WUWT: Declining Solar Activity

Declining Solar Activity

BOB HOYE

In the 1990s, solar physicists, Penn and Livingston, called for a long decline in solar activity. This is the case and it is nice to see such work confirmed by events. Solar Cycles # 23 and 24 are the weakest since the early 1900s. The current run of consecutive Spotless Days is out to 33, or 75%, for the year.

[See Penn and Livingston paper and graphics below.]

The following table shows the record back to the minimum of Solar Cycle # 23 when the count was at 268 days, or 73%, for 2008.

So far this year, the count is out to 33 consecutive days, which is exceptional. So much so, that SILSO keeps a table of such long runs.

clip_image004

Solar Cycle # 24 is expected to reach its minimum by late in this year.

For hundreds of millions of years such changes in solar activity have been associated with changes from warming to cooling. And back again. The long run to the recent peak in activity was the strongest in thousands of years. Despite this, temperatures were not as warm for as long as set during the Medieval Warm Period. The end to that long trend and turn to cooling in the early 1300s was drastic, causing widespread crop failures and famine in Northern Europe and England. A book by William Rosen, “The Third Horseman” covers it thoroughly. The die-off from 1315 to 1320 is estimated at some 10 percent of the population. Deaths of cattle, sheep and horses were severe as well. All due to the turn to cold and unusually wet weather.

The change to what some are calling the Modern Minimum is significant. In geological perspective, it is now a built-in cooling force.

Rest of the Story HERE.

H/T Watts Up With That

I wrote some blog posts on Livingston and Penn in 2011.

Livingston and Penn

Here is a paper livingston-penn-2008

declining_sun_spots

Advertisements

Dimmer Sun, Colder Weather?

Coldest February on record in many communities, the first time in 130 years Los Angles never broke the 70 degrees mark in February. Phoenix shatters a 122-year-cold record. Monthly snowfall records being broken across the country.

Spaceweather.com

Solar-3-1-19-SDO_512_HMIIC

The sun has just passed an entire calendar month with no sunspots. The last time this happened, in August 2008, the sun was in the nadir of a century-class Solar Minimum. The current stretch of blank suns shows that Solar Minimum has returned, and it could be as deep as the last one.

The last time a full calendar month passed without a sunspot was August 2008. At the time, the sun was in the deepest Solar Minimum of the Space Age. Now a new Solar Minimum is in progress and it is shaping up to be similarly deep. So far this year, the sun has been blank 73% of the time–the same as 2008.

Solar Minimum is a normal part of the solar cycle. Every ~11 years, sunspot counts drop toward zero. Dark cores that produce solar flares and CMEs vanish from the solar disk, leaving the sun blank for long stretches of time. These minima have been coming and going with regularity since the sunspot cycle was discovered in 1859.

My friend Anthony Watts does some analysis HERE and comes to this conclusion:

It seems the sun has dimmed more than the usual amount at the end of solar cycle 24, and it could be a factor in the severe winter we are experiencing in many parts of the northern hemisphere.

Your thoughts?  Could we be on the cusp of a major global cooling?

Cosmic Rays Increasing for the 4th Year in a Row

Feb. 21, 2019: Cosmic rays in the stratosphere are intensifying for the 4th year in a row. This finding comes from a campaign of almost weekly high-altitude balloon launches conducted by the students of Earth to Sky Calculus. Since March 2015, there has been a ~13% increase in X-rays and gamma-rays over central California, where the students have launched hundreds of balloons.

neutronsandxrays2

The grey points in the graph are Earth to Sky balloon data. Overlaid on that time series is a record of neutron monitor data from the Sodankyla Geophysical Observatory in Oulu, Finland. The correlation between the two data sets is impressive, especially considering their wide geographic separation and differing methodologies. Neutron monitors have long been considered a “gold standard” for monitoring cosmic rays on Earth. This shows that our student-built balloons are gathering data of similar quality.

Why are cosmic rays increasing? The short answer is “Solar Minimum.” Right now, the 11-year solar cycle is plunging into one of the deepest minima of the Space Age. The sun’s weakening magnetic field and flagging solar wind are not protecting us as usual from deep-space radiation. Earth to Sky balloon launches in multiple countries and US states show that this is a widespread phenomenon.

solarcycle

Cosmic rays are of interest to anyone who flies on airplanes. The International Commission on Radiological Protection has classified pilots as occupational radiation workers because of cosmic ray doses they receive while flying. A recent study by researchers at the Harvard School of Public Health shows that flight attendants face an elevated risk of cancer compared to members of the general population. They listed cosmic rays as one of several risk factors. There are also controversial studies that suggest cosmic rays promote the formation of clouds in the atmosphere; if so, increasing cosmic rays could affect weather and climate.

Thanks to Dr. Phillips for sharing this post from Spaceweather.com  [Emphasis added]

The more cosmic rays the more clouds, which results in more cooling of the planet.

Solar Cycle 25 Stronger than Cycle 24?

Previously, scientists suggested that sunspot cycle 25 could be weaker than the current cycle, potentially meaning a period of global cooling could ensue. However, this has largely been ruled out, with a team of scientists in India recently predicting that the next solar cycle could be even stronger than the current one.

