Posts
THIS IS SERIOUS SHIT AND SEEMS TO BECOMING MORE REAL
I must admit to being impressed by Naomi Wolf’s discussion of geoengineering. She describes the connection between contrails and the strange changes in the skies people are noting around the world without ascribing to the term ‘chemtrails’ or trying to explain what she does not have direct evidence for.
Via Facebook
See our video about HR 353, discussed in Congress this week, which gives $111 million dollars to research for "the weather industry", does identify cloud behavior simulations as a field of study, and then hands over ALL of the tech and IP developed in this vast research funding bonanza, to "the weather industry" in a "tech transfer." Then read the link below which was on the cover of today's NYT Business section -- the Carnegie Foundation has just had a giant DC conference for -- guess who -- WEATHER scientists to MOVE AHEAD WITH GEOENGINEERING EXPERIMENTS and cloud spraying to protect the earth from global warming consequences -- rather than cutting carbon emissions. The writer notes that this policy is more appealing to a Trump presidency (weird creepy weather changing band-aid for warming) than actual cutting of carbon emissions. The feature posits that a global governance structure to basically run the geo-engineered weather, is a likely outcome.
I am not making this up. It is the front page of the business section of today's NYT -- the Carnegie Foundation funded this conference -- and you can see HR 353 for yourself on DailyClout.io soon and in the video here.
This narrative that I always assumed was right in the tinfoil hat category, is now fully documented and confirmed. Instead of investing in cutting carbon emissions and saving our precious planet, our government is handing over millions to the private sector for cloud pattern experimentation in real time, spraying of clouds to reflect back the sun's rays, and the creation of a vastly lucrative and powerful "weather industry" in private hands.
Should this bill pass? Yo there, bill sponsor, Sen. Maria Cantwell? Should there be a rider in it forbidding geoengineering? Use the BillCam have your say! Or should there be general laws AGAINST this kind of tampering with weather -- what the Times itself calls "geoengineering? today" Don't take my word for this jaw-dropping development. Read HR 353, and then read this very boosterish article about a tech that most Americans feel they should discuss thoroughly before having sprayed in their air. https://www.nytimes.com/…/geoengineering-climate-change.html
I must admit to being impressed by Naomi Wolf’s discussion of geoengineering. She describes the connection between contrails and the strange changes in the skies people are noting around the world without ascribing to the term ‘chemtrails’ or trying to explain what she does not have direct evidence for.
She
goes on to talk about the very real moves towards towards
geoengineering led by people like David Keith. This is no longer just a
theoretical option but is being actively researched althoough, as you
will see from the resources below, this is highly controversial.
The
following follows on my post from yesterday
Monetising
the weather – moves towards solar radiation management
ScopEx
May Soon Be Underway in Arizona -- Unnamed Material Sprayed in AZ
Stratosphere to "Unknown" Environmental Effect, Raising
Millions for Harvard
Geoengineering
not science fiction? And now about to be funded by HR 353?
Via Facebook
See our video about HR 353, discussed in Congress this week, which gives $111 million dollars to research for "the weather industry", does identify cloud behavior simulations as a field of study, and then hands over ALL of the tech and IP developed in this vast research funding bonanza, to "the weather industry" in a "tech transfer." Then read the link below which was on the cover of today's NYT Business section -- the Carnegie Foundation has just had a giant DC conference for -- guess who -- WEATHER scientists to MOVE AHEAD WITH GEOENGINEERING EXPERIMENTS and cloud spraying to protect the earth from global warming consequences -- rather than cutting carbon emissions. The writer notes that this policy is more appealing to a Trump presidency (weird creepy weather changing band-aid for warming) than actual cutting of carbon emissions. The feature posits that a global governance structure to basically run the geo-engineered weather, is a likely outcome.
I am not making this up. It is the front page of the business section of today's NYT -- the Carnegie Foundation funded this conference -- and you can see HR 353 for yourself on DailyClout.io soon and in the video here.
The
point of HR 353 is now clear. These MILLIONS in US taxpayers' money
is being directed to "academic partners" in global weather
experimentation, per both documents, and that in turn is going to
create a "US weather industry" of technology in private
sector hands, actually using military jets to spray clouds. See the
New York Times!!! And note it is on the Business section, not the
Science section.
This narrative that I always assumed was right in the tinfoil hat category, is now fully documented and confirmed. Instead of investing in cutting carbon emissions and saving our precious planet, our government is handing over millions to the private sector for cloud pattern experimentation in real time, spraying of clouds to reflect back the sun's rays, and the creation of a vastly lucrative and powerful "weather industry" in private hands.
Should this bill pass? Yo there, bill sponsor, Sen. Maria Cantwell? Should there be a rider in it forbidding geoengineering? Use the BillCam have your say! Or should there be general laws AGAINST this kind of tampering with weather -- what the Times itself calls "geoengineering? today" Don't take my word for this jaw-dropping development. Read HR 353, and then read this very boosterish article about a tech that most Americans feel they should discuss thoroughly before having sprayed in their air. https://www.nytimes.com/…/geoengineering-climate-change.html
This is the NY Times article Naomu refers to
Remember
“Snowpiercer”?
