The Anthropocene is not an official stratigraphic unit

by A. Préat and B. Van Vliet-Lanoë, Apr 12,2024 in SCE


Main theme: Ever since the idea of a new geological unit, the Anthropocene, waslaunched in 2000 by Paul Crutzen, an atmospheric chemist and Nobel Prize winner, the scientific community has been inflamed by the current global warming situation, and passionate debates have raged between those in favor of this new anthropogenic unit and those opposed to it. The discussion has spread well beyond the geological community, yet it is geologists, and geologists alone, who are able to formally define geological units, in this case stratigraphic units. Our article will reviewthe rules of stratigraphy and show that the introduction of the Anthropocene as a stratigraphic unit does not comply with these rules. After 15 years of debate, the ICS (International Commission on Stratigraphy) has just officially rejected the Anthropocene as a stratigraphic unit. In conclusion, the Anthropocene must be
considered as a ‘Geo-ethical’ unit and not as a ‘Geological’ unit.

Example of the GSSP stratotype from the Thanetian geological stage (Paleocene, see Figure 1). Note the golden spike (see text below). Photography : Pierre Thomas.

UAH Global Temperature Update for March, 2024: +0.95 deg. C

by R. Spencer, Apr 2, 2024 in WUWT


The Version 6 global average lower tropospheric temperature (LT) anomaly for March, 2024 was +0.95 deg. C departure from the 1991-2020 mean, up slightly from the February, 2024 anomaly of +0.93 deg. C, and setting a new high monthly anomaly record for the 1979-2024 satellite period.

New high temperature records were also set for the Southern Hemisphere (+0.88 deg. C, exceeding +0.86 deg. C in September, 2023) and the tropics (+1.34 deg. C, exceeding +1.27 deg. C in January, 2024). We are likely seeing the last of the El Nino excess warmth of the upper tropical ocean being transferred to the troposphere.

 

The extraordinary climate events of 2022-24

by J. Vinos, March 24, 2024 in ClimateEtc


The unlikely volcano, the warmest year, and the collapse of the polar vortex.

The climate events of 2022-24 have been were truly extraordinary. From an unlikely undersea volcanic eruption to the warmest year on record to the collapse of the polar vortex after three sudden stratospheric warming events. This rare convergence presents a unique learning opportunity for climatologists and climate aficionados alike, offering insights into a climate event that may not be repeated for hundreds or even thousands of years.

  1. January 2022, the unlikely volcano

Never before have we witnessed an undersea volcanic eruption with a plume capable of reaching the stratosphere and depositing a large amount of vaporized water. This extraordinary event occurred in January 2022 when the Hunga Tonga volcano erupted. The conditions for such an event are rare: the volcano must be deep enough to propel enough water with the plume, but not too deep to prevent it from reaching the stratosphere. Most undersea volcanoes do not produce plumes at all, which makes Hunga Tonga’s eruption all the more remarkable.

The Hunga Tonga volcano occupied a unique “sweet spot” at a depth of 150 meters the day before the eruption. In addition, the eruption itself must be exceptionally powerful for water vapor to rise into the stratosphere. The January 2022 eruption of Hunga Tonga was the most powerful in 30 years, since the 1991 eruption of Mt. Pinatubo.

Figure 1. The Hunga Tonga eruption from space.

  1. 2023, the hottest year on record

Beginning in June 2023, the last seven months of the year marked the warmest period on record, significantly exceeding previous records. Such an event is quite remarkable, given the considerable temperature variability observed from month to month. But how unlikely is it?

  1. January-March 2024, the collapse of the polar vortex

The polar vortex is a circular wind pattern that develops on rotating planets with an atmosphere. It results from the conservation of potential vorticity, a property depending on the Coriolis force and the potential temperature gradient. The potential temperature refers to the portion of the temperature of an air parcel that is not affected by its potential energy, and is often defined as the temperature the parcel would have if it were brought to the surface (1,000 hPa).

  1. What can we expect in the near future?

The unlikely volcanic eruption is the likely cause of the extraordinary warming, which in turn led to the occurrence of the unprecedented three SSW events. Our understanding of the effects of these events supports this interpretation.

3 New Studies Confirm Sea Levels Were 5 to 9 Meters Higher 7,000-5,000 Years Ago Than Today

by K. Richard,  Apr 1, 2024 in ClimateChangeDispatch


Modern relative sea levels are near the lowest in the last 7,000 years.

Two studies, independently published, identified Mid-Holocene sea levels in northern Norway (north of the Arctic Circle) as being 7 to 9 meters higher than today before declining to the present (Balascio et al., 2024, Nielsen et al., 2024). [emphasis, links added]

This region of the Arctic was warm enough to support human settlements and boat harbors during the Medieval Warm Period.

As the climate deteriorated into the Little Ice Age cooling centuries after the Medieval warmth, the accompanying sea level fall led to abandoned residences, ships, and harbors.

The seas had become too shallow to sail in.

MWP 1.5C Warmer Than 1900–Says HH Lamb

by P. Homewood, Apr 1, 2024 in NotaLotofPeopleKnowThat


The Central England Temperature series is the longest running in existence, but still only goes back to 1659, pretty much the depth of the Little Ice Age, so it tells us little of real meaning.

However there exist many very real measures of temperatures going back much further – and I am not referring to the fraudulently used tree rings and the like.

HH Lamb published this chart in his book “Climate: Past, Present and Future” in 1977: