FILE PHOTO: A view of the January 15, 2022, eruption of the Hunga Tonga-Hunga Ha’apai Tongan submarine volcano, taken by Japan’s Himawari-8 satellite about 100 minutes after the eruption started. Simon Proud / University of Oxford, RAL Space, NCEO / Japan Meteorological Agency via REUTERS
The current heat wave is being relentlessly blamed on increasing levels of carbon dioxide in the atmosphere, but there is a much more plausible explanation, one that is virtually endorsed by two of the world’s leading scientific organizations. It turns out that levels of water vapor in the atmosphere have dramatically increased over the last year-and-a-half, and water vapor is well recognized as a greenhouse gas, whose heightened presence leads to higher temperatures, a mechanism that dwarfs any effect CO2 may have.
So, why has atmospheric water vapor increased so dramatically? Because of a historic, gigantic volcanic eruption last year that I – probably along with you — had never heard of. The mass media ignored it because it took place 490 feet underwater in the South Pacific. Don’t take it from me, take it from NASA (and please do follow the link to see time lapse satellite imagery of the underwater eruption and subsequent plume of gasses and water injected into the atmosphere):
still from the time lapse photos
When the Hunga Tonga-Hunga Ha’apai volcano erupted on Jan. 15, it sent a tsunami racing around the world and set off a sonic boom that circled the globe twice. The underwater eruption in the South Pacific Ocean also blasted an enormous plume of water vapor into Earth’s stratosphere – enough to fill more than 58,000 Olympic-size swimming pools. The sheer amount of water vapor could be enough to temporarily affect Earth’s global average temperature.
“We’ve never seen anything like it,” said Luis Millán, an atmospheric scientist at NASA’s Jet Propulsion Laboratory in Southern California. He led a new study examining the amount of water vapor that the Tonga volcano injected into the stratosphere, the layer of the atmosphere between about 8 and 33 miles (12 and 53 kilometers) above Earth’s surface.
In the study, published in Geophysical Research Letters, Millán and his colleagues estimate that the Tonga eruption sent around 146 teragrams (1 teragram equals a trillion grams) of water vapor into Earth’s stratosphere – equal to 10% of the water already present in that atmospheric layer. That’s nearly four times the amount of water vapor that scientists estimate the 1991 Mount Pinatubo eruption in the Philippines lofted into the stratosphere. [emphases added]
NASA published the above in August 2022. Half a year later, a newer study increased the estimate of the water vapor addition to the atmosphere by 30%. From the European Space Agency:
In a recent paper published in Nature, a team of scientists showed the unprecedented increase in the global stratospheric water mass by 13% (relative to climatological levels) and a five-fold increase of stratospheric aerosol load – the highest in the last three decades.
Using a combination of satellite data, including data from ESA’s Aeolus satellite, and ground-based observations, the team found that due to the extreme altitude, the volcanic plume circumnavigated the Earth in just one week and dispersed nearly pole-to-pole in three months. [emphasis added]
Volcanic eruptions rarely inject much water into the stratosphere. In the 18 years that NASA has been taking measurements, only two other eruptions – the 2008 Kasatochi event in Alaska and the 2015 Calbuco eruption in Chile – sent appreciable amounts of water vapor to such high altitudes. But those were mere blips compared to the Tonga event, and the water vapor from both previous eruptions dissipated quickly. The excess water vapor injected by the Tonga volcano, on the other hand, could remain in the stratosphere for several years.
This extra water vapor could influence atmospheric chemistry, boosting certain chemical reactions that could temporarily worsen depletion of the ozone layer. It could also influence surface temperatures. Massive volcanic eruptions like Krakatoa and Mount Pinatubo typically cool Earth’s surface by ejecting gases, dust, and ash that reflect sunlight back into space. In contrast, the Tonga volcano didn’t inject large amounts of aerosols into the stratosphere, and the huge amounts of water vapor from the eruption may have a small, temporary warming effect, since water vapor traps heat. The effect would dissipate when the extra water vapor cycles out of the stratosphere [Emphases added]
So there you have it: we are in for extra atmospheric heat “for several years” until the extra water vapor injected by this largest-ever-recorded underwater volcano eruption dissipates.
Jeff Childers, who brought this scientific data to my notice, writes:
Here’s why corporate media is ignoring the most dramatic climate even[t] in modern history: because you can’t legislate underwater volcanoes. You can try, but they won’t listen. So what’s the fun in that? Corporate media only exists to further political ends. Since volcanoes aren’t subject to politics, why bother?
He brings up the work of Ethical Skeptic:
Ethical is suggesting that the water is heating the air — instead of the other way around. And the Earth’s core is heating the water. It’s a theory that explains everything.
Meanwhile, “science” is baffled. From just a month ago, in mid-June:
See? But though scientists are baffled, corporate media and its repulsive allies are busily blaming ocean warming on carbon dioxide — a ludicrous notion.
I am the first to admit that none of this – not the atmospheric CO2 theory of global warming, nor the effect of the largest ever known undersea volcanic eruption – is scientifically proven. But before we impoverish ourselves trying to reduce CO2 emissions (while watching China dramatically increase them), let’s practice real science and not jump to conclusions based on an imaginary “consensus.”
We’re told we should listen to the science, but the science on forest fires is that they peaked in the 1980s
Until the recent Canadian wildfires sent plumes of smoke over the densely populated cities around the Great Lakes and along the Eastern Seaboard, few people in those cities had ever experienced the weird orange haze of a forest fire or the temporary spike in fine particulates and pervasive smell of smoke. Understandably, many people reacted with alarm. We city-dwellers typically only see wildfires on television, usually alongside footage of fire crews and water-bombers valiantly trying to put them out, which creates the impression they are somehow unnatural events that must be avoided at all costs. In reality, forest fires are not only natural but essential to the life cycle of the forest ecosystem.
Unfortunately, politicians, reporters and climate activists rushed in to exploit this unusual event by pushing their agenda. They made a lot of glib claims about climate change causing wildfires to become more common. For instance, Prime Minister Trudeau tweeted: “We’re seeing more and more of these fires because of climate change.”
That statement is false. Amid the smokescreen of untrue claims, nobody seems to have bothered looking up the numbers. Canadian forest fire data are available from the Wildland Fire Information System. Wildfires have been getting less frequent in Canada over the past 30 years. The annual number of fires grew from 1959 to 1990, peaking in 1989 at just over 12,000 that year, and has been trending down since. From 2017 to 2021 (the most recent interval available), there were about 5,500 fires per year, half the average from 1987 to 1991.
The annual area burned also peaked 30 years ago. It grew from 1959 to 1990, peaking in 1989 at 7.6 million hectares before declining to the current average of 2.4 million hectares per year over 2017-21. And 2020 marked the lowest point on record with only 760,000 hectares burned.
The record shows that the fraction of fires each year that become major (more than 200 hectares in size) peaked back in 1964 at 12.3 per cent. From 1959 to 1964, it averaged 8.7 per cent then dropped to 3.4 per cent in the early 1980s. As of 2017-21 interval, it had climbed again to 6.0 per cent, but that’s still well below the average 60 years ago.
At the global level, satellite data from the European Space Agency also show that wildfire activity has been trending downward in recent decades and is currently approaching its lowest level since the record began in the early 1980s.
In an extensive discussion on the Royal Society blog back in 2020, U.K. forestry experts Stefan Doerr and Cristina Santin acknowledged that climate change may be making conditions for fire more favourable in some areas, but also noted it’s leading to reductions in other areas. As for the tendency for some fires to become larger and more dangerous, this can be traced to our approaches to forest management. “[Very] aggressive fire suppression policies over much of the 20th century have removed fire from ecosystems where it has been a fundamental part of the landscape rejuvenation cycle” they explained. This has led to a buildup of fuel in the form of woody debris leading to the risk of more explosive and unstoppable fires.
“We cannot completely remove fire from the landscape,” they stressed. “That is the misconception that led to the ‘100 per cent fire suppression’ policies in the U.S. and elsewhere that have made things worse in many cases.”
As Environmental Studies professor Roger Pielke Jr. notes on his Substack, the UN Intergovernmental Panel on Climate Change is also reluctant to connect forest fire activity to climate change. While it notes there has been an increase in “fire weather” (hot dry conditions conducive to forest fires) in a few regions globally, it does not claim a “signal” of greenhouse gas influence is currently present in the probability of fire weather nor does it expect one to be detected over the coming century.
When it comes to climate change, we’re constantly told to “follow the science.” Yet the same people who say that also regularly fabricate claims about trends in forest fires, both here in Canada and globally, and the connection to climate change. Science tells us forest fires are not becoming more common and the average area burned peaked 30 years ago. It also tells us we could do better at reducing the risk of catastrophic wildfire, if we’re prepared to make the effort.
April 12, 2023: The European Space Agency is about to launch a very important spacecraft: The Jupiter Icy Moons Explorer–„Juice“ for short. Its mission is to probe Europa, Ganymede, and Callisto, moons with oceans larger than those of Earth and possible habitats for extraterrestrial life. Liftoff is scheduled for April 13th (12:15 UT) from French Guiana.
„It may be possible for experienced observers to photograph Juice as it recedes on the night after launch,“ says John H. Rogers, the Jupiter Section Director of the British Astronomical Association. „The solar panels should be deployed by 100 minutes after launch, with full deployment over the next 17 days. You can obtain an ephemeris from JPL-Horizons. Type ‚Juice‘ in for the target body.“
„The best views will be from the Far East and Australia, from about 14:00 UT onwards when solar panels are deployed,“ says Rogers. „The brightness will then diminish as the distance from Earth increases; by the time it is visible from western Europe, approaching 150,000 km out, one experienced observer suggests that it might be around mag.13 or 14.“
Juice will take 8 years to reach Jupiter. After a series of visits to Callisto and Europa, Juice will enter into a permanent orbit around Ganymede in 2034–the first time a spacecraft has ever held an orbit around a moon other than our own. Bigger than the planet Mercury, Ganymede is also the only moon in the solar system with its own magnetic field, providing a possible protective cocoon for life.
Global warming, climate change, all these things are just a dream come true for politicians. I deal with evidence and not with frightening computer models because the seeker after truth does not put his faith in any consensus. The road to the truth is long and hard, but this is the road we must follow. People who describe the unprecedented comfort and ease of modern life as a climate disaster, in my opinion have no idea what a real problem is.
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