In
the delirious sci-fi thriller by the Korean director Bong Joon-ho, an
attempt to engineer the climate and stop global warming goes horribly
wrong. The planet freezes. Only the passengers on a train endlessly
circumnavigating the globe survive. Those in first class eat sushi
and quaff wine. People in steerage eat cockroach protein bars.
Scientists
must start looking into this. Seriously.
News
about the climate has become alarming over the last few months. In
December, startled scientists revealed that temperatures in some
parts of the Arctic had spiked more than 35
degrees Fahrenheit above their historical averages.
In March, others reported that sea ice in the Arctic had dropped
to its
lowest level on record.
A warming ocean has already killed
large chunks of Australia’s Great Barrier Reef.
Let’s
get real. The odds that these processes could be slowed, let alone
stopped, by deploying more solar panels and wind turbines seemed
unrealistic even before President Trump’s election. It is even less
likely now that Mr. Trump has gone to work undermining
President Barack Obama’s strategy to
reduce greenhouse gas emissions.
That
is where engineering the climate comes in. Last month, scholars from
the physical and social sciences who are interested in climate
change gathered
in Washington to
discuss approaches like cooling the planet by shooting aerosols into
the stratosphere or whitening clouds to reflect sunlight back into
space, which may prove indispensable to prevent the disastrous
consequences of warming.
Aerosols
could be loaded into military jets, to be sprayed into the atmosphere
at high altitude. Clouds at sea could be made more reflective by
spraying them with a fine saline mist, drawn from the ocean
The
world’s immediate priority may be to reduce greenhouse gas
emissions to meet and hopefully exceed the promises made at the
climate summit meeting in Paris in December 2015. But as Janos
Pasztor, who heads the Carnegie
Climate Geoengineering Governance Initiative,
told me, “The reality is that we may need more tools even if we
achieve these goals.”
Y
The
carbon dioxide that humanity has pumped into the atmosphere is
already producing faster, deeper changes to the world’s climate and
ecosystems than were expected not long ago. Barring some technology
that could pull it out at a reasonable cost — a long shot for the
foreseeable future, according to many scientists — it will stay
there for a long time, warming the atmosphere further for decades to
come.
The
world is
not cutting emissions fast enough to
prevent global temperatures from spiking into dangerous territory,
slashing crop yields and decimating food production in many parts of
the world, as well as flooding coastal cities while parching large
swaths of the globe, killing
perhaps millions of mostly poor people from
heat stress alone.
Solving
the climate imperative will require cutting greenhouse gas emissions
down to zero, ideally in this century, and probably sucking some out.
But solar geoengineering could prove a critical complement to
mitigation, giving humanity time to develop the political will and
the technologies to achieve the needed decarbonization.
With
Mr. Trump pushing the United States, the world’s second-largest
emitter after China, away
from its mitigation commitments,
geoengineering looks even more compelling.
“If
the United States starts going backwards or not going forward fast
enough in terms of emissions reductions, then more and more people
will start talking about these options,” said Mr. Pasztor, a former
United Nations assistant secretary general on climate change.
While
many of the scholars gathered in Washington expressed misgivings
about deploying geoengineering technologies, there was a
near-universal consensus on the need
to invest more in research —
not only into the power to cool the atmosphere but also into the
potential side effects on the atmosphere’s chemistry and on weather
patterns in different world regions.
While
it is known that solar radiation management can cool the atmosphere,
fears that field research would look too much like deployment have so
far limited research pretty much to computer modeling of its effects
and small-scale experiments in the lab.
Critically,
the academics noted, the research agenda must include an open,
international debate about the governance structures necessary to
deploy a technology that, at a stroke, would affect every society and
natural system in the world. In other words, geoengineering needs to
be addressed not as science fiction, but as a potential part of the
future just a few decades down the road.
“Today
it is still a taboo, but it is a taboo that is crumbling,” said
David Keith, a noted Harvard physicist who was an organizer of the
conclave.
Arguments
against geoengineering are in some ways akin to those made against
genetically modified organisms and so-called Frankenfood. It amounts
to messing with nature. But there are more practical causes for
concern about the deployment of such a radical technology. How would
it affect the ozone in the stratosphere? How would it change patterns
of precipitation?
Moreover,
how could the world agree on the deployment of a technology that will
have different impacts on different countries? How could the world
balance the global benefit of a cooling atmosphere against a huge
disruption of the monsoon on the Indian subcontinent? Who would make
the call? Would the United States agree to this kind of thing if it
brought drought to the Midwest? Would Russia let it happen if it
froze over its northern ports?
Geoengineering
would be cheap enough that even a middle-income country could deploy
it unilaterally. Some scientists have estimated that solar radiation
management could cool the earth quickly for as little as $5 billion
per year or so. What if the Trump administration decided to focus
American efforts to combat climate change on geoengineering alone?
That
wouldn’t work, in the end. If greenhouse gases were not removed
from the atmosphere, the world would heat up in a snap as soon as the
aerosol injections were turned off. Still, the temptation to combat
climate change on the cheap while continuing to exploit fossil fuels
could be hard to resist for a president who promised to revive coal
and has shown little interest in global diplomacy.
As
Scott Barrett, an environmental economist from Columbia University
who was at the meeting in Washington, noted, “The biggest challenge
posed