Sunday, June 30, 2019

THINGS WATTS, CURRY & MORANO DON'T SEE FIT TO PRINT


         REPUBLICAN BRAIN SYNDROME BY PROXY STRIKES
                   REPUBLICAN-FREE SCIENCE JOURNAL


JUNE 20, 2019

We Tried to Publish a Replication of a Science Paper in Science. The Journal Refused.

Our research suggests that the theory that conservatives and liberals respond differently to threats isn’t actually true.

By KEVIN ARCENEAUX, BERT N. BAKKER, CLAIRE GOTHREAU, and GIJS SCHUMACHER

Science is supposed to be self-correcting. Ugly facts kill beautiful theories, to paraphrase the 19th-century biologist Thomas Huxley. But, as we learned recently, policies at the top scientific journals don’t make this easy.
Our story starts in 2008, when a group of researchers published an article (here it is without a paywall) that found political conservatives have stronger physiological reactions to threatening images than liberals do. The article was published in Science, which is one of the most prestigious general science journals around. It’s the kind of journal that can make a career in academia.
It was a path-breaking and provocative study. For decades, political scientists and psychologists have tried to understand the psychological roots of ideological differences. The piece published in Science offered some clues as to why liberals and conservatives differ in their worldviews. Perhaps it has to do with how the brain is wired, the researchers suggested—specifically, perhaps it’s because conservatives’ brains are more attuned to threats than liberals’. It was an exciting finding, it helped usher in a new wave of psychophysiological work in the study of politics, and it generated extensive coverage in popular media. In 2018, 10 years after the publication of the study, the findings were featured on an episode of NPR’s Hidden Brain podcast.
Fast forward to 2014. All four of us were studying the physiological basis of political attitudes, two of us in Amsterdam, the Netherlands (Bakker and Schumacher at the University of Amsterdam), and two of us in Philadelphia (Arceneaux and Gothreau at Temple University). We had raised funds to create labs with expensive equipment for measuring physiological reactions, because we were excited by the possibilities that the 2008 research opened for us.
The researchers behind the Science article had shown a series of images to 46 participants in Nebraska and used equipment to record how much the participants’ palms sweated in response. The images included scary stuff, like a spider on a person’s face. We conducted two “conceptual” replications (one in the Netherlands and one in the U.S.) that used different images to get at the same idea of a “threat”—for example, a gun pointing at the screen. Our intention in these first studies was to try the same thing in order to calibrate our new equipment. But both teams independently failed to find that people’s physiological reactions to these images correlated with their political attitudes.
Our first thought was that we were doing something wrong. So, we asked the original researchers for their images, which they generously provided to us, and we added a few more. We took the step of “pre-registering” a more direct replication of the Science study, meaning that we detailed exactly what we were going to do before we did it and made that public. The direct replication took place in Philadelphia, where we recruited 202 participants (more than four times than the original sample size of 46 used in the Science study). Again, we found no correlation between physiological reactions to threatening images (the original ones or the ones we added) and political conservatism—no matter how we looked at the data.
By this point, we had become more skeptical of the rationale animating the original study. Neuroscientists can often find a loose match between physiological responses and self-reported attitudes. The question is whether this relationship is really as meaningful as we sometimes think it is. The brain is a complex organ with parallel conscious and unconscious systems that don’t always affect the other one-to-one. We still believe that there is value in exploring how physiological reactions and conscious experience shape political attitudes and behavior, but after further consideration, we have concluded that any such relationships are more complicated than we (and the researchers on the Science paper) presumed.
We drafted a paper that reported the failed replication studies along with a more nuanced discussion about the ways in which physiology might matter for politics and sent it to Science. We did not expect Science to immediately publish the paper, but because our findings cast doubt on an influential study published in its pages, we thought the editorial team would at least send it out for peer review.
It did not. About a week later, we received a summary rejection with the explanation that the Science advisory board of academics and editorial team felt that since the publication of this article the field has moved on and that, while they concluded that we had offered a conclusive replication of the original study, it would be better suited for a less visible subfield journal.
We wrote back asking them to consider at least sending our work out for review. (They could still reject it if the reviewers found fatal flaws in our replications.) We argued that the original article continues to be highly influential and is often featured in popular science pieces in the lay media (for instance, hereherehere, and here), where the research is translated into a claim that physiology allows one to predict liberals and conservatives with a high degree of accuracy. We believe that Science has a responsibility to set the record straight in the same way that a newspaper does when it publishes something that doesn’t stand up to scrutiny. We were rebuffed without a reason and with a vague suggestion that the journal’s policy on handling replications might change at some point in the future.
We believe that it is bad policy for journals like Science to publish big, bold ideas and then leave it to subfield journals to publish replications showing that those ideas aren’t so accurate after all. Subfield journals are less visible, meaning the message often fails to reach the broader public. They are also less authoritative, meaning the failed replication will have less of an impact on the field if it is not published by Science.
Open and transparent science can only happen when journals are willing to publish results that contradict previous findings. We must resist the human tendency to see a failed replication as an indication that the original research team did something wrong or bad. We should continue to have frank discussions about what we’ve learned over the course of the replication crisis and what we could be doing about it (a conversation that is currently happening on Twitter).
Science requires us to have the courage to let our beautiful theories die public deaths at the hands of ugly facts. Indeed, our replication also failed to replicate part of a study published by one of us—Arceneaux and colleagues—which found that physiological reactions to disgusting images correlated with immigration attitudes. Our takeaway is not that the original study’s researchers did anything wrong. To the contrary, members of the original author team—Kevin Smith, John Hibbing, John Alford and Matthew Hibbing—were very supportive of the entire process, a reflection of the understanding that science requires us to go where the facts lead us. If only journals like Science were willing to lead the way. 