Abstract

The Sun’s activity cycle governs the radiation, particle and magnetic flux in the heliosphere creating hazardous space weather. Decadal-scale variations define space climate and force the Earth’s atmosphere. However, predicting the solar cycle is challenging. Current understanding indicates a short window for prediction best achieved at previous cycle minima. Utilizing magnetic field evolution models for the Sun’s surface and interior we perform the first century-scale, data-driven simulations of solar activity and present a scheme for extending the prediction window to a decade. Our ensemble forecast indicates cycle 25 would be similar or slightly stronger than the current cycle and peak around 2024. Sunspot cycle 25 may thus reverse the substantial weakening trend in solar activity which has led to speculation of an imminent Maunder-like grand minimum and cooling global climate. Our simulations demonstrate fluctuation in the tilt angle distribution of sunspots is the dominant mechanism responsible for solar cycle variability.

Paper is HERE.

It seems the science is not settled. Some scientists say we are headed for long term quiet sun and others more of the same. Only time will reveal the veracity of the various claims. Stay Tuned.

What do you think? Stronger? Weaker? Same?

On the Cusp of the Next Grand Minimum?

Definition — cusp: a point of transition between two different states

The transition from the Medieval Warm Period and the Little Ice Age was punctuated by extreme climate events, intense storms, floods, and droughts according to Lynn Ingram and Francis Malamud-Roam writing in The West Without Water. According to the authors, the transition from the Little Ice Age to the Modern Warm Period also experienced erratic weather extremes. Wolfgang Behringer, writing in the Cultural History of Climate, found similar transitions to more extreme weather. These extreme record-setting events are a signal that the overall climate is moving to a different state, in other words on the cusp of climate change.

Some recent record events:

Japan’s northern island of Hokkaido: Record cold temperatures, minus 24.4 C, the lowest seen since it began compiling such data in 1957.

Seattle: Coldest February in 30 years, the 4th coldest in 75 years, the 3 years that were colder were 1989, 1949 and 1956. “This month has been so snowy that it is now setting records for daily and monthly totals,” says the National Weather Service.

Minnesota: Minus 38 degrees recorded in Melrose, Minnesota, The nation’s coldest wind chill factor, minus 70, was reported in Ely, Minnesota on 30 January 2019.

Moscow: the Strongest snowstorm in 140 years, 13 Feb 2019

Siberia: Many record lows, details HERE.

Australia: Hottest December since recording started, with Adelaide hit nearly 116 degrees Fahrenheit the last week in January 2019, breaking an 80-year-old record high set in January 1939.

Sierra Nevada: June Mountain picked up 72 inches of snow in 24 hours, 96 in 72 hours. The official record for 24-hour snowfall record is 67 inches, on Jan. 5, 1982.

The proponents of anthropogenic global warming are attributing these extreme weather to human emission of greenhouse gases. However, after looking back through climate history, such as the Cultural History of Climate and The West without Water, I am inclined to attribute these record-breaking events to the transition point for the Next Grand Minimum.

Your thoughts, are we on the cusp, or is it just climate change weather?

Sun has Entered Grand Minimum Phase

Jeffrey Foss, PhD

Everyone has heard the bad news. Imminent Climate Apocalypse (aka “global warming” and “climate change”) threatens humanity and planet with devastation, unless we abandon the use of fossil fuels.

Far fewer people have heard the good news. The sun has just entered its Grand Minimum phase, and the Earth will gradually cool over the next few decades.

Why should we all hope Earth will cool? Because nobody with any trace of human decency would hope the Earth will actually suffer catastrophic warming.

Details in Guest Post at WUWT.

 

The Latest on the Double-Dynamo Solar Model, and Dr. Zharkova’s Predictions of a Grand Minimum

By Stephanie Osborn

The Osborn post is a lengthy explanation of Dr. Zharkova’s model, model updates and predictions, with some additional example of how the ‘barycentric wobble’ influences the earth’s temperature. For readers who found Dr. Zharkova’s GWPF Presentation confusing, this article will help with the understanding of her model’s significance, and the output is worth considering. Osborn’s bio is HERE.

Osborn’s evaluation of Zharkova’s model:

Zharkova’s model is supported not only by sunspot numbers and solar activity, but by other solar-studies fields: magnetohydrodynamics and helioseismology. In fact, the resulting data plots from these fields are so close to Zharkova’s model predictions, that the model could as well be based on either of those. So this model is not functioning in isolation from related science, but is in fact harmonizing quite well with it.

The Dalton extended minimum (1790-1830) is evidently an example of a Gleissberg minimum, while the deep and protracted Maunder minimum (1645-1715) was the previous ‘Grand’ minimum. It has been roughly 350 years since the onset of the Maunder minimum, and a bit over 200 years since the Dalton minimum began. Zharkova et al. also noted a moderate Gleissberg minimum in the earliest part of the 20th century, as well, so the periodicity for that cycle seems to be holding.

