One of the many pressing stories that remains to be told from the Snowden archive is how western intelligence agencies are attempting to manipulate and control online discourse with extreme tactics of deception and reputation-destruction. It’s time to tell a chunk of that story, complete with the relevant documents.
Over the last several weeks, I worked with NBC News to publish a series of articles about “dirty trick” tactics used by GCHQ’s previously secret unit, JTRIG (Joint Threat Research Intelligence Group). These were based on fourclassifiedGCHQdocuments presented to the NSA and the other three partners in the English-speaking “Five Eyes” alliance. Today, we at the Intercept are publishing another new JTRIG document, in full, entitled “The Art of Deception: Training for Online Covert Operations.”
At a news conference on March 19, 2015, California Senate President Pro Tem Kevin de Leon warned, “There is no greater crisis facing our state today than our lack of water.”
California’s Big Water Plans; The End of Private Water Rights?
Drought-stricken California, which just had its driest January ever recorded, smashed another dismal record last month: the hottest February. This will be the 5th year in a row of historic drought in California, breaking a 120 year old record.
The seismic waves began roughly 15 miles off the shores of Mayotte, a French island sandwiched between Africa and the northern tip of Madagascar. The waves buzzed across Africa, ringing sensors in Zambia, Kenya, and Ethiopia. They traversed vast oceans, humming across Chile, New Zealand, Canada, and even Hawaii nearly 11,000 miles away.
These waves didn’t just zip by; they rang for more than 20 minutes. And yet, it seems, no human felt them.
Only one person noticed the odd signal on the U.S. Geological Survey’s real-time seismogram displays. An earthquake enthusiast who uses the handle @matarikipax saw the curious zigzags and posted images of them to Twitter. That small action kicked off another ripple of sorts, as researchers around the world attempted to suss out the source of the waves. Was it a meteor strike? A submarine volcano eruption? An ancient sea monster rising from the deep?
“I don’t think I’ve seen anything like it,” says Göran Ekström, a seismologist at Columbia University who specializes in unusual earthquakes.
Death of American missionary could put this indigenous tribe’s survival at risk
“It doesn’t mean that, in the end, the cause of them is that exotic,” he notes. Yet many features of the waves are remarkably weird—from their surprisingly monotone, low-frequency “ring” to their global spread. And researchers are still chasing down the geologic conundrum.
Why are the low-frequency waves so weird?
In a normal earthquake, the built-up tensions in Earth’s crust release with a jolt in mere seconds. This sends out a series of waves known as a “wave train” that radiates from the point of the rupture, explains Stephen Hicks, a seismologist at the University of Southampton.
The fastest-traveling signals are Primary waves, or P-waves, which are compression waves that move in bunches, like what happens to an extendedslinky that gets suddenly pushed at one end. Next come the secondary waves, or S-waves, which have more of a side-to-side motion. Both of these so-called body waves have relatively high frequencies, Hicks says, “a sort of ping rather than a rumbling.”
EARTHQUAKES 101Earthquakes are unpredictable and can strike with enough force to bring buildings down. Find out what causes earthquakes, why they’re so deadly, and what’s being done to help buildings sustain their hits.
Finally, chugging along at the end come slow, long-period surface waves, which are similar to the strange signals that rolled out from Mayotte. For intense earthquakes, these surface waves can zip around the planet multiple times, ringing Earth like a bell, Hicks says.
However, there was no big earthquake kicking off the recent slow waves. Adding to the weirdness, Mayotte’s mystery waves are what scientists call monochromatic. Most earthquakes send out waves with a slew of different frequencies, but Mayotte’s signal was a clean zigzag dominated by one type of wave that took a steady 17 seconds to repeat.
“It’s like you have colored glasses and [are] just seeing red or something,” says Anthony Lomax, an independent seismology consultant.