                               SLOW CLIMATE POLITICS?

AMERICAN CLIMATE COMMUNICATORS MIGHT  LEARN A THING OR TWO FROM BRITAIN'S CURRENT  PM CAMPAIGN 

"I was peripherally involved in Stewart’s leadership campaign, helping to organise some of his Northern Ireland visit, including a trip to my home county (and Britain’s true Lake District) Fermanagh.

Here Stewart shone as the man who invented ‘slow politics’ – an interest in the lives of people for whom Westminster’s carnival of narcissism is a frenetic, peripheral and alienating experience. I put him together with farmers worried about the consequences, from tariffs to animal welfare, of a no-deal Brexit. He listened with humility and spoke with knowledge and empathy. Feedback from my normally unimpressible contacts was positive. I suspect the value of spending time understanding the lives and aspirations of ordinary people snared in our national psychodrama, while still needing to put bread on the table, will become more not less central to his pitch.

I was put in mind of the value of this calm, measured engagement again last night when I attended the Police Foundation’s Harris Memorial Lecture, delivered by Metropolitan Police Commissioner, Cressida Dick. In a clever discourse on the state of British policing, she identified four main challenges all too familiar to those who want to fix British politics right now: velocity, variety, volume and complexity.
We’ve touched on velocity already. Rory Stewart, in his street encounters with a punch-drunk electorate, has identified a yearning for steadiness, stability, prudence and common sense from the ruling class.

If there was ever any latent admiration for ‘just in time’, shirt untucked, back of an envelope government, it has surely drained away by now. People across the political spectrum have been struck by Stewart’s seriousness of purpose and his refusal to submit to the superficial"

- - Ian Acheson Coffee House column, 26 June 2019





                      A RISING TIDE COMPLICATES SOLAR
                           MAGNETOHYDRODYNAMICS

Planetary Low Tide May Force
 Regular Sunspot Sync Ups 

 


A regular alignment of the planets—no, it’s not pseudoscience—makes a strong enough tug to regulate the Sun’s 11- and 22-year cycles.                                 
For more than 1,000 years, the number of sunspots hit a minimum within a few years of a major planetary alignment. A recent study showed that tides created by this alignment every 11 years are strong enough to tug on material near the Sun’s surface and synchronize localized changes in its magnetic field.
“We noticed from historical data that there is an astonishing degree of regularity” in the sunspot cycle, Frank Stefani, lead author of the study, told Eos. Stefani is a fluid dynamics research fellow at Helmholtz-Zentrum Dresden-Rossendorf in Dresden, Germany. “We definitely have a clocked process,” he said. “But then the question was, What is the clock?”
The study expands upon the commonly accepted model for the solar dynamo and supports a long-held theory that planetary configurations are responsible for the sunspot cycle and magnetic solar cycle.

