Similarly, the image below illustrates that, for more than 14 consecutive months, the temperature anomaly has been high, i.e. about 0.8°C (± 0.3°C) above the 1991-2020 average and much more when compared to a pre-industrial base, with little or no sign of a return to earlier temperatures. On September 2, 2024, the temperature was 0.8°C above 1991-2020, the highest anomaly on record for that day of the year.

[ click on images to enlarge ]

The image below, created with NASA data while using a 1903-1924 custom base, illustrates that the monthly temperature anomaly through August 2024 has been more than 1.5°C above this base for each of the past consecutive 14 months, and even more when compared to a pre-industrial base. The red line shows the trend (2-year Lowess Smoothing) associated with the rapid recent rise.


A huge temperature rise could unfold by 2026, as the joint result of changes in the atmosphere, changes in surface and cloud albedo, changes in wind patterns & ocean currents, and further developments, e.g. in a cataclysmic alignment, a strong El Niño could develop in 2025 which, in combination with higher than expected sunspots, could make a difference of 0.75°C. Sunspots are expected to reach a peak in the current cycle in July 2025. 

Sea ice disappearing fast

Sea ice is disappearing over large parts of the Arctic Ocean, including near the North Pole. 


The above compilation image shows, on the left, that Arctic sea ice volume was at a record low for the time of year on September 5, 2024, as it has been for most of the year. On the right, an image by the University of Bremen showing sea ice concentration on September 5, 2024.


In the above compilation image, the NASA Worldview image on the left shows Arctic sea ice on September 10, 2024.

The Danish Meteorological Institute (DMI) image at the top right is from an earlier date, not yet showing the 2024 minimum, yet it does show that the minimum volume in earlier years was not as far below 5000 km³ as it was in 2024. The 2024 minimum is depicted on the DMI image on the bottom right, showing that Arctic sea ice volume was well below 5000 km³ on September 10, 2024.


In the above image the two DMI images overlap, highlighting that Arctic sea ice volume did reach a record low in 2024. 


Global sea ice extent was 21.04 million km² on September 4, 2024, a record low for the time of year, as feedbacks start kicking in with greater ferocity, including less albedo, latent heat buffer and emissivity, more water vapor, less lower clouds, Jet Stream changes, more emissions, lightning and forest fires, stronger rainfall and heatwaves causing more run-off of heat, and stronger storms that can push ocean heat toward the poles, all contributing to accelerate sea ice loss and the temperature rise, as discussed in earlier posts such as this one

[ for more background, also view the Extinction page ]
A huge temperature rise could occur soon

As a result, several tipping points threaten to be crossed in the Arctic soon, as described in an earlier post, including the latent heat tipping point and a Blue Ocean Event (starting when Arctic sea ice extent will fall below 1 million km²), which would further speed up the temperature rise in the Arctic.

As temperatures keep rising in the Arctic, changes to the Jet Stream look set to intensify, resulting in loss of terrestrial albedo in the Arctic that could equal the albedo loss resulting from sea ice decline.

Further feedbacks include permafrost degradation, both terrestrial and on the seafloor of the Arctic Ocean, which looks set to cause huge releases of greenhouse gases (particularly CO₂, CH₄ and N₂O).

This would in turn also cause more water vapor to enter the atmosphere, further speeding up the temperature rise, especially in the Arctic, where vast amounts of methane are contained in sediments at the seafloor and where there is very little hydroxyl in the air to break down the methane.

Temperatures look set to rise further in the Arctic, due to falling away of sulfate aerosols, as illustrated by the IPCC image below that shows how much temperatures are currently suppressed in the Arctic due to aerosols and thus also shows how much temperatures in the Arctic look set to rise as the aerosol masking effect falls away.


Furthermore, the combined impact of aerosols and nitrogen fertilizers has been underestimated; a recent study concludes that when ammonia, nitric acid and sulfuric acid are present together, they contribute strongly to the formation of cirrus clouds.

At the same time, there could be a temperature rise due to releases of other aerosols that have a net warming impact, such as black and brown carbon, which can increase dramatically as more wood burning, forest fires and urban fires take place, which again would hit the Arctic hard by darkening the surface as they settle on the snow and ice cover, thus speeding up its decline.

The image below, with forecasts for September 9, 2024 03 UTC (run 00 UTC) adapted from Copernicus, illustrates gases and aerosols released due to forest fires burning in the Amazon.


The joint impact could cause the clouds tipping point to get crossed, adding an abrupt further 8°C to the rise, and altogether, a global temperature rise could unfold of more than 18°C above pre-industrial, as illustrated by the image further above on the right, and as also discussed at Extinction. This could in turn cause the water vapor tipping point to get crossed, which means that from then on the increase in water vapor alone would suffice to keep increasing the temperature, in a runaway greenhouse process in which evaporation could cause a global surface temperature rise of several hundred degrees Celsius and make our planet as inhospitable as Venus, as this study concludes and as discussed at this post.

[ click on images to enlarge ]
A 2020 study led by Jorgen Randers concludes that the world is already past a point-of-no-return for global warming, as self-sustained thawing of the permafrost will continue for hundreds of years, even if global society did stop all emissions of man-made greenhouse gases immediately, due to a combination of declining surface albedo (driven by decline of the Arctic snow and ice cover), increasing amounts of water vapor in the atmosphere (driven by higher temperatures), and changes in concentrations of further greenhouse gases in the atmosphere (driven by changes in sinks and sources of carbon dioxide and methane such as thawing permafrost), as illustrated by the image on the right, from 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

• Earth Energy Imbalance - by Eliot Jacobson

• NOAA - Physical Sciences Laboratory
https://psl.noaa.gov

• NOAA - Global Monitoring Laboratory - Carbon Cycle Gases
https://gml.noaa.gov/dv/iadv/graph.php?code=BRW&program=ccgg&type=ts

• Cataclysmic Alignment threatens Climate Catastrophe
• Sunspots
https://arctic-news.blogspot.com/p/sunspots.html

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

• Ocean Heat Content - by Brian McNoldy
https://bmcnoldy.earth.miami.edu/tropics/ohc

• Recent reduced abyssal overturning and ventilation in the Australian Antarctic Basin - by Kathryn Gunn et al. 
https://www.nature.com/articles/s41558-023-01667-8
Discussed on facebook at: 

• Copernicus - Atmosphere

• NASA - Gistemp

• NASA - Worldview

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

• University of Bremen - Arctic sea ice
https://seaice.uni-bremen.de/start

• Arctic Data archive System - National Institute of Polar Research - Japan
https://ads.nipr.ac.jp/vishop

• Will temperatures keep rising fast?
https://arctic-news.blogspot.com/2023/12/will-temperatures-keep-rising-fast.html

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

• Jet Stream
https://arctic-news.blogspot.com/p/jet-stream.html

• The Clouds Feedback and the Clouds Tipping Point
https://arctic-news.blogspot.com/p/clouds-feedback.html

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

• Resetting tropospheric OH and CH4 lifetime with ultraviolet H2O absorption - by Michael Prather et al. 
https://www.science.org/doi/abs/10.1126/science.adn0415
Discussed on facebook at: 
https://www.facebook.com/groups/arcticnews/posts/10161571351924679

• 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