Mayotte’s volcanic roots
Based on the scientific sleuthing done so far, the tremors seem to be related to a seismic swarm that’s gripped Mayotte since last May. Hundreds of quakes have rattled the small nation during that time, most radiating from around 31 miles offshore, just east of the odd ringing. The majority were minor trembles, but the largest clocked in at magnitude 5.8 on May 15, the mightiest in the island’s recorded history. Yet the frequency of these shakes has declined in recent months—and no traditional quakes rumbled there when the mystery waves began on November 11.
The early period of rumbling was also overprinted with what seemed to be the P- and S- waves of tiny tremors, explains Lomax, who spotted the faint pings by filtering out the low-frequency signals. Such pings are commonly associated with magma moving and fracturing rock as it squirts through the crust. But even those signals were a little strange, says Helen Robinson, a Ph.D. candidate in applied volcanology at the University of Glasgow.
“They’re too nice; they’re too perfect to be nature,” she jokes, although she quickly adds that an industrial source is impossible, since no wind farms or drilling are taking place in the deep waters off Mayotte’s shores.
Ekström thinks that the events on the morning of November 11 actually did begin with an earthquake of sorts equivalent to a magnitude 5 temblor. It passed by largely unnoticed, he suggests, because it was what’s known as a slow earthquake. These quakes are quieter than their speedy cousins since they come from a gradual release of stress that can stretch over minutes, hours, or even days.
“The same deformation happens, but it doesn’t happen as a jolt,” Ekström says.
So what is actually causing the super-slow vibrations at Mayotte? A submarine eruption could produce these low rumblings, but evidence for such an event has yet to materialize.
Most current guesses revolve around resonance in a magma chamber, triggered by some type of subsurface shift or chamber collapse. The resonance itself can be any type of rhythmic motion, like sloshing of the molten rock, or a pressure wave ricocheting through the magma body, Ekström explains. Studying the intricate features of the seismic waves could yield clues to the size and shape of the molten material lurking below.
It is very difficult, really, to say what the cause is and whether anyone’s theories are correct.
“It’s like a music instrument,” says Jean-Paul Ampuero, a seismologist at the Université Côte d’Azur in France. “The notes of a music instrument—whether it’s grave or very pitchy—depends on the size of the instrument.”
The signal’s odd uniformity could be due, in part, to the surrounding rocks and sediments, Lomax adds. Perhaps the local geology is filtering the sounds and only letting this single 17-second wave period escape.
Robinson agrees with this idea, noting that the geology here is extremely complex. Mayotte sits in a region crisscrossed by ancient faults—including fracture zones from the final breakup of the southern supercontinent Gondwana. What’s more, the underlying crust is somewhat transitional, shifting between the thick continental crusts and the thinner oceanic crusts. Perhaps this complexity drives the simplicity of the escaping waves, Robinson says.
Secrets of the sea
For now, though, the lack of data makes it tough to say more about the wiggly forms. Hicks’ preliminary models hinted that the waves emanated from subsurface inflation, rather than a magma chamber draining or collapsing. But with a little additional data, the model flipped and pointed to chamber deflation instead.
It also could be a bit of both, notes Robinson: “Some collapse mechanisms, you can get inflation and deflation occurring at the same time,” she says. Or sometimes they can alternate, pumping up and down like Earth’s fiery lungs.
“It is very difficult, really, to say what the cause is and whether anyone’s theories are correct—whether even what I’m saying has any relevance to the outcome of what’s going on,” Robinson says.
BRGM plans to do ocean bottom surveys to get more detailed information about the region and investigate the possibility of a submarine eruption. In the meantime, the seismic sleuthing continues with the data that’s available. Whether the cause is ordinary or extraordinary remains to be seen, Lomax says, but the science—and the fun—is in the chase.
“Depending on what field and what time in history, 99.9 percent of the time, it’s ordinary, or noise, or a mistake, and 0.1 percent, it’s something” he says. “But that’s just the way it goes. That’s the way it should go. That’s scientific advance.”
FIRES RAGE – in The Land Down Under . . .
is Queensland Targeted with DEW’s?
Climate Change “IS” Weather Control . . . and their plans forewarned of the different weaponized weather attacks that will be used.
The City of Melbourne Climate Change Adaptation Strategy and Action Plan is provided in the link below:
Excerpts from the PLAN:
Risks and impacts addressed
CoM was forewarned that by 2030, the City is likely to be significantly affected by warmer temperatures and heatwaves, lower rainfall, intense storm events and flash flooding1. In addition, four potential extreme event scenarios for the broader Melbourne region required a more comprehensive assessment of these climate change risks: * Less rainfall and more chance of drought
* Extreme heatwaves and bushfires
* Intense rainfall and wind storms
* Sea level rise
Each risk was assessed on a 1 to 5 scale for its likelihood of occurring and the consequences. Critical risks requiring
the most serious management and
monitoring attained a combined rating of 7 or more. All critical risks have been detailed to identify their risk attributes, stakeholders, recommended adaptation measures and next steps.
Immediate impacts of intense rainfall and wind events, heatwaves and droughts
Climate Action Plan – Melborne
Queensland bushfire emergency continues for Deepwater and areas around Mackay, Rockhampton
Residents in parts of central Queensland are again being told to leave immediately as bushfires flare up in Winfield and Captain Creek as well as Broken River west of Mackay.
Key points:
· 120 fires continue to burn across Queensland
· A leave now alert is in place for Stanwell, Kabra, The Caves, Winfield, Captain Creek, Broken Hill, Deepwater, Baffle Creek, Rules Beach and Oyster Creek
· Residents need to stay informed regarding fires in Gracemere, Undullah, and Round Hill
· The Campwin Beach and Wamuran fires have been downgraded to advice level
· More than 60 schools are closed around the state
· Follow our main story for full coverage
Here’s the ABC’s Lexy Hamilton-Smith with the latest from emergency management HQ:
They are saying that conditions are extreme, not catastrophic. And the winds are picking up this afternoon which is why we have lot more spot fires at this point. We have spoken with the Fire Brigade, they say the fires yesterday near Gladstone, there were flames up to 20m high, and some residents who look like they have lost a bit of property have said it was like tornado winds, so extremely frightening in that area. So while there is some relief today and round here at headquarters, there are few smiles on people’s faces at this point. They say it is still dangerous and people have to be on extreme alert.
And James Hancock in Gracemere:
People I’ve spoken to describe the terrifying scene as the fire storm approached yesterday. They are counting their blessings today that no properties were damaged. Following on from what Lexy has said, I am outside Gracemere, next to Kabra and the latest advice for the Kabra fire, formerly the Gracemere fire, is for residents to prepare to leave. The latest information is firefighters are battling the fire on several fronts, in the process of putting in firebreaks to protect homes. Some homes are threatened by the fire at Kabra and in surrounding areas. I am outside the Kabra pub where a staging post has been set up by firefighters as they monitor the fire ground and send resources. Water bombers are in the air this afternoon helping firefighters on the ground to try to get on top of the blaze. Certainly it is a changing situation minute by minute and the latest information for the Kabra fire is for residents to prepare to leave with the fire threatening homes.
WASHINGTON — A major scientific report issued by 13 federal agencies on Friday presents the starkest warnings to date of the consequences of climate change for the United States, predicting that if significant steps are not taken to rein in global warming, the damage will knock as much as 10 percent off the size of the American economy by century’s end.
The report, which was mandated by Congress and made public by the White House, is notable not only for the precision of its calculations and bluntness of its conclusions, but also because its findings are directly at odds with President Trump’s agenda of environmental deregulation, which he asserts will spur economic growth.
A landmark report released recently that evaluates the seismic resiliency of San Francisco’s tallest buildings revealed a disquieting fact.