The gist of the matter is that all three main cycles are entering minimum phase, beginning with the end of this current solar cycle (Cycle 24). Cycle 25 will be even lower than 24, with 26 being very nearly flat-lined. Cycle 27 will begin to show a few signs of life, then there will be a gradual rise to full activity over several more solar cycles, even as the last three cycles have slowly decreased in levels. This means that the bottom of the extended, or ‘Grand’ minimum (to use Zharkova’s terminology), should run from ~2020 to ~2053. (NO, it will NOT last 400 years like some are reporting – that is the overall length of the Grand cycle, not the predicted length of the minimum.)

In terms of atmospheric interaction, certainly the majority of the solar radiation peaks in the visible range, and that changes little, and the atmosphere is largely transparent to it. Once it strikes a solid object, however, the photon’s energy is absorbed, and later re-radiated as infrared (IR), which the atmosphere largely blocks (at least in certain frequency windows), so it does not all radiate off into space at night. This is why things like rocks and masonry tend to feel warmer at night, and what helps drive the trade winds along shorelines – the temperature differential arising from the differing light absorption/IR re-radiation of water versus land.

But it turns out that, unlike visible light, higher-energy photons have a fairly strong correlation with the solar cycle; this includes ultraviolet (UV) and X-ray, most notably extreme UV or EUV, which borders the X-ray regime. Much of this photonic radiation is generated in the inner solar corona, because the corona’s activity strongly follows overall solar activity; much of the rest is produced during solar flares – which are PART OF solar activity. More, unlike visible light, this frequency regime is ENTIRELY absorbed in the upper atmosphere (exosphere, thermosphere, ionosphere). So during high solar activity, the EUV and X-ray radiation hitting Earth has 100% of its energy injected into the atmosphere. During low solar activity, there is considerably less energy from this high-frequency regime being injected into the atmosphere – according to NASA research I dug up in the course of researching her papers and presentation, it may completely bottom out – as in, essentially zero energy from EUV etc.

But that isn’t the only way this might affect Earth’s atmosphere. It turns out that the solar wind/corona effects shield the inner solar system from cosmic rays, which are very high energy particles coming in from cosmological sources, such as supernovae, quasars, pulsars, etc. As solar activity diminishes, the solar wind decreases in effect, and the cosmic ray flux (‘flux’ is a measure of number of units per square area, e.g. number of cosmic ray particles per square meter) increases. BUT we know that cosmic rays tend to hit atmosphere and ‘cascade’ – generate a shower of particles, rather like a branching domino effect – and this, in turn, tends to create condensation nuclei around which clouds can form. (In fact, our first cosmic ray detectors were so-called ‘cloud chambers’ where the formation of condensation clouds depicts the track of the particle.) As a result, increasing cosmic ray fluxes are apt to generate increased cloud cover; increased cloud cover will then block visible light from reaching Earth’s surface and adding energy to the overall system. And cosmic ray flux can vary by as much as 50% with solar variation.

Well, then. So. What effects are being seen as a result of these two items?

Go HERE for the answers, with links to the supporting documents.

Recommended Reading and I would like your comments and thoughts!

Prediction of the Strength and Timing of Sunspot Cycle 25 Reveal Decadal-scale Space Environmental Conditions

ABSTRACT

The Sun’s activity cycle governs the radiation, particle and magnetic flux in the heliosphere creating hazardous space weather. Decadal-scale variations define space climate and force the Earth’s atmosphere. However, predicting the solar cycle is challenging. Current understanding indicates a short window for prediction best achieved at previous cycle minima. Utilizing magnetic field evolution models for the Sun’s surface and interior we perform the first century-scale, data-driven simulations of solar activity and present a scheme for extending the prediction window to a decade. Our ensemble forecast indicates cycle 25 would be similar or slightly stronger than the current cycle and peak around 2024. Sunspot cycle 25 may thus reverse the substantial weakening trend in solar activity which has led to speculation of an imminent Maunder-like grand minimum and cooling global climate. Our simulations demonstrate fluctuation in the tilt angle distribution of sunspots is the dominant mechanism responsible for solar cycle variability.

Full paper HERE.

H/T Watts Up With That

Professor Valentina Zharkova Confirms “Super” Grand Solar Minimum [Edited}

Professor Valentina Zharkova gave a presentation of her Climate and the Solar Magnetic Field hypothesis at the Global Warming Policy Foundation in October, 2018. The information she unveiled should shake/wake you up.

Zharkova was one of the few that correctly predicted solar cycle 24 would be weaker than cycle 23 — only 2 out of 150 models predicted this.

Her models have run at a 93% accuracy and her findings suggest a Super Grand Solar Minimum is on the cards beginning 2020 and running for 350-400 years. [ Not the Grand Minimum but the full cycle ]

The last time we had a little ice age only two magnetic fields of the sun went out of phase.

This time, all four magnetic fields are going out of phase.

Here is the Professors full presentation: https://youtu.be/M_yqIj38UmY

I am interested in the reader view of Professor Valentina Zharkova presentation. Is it credible? Please comment, let us get a conversation going.

 

Screenshot 2018-11-22 07.25.51Screenshot 2018-11-22 07.27.34