Wound, Twisted, and Unstable

A schematic of the Sun’s magnetic field lines from the alpha-omega dynamo
A simplified schematic of a single magnetic field line as it wraps around the Sun (omega effect) and then twists upon itself (alpha effect). The arrows indicate the direction that solar material moves as it drags the field line with it. Credit: NASA/MSFC 
As a giant spinning ball of plasma, the Sun’s magnetic field is extremely complicated. Its magnetic field lines start as parallel lines running from the north to the south pole. But because the Sun rotates faster at its equator than at its poles, those pole-to-pole magnetic field lines slowly wind and wrap around the Sun, stretching like taffy from the middle of the line to become horizontal.
On top of the rotational motion of solar plasma, convection moves material from the equator to the poles and back again. That twists the field lines around each other into loops and spirals.
The winding and twisting of the Sun’s magnetic field lines are described by the alpha-omega dynamo model. In that model, alpha represents the twisting, and omega represents the wrapping. Tangled field lines can create instabilities in the local magnetic field and cause sunspots, flares, or mass ejections.
This model is the commonly accepted explanation for the behavior of the Sun’s magnetic field, but it’s not perfect, Stefani explained. It predicts that the instabilities’ twistedness will oscillate randomly every few years. But the model can’t explain why the number of sunspots waxes and wanes on a roughly 11-year cycle or why the Sun’s magnetic field flips polarity every 22 years.

Low Tide, Low Activity

Another solar system phenomenon happens every 11 years: Venus, Earth, and Jupiter align in their orbits. These three planets have the strongest tidal effect on the Sun, the first two because of their proximity to the Sun and the third because of its mass. Past observational studies have shown that minima in the sunspot cycle have occurred within a few years of this alignment for the past 1,000 years or so.
“If you look at the trend, it has an amazing parallelism,” Stefani said.
The researchers wanted to test whether the planetary alignment could influence the Sun’s alpha effect and force an interplanetary low tide at regular intervals. The team started with a standard alpha-omega dynamo model and added a small tidal tug to the alpha effect every 11 years to simulate the alignment.
“Our dynamo model is not a completely new one,” Stefani explained. “We’re really building on the old-fashioned, or conventional, alpha-omega dynamo.”
The simulation showed that even a weak tidal tug of 1 meter per second every 11 years forced unstable magnetic twists to pulse with that same period. The simulated dynamo’s polarity oscillated with a 22-year period just like the real solar dynamo.
“With a little bit of this periodic alpha,” Stefani said, “we can indeed synchronize the dynamo period to 22 years [with] planetary forcing.”
Because those magnetic instabilities are connected with solar activity, the researchers argue, this synchronization could also suppress (or generate) sunspots across the Sun at roughly the same time—in other words, the sunspot cycle. The team published these results in Solar Physics in late May.

Saturday, June 29, 2019

Friday, June 28, 2019

         SUMMER CHILL ON 2nd DAY OF AUSTRALIAN WINTER
                      BAFFLES CORNWALL ALLIANCE FLACK

Surprising Summer Chill Baffles Global Warming Alarmists

CLIMATE SECURITY: CAN AGW REPLACE STAR WARS ABM'S?

THE NEXT BIG THING IN CLIMATE CONSPIRACY THEORIES!
IN a late development in the Star Wars Anti-Ballistic Missile controversy , a  Russian Soyuz-2 rocket was hit by lightning shortly after  launch on 27 May. It still deployed its payload, the latest  navigation satellite in Russia's GLONASS GPS system.

Thursday, June 27, 2019

    IT'S  NOT THE HEAT,  IT'S THE SOCIOECOLOGY REIFIYING  THE STRUCTURAL CONTRADICTIONS OF LATE CAPITALISM

 European Journal of Social Theory 


Materialized ideology and environmental 

problems: The cases of solar geoengineering

and agricultural biotechnology

Capitalist sponsors of The Nation Institute Forum oppressing the readers of

Dialectics Facing Prehistoric Catastrophe: Merely Possible Climate Change Solutions

which, by concealing these contradictions, reproduce existing social conditions. This article outlines a method of technology assessment as ideology critique that draws attention to: (1) the social determinants of the given technology; (2) whether the technology conceals or masks social-ecological contradictions; (3) whether the technology reproduces existing social conditions; and (4) whether the technology may be used for more rational or emancipatory ends in different social conditions. 

The examples of solar geoengineering and agricultural biotechnology are examined and it is found that, in each case, these technological solutions conceal social-ecological contradictions and support the current economic system and those benefiting from it, while precluding other alternatives.

Wednesday, June 26, 2019

   CHECK OUT IVANKA'S SPA & BEN'S BAR AT HEARTLAND'S
      TRUMP INTERNATIONAL HAPPY HOUR: 50% DISCOUNT !