Dozens of high-rises dotting the city’s skyline — 68 in all — share a set of features that could render them particularly vulnerable when the next major earthquake strikes.
The buildings were all completed between 1964 and 1989, and all have steel skeletons. Beneath the buildings’ skin, the joints connecting the vertical columns and horizontal beams are fused together with a welding technique that experts now know is particularly susceptible to fracture during an earthquake.
“The battle against climate change cannot be won without cities, but cities cannot do it alone.” Op-ed by Mauricio Rodas, GCoM Board Member and Mayor of Quito, Ecuador
Reports have shown that countries’ current commitments are not sufficient enough to meet the Paris Agreement goals of keeping global warming to 2°C above pre-industrial levels.
Now, the 1.5°C report by the Intergovernmental Panel on Climate Change (IPCC) has gone a step further, illustrating the devastating consequences for our world if we allow global warming to reach 2°C.
And this is especially true forurban populations,which remain highly vulnerable to the impacts ofclimate change,fromrising seas in coastal citiestodevastating droughtsin landlocked towns.
The good news is that there is a path to 1.5°C — but if we want to makedrastic transitionsin sectors that greatly impact emissions, such asbuildings, transportation and waste,cities are where those changes will be realized.
Recognizing the important role of local governments in addressing today’s most pressing global challenges, including climate change, cities in Group of Twenty (G20) member states, hosted the U20 Mayors Summit in Buenos Aires in October. During the summit, I had the opportunity to participate in a panel discussion about how tolocalize the Paris Agreementand the role of multi-level collaboration in improvinginvestments that support local climate ambition.
Located in Northern California, unincorporated Butte County contains approximately 1,680 square miles within the northeastern end of the Sacramento Valley, extending east into the northern Sierra Nevada foothills. Butte County is predominantly a rural area; urban land makes up less than 5% of the total county area. Weather is generally temperate and warm, with average lows dropping to just below 40 degrees Fahrenheit and summer highs ranging over 90 degrees Fahrenheit.1
Homes and businesses are dispersed throughout the unincorporated county, resulting in transportation activity typical for a rural, unincorporated county. Given the distribution of homes, businesses, and daily activities, driving in personal vehicles is common. Most of the building stock was constructed before adoption of California’s energy-efficient Title 24 building code in 1978. Similar to other rural counties, Butte County does not require a business license or maintain extensive building stock records.
Agriculture is a strong and growing sector of the Butte County economy, and occupied about 500,000 acres of unincorporated county land in 2012. According to the Agriculture Commission office, gross Butte County 2012 agricultural production totaled $721,434,000, an increase of over $77.3 million above 2011, and approximately 45% above the county’s 10-year average.2 Walnuts, almonds, and rice crops were among the highest-value crop types. Generally, agricultural activity has been shifting from field crops to higher-value nut crops that typically require less water and fertilizer. Agricultural businesses have taken steps to reduce costs and improve yields by reducing water and fertilizer use, both of which have GHG emissions reduction benefits. Agricultural innovation is a key foundation of the County’s economic strategy, and is also important to the success of the CAP.
Where this Plan Applies
The CAP provides GHG emissions reduction targets for both the unincorporated Butte County community, and for Butte County government operations. Figure 1 identifies the jurisdictional boundary of Butte County, which includes the cities of Biggs, Chico, Gridley, and Oroville, and the Town of Paradise. Butte County provides many services on a countywide basis, but has land use authority only over the unincorporated area, which is the focus of the CAP. The term “community” is used to refer to the unincorporated area.
Thousands of published studies show biological and health effects from
electromagnetic fields. We now know the mechanism that can explain these effects.
The mechanism is a function of the electromagnetics of each cell—not solely about
heating effects from the radiation (on which present FCC guidelines are based).
Reports have shown that countries’ current commitments are not sufficient enough to meet the Paris Agreement goals of keeping global warming to 2°C above pre-industrial levels.