Invitation: attend the Washington D.C. climate conference with me at a special rate

            NIGHTIME SOLAR ENERGY TO PEAK ON THE 4TH

EE NEWS REPORTS  ON WHAT THE  KILLJOYS AT
"The American Prospect, a left-leaning online magazine, described.. as "the cleverest campaign finance end run of the year."
The National Park Service says this year's expanded July Fourth fireworks show will be the biggest in history, thanks to a donation of a free fireworks show made by two of the nation's largest pyrotechnics companies.
In a tweet yesterday, Interior Secretary David Bernhardt said the donation from Phantom Fireworks and Fireworks by Grucci will allow the park service to "light up the sky and celebrate our great country" as part of President Trump's "Salute to America," a show at the Lincoln Memorial that's aimed at honoring the military.
MANY, MANY FREE GIGAJOULES
The donations, valued at $750,000, come as fireworks companies and the American Pyrotechnics Association are lobbying the Trump administration to make sure they won't get hit by 25% tariffs on imports from China.
Bruce Zoldan, CEO of Phantom Fireworks, met with White House officials last month to discuss the issue. That was then followed by a letter sent by the American Pyrotechnics Association to U.S Trade Representative Robert Lighthizer.
"Tariffs on fireworks and other pyrotechnic products would raise the costs on American businesses which rely on imports from China, and their downstream customers," said Julie Heckman, executive director of the American Pyrotechnics Association, in the June 14 letter. "Uniquely, in our case, nonprofits and small municipalities nationwide will suffer significantly and may be forced to forego their Independence Day fireworks displays." 

    CANADIAN SAGE UNVEILS NEW TOTAL INACTION PLAN

Why  Politicians  Who Don’t Understand  the 

Science of Global Warming Don’t Need to Act.

Tuesday, June 25, 2019

 NEVER UNDERESTIMATE THE CONSERVATION OF MASS

OCEANUS



A Rainfall Forecast Worth its Salt

WHOI scientist Ray Schmitt and sons take top prize in rainfall forecasting competition

 | 

Seven-to-ten day forecasts help us plan our daily lives, but when it comes to sub-seasonal to seasonal forecasts—the 3-week to 3-month weather predictions we don’t rely on the evening news for—there may be a lot more at stake. Droughts, for example, can put millions at risk for food insecurity and water management. Extreme floods and hurricane seasons can destroy neighborhoods, businesses, and infrastructure.
When WHOI scientist Ray Schmitt heard about a U.S. government-sponsored weather forecasting competition aimed at improving sub-seasonal forecasts, he wanted in. As a climate scientist, he had been on his own winning streak in predicting seasonal rainfall in regions ranging from the African Sahel to the U.S. Midwest.
“A few days before Christmas in 2016, I got an email from my WHOI colleague Steve Elgar that pointed me to a weather prediction contest that had just been announced by the U.S. Bureau of Reclamation (USBR),” said Schmitt. “They were offering big prize money if you could provide the most accurate rainfall predictions over a whole year for the U.S. West in their ‘Climate Forecast Rodeo’.”
Getting into the game, for Schmitt, was a way to leverage a unique rainfall prediction technique he’d been honing at WHOI for decades. Rather than basing seasonal forecasts on the El Nino phenomena, which is what most forecasts focus on, his method uses salinity in the ocean as a natural rain gauge.

Ray’s Rule

The idea struck him in 1993 after the Mississippi and Missouri River floods. After the seven-month dousing of the region, he noticed reports of abnormally low salinity in the Gulf of Mexico and Gulf Stream.
“Since all that flood water was freshening the ocean, conservation of water and salt requires that some part of the ocean had to get saltier before the floods. A lot of freshwater had to leave the ocean ahead of time to supply the extra rainfall on land.” he said. Using “Ray’s Rule”, that areas of water export must equal areas of water import, he realized that a large region of the ocean had to lose fresh water to evaporation in order to supply the flood on land. That evaporation would have to make the surface ocean saltier than normal. “With that basic concept in mind, I began looking at high-salinity areas of the ocean to see if variations in salinity could be used to predict rainfall.”
By May, 2016, the line of investigation took a fruitful turn. Schmitt and Laifang Li, a postdoctoral scholar in physical oceanography at WHOI, with co-authors Caroline Ummenhofer and Kris Karnauskas, published a study showing that high springtime salinity levels in the subtropical Atlantic Ocean correlated closely with increased summer-season rainfall in the African Sahel, where even small shifts in rainfall patterns can be a matter of life and death for millions of people. “It was a remarkable result,” said Schmitt.

WHOLE THING AT
https://www.whoi.edu/oceanus/feature/a-rainfall-forecast-worth-its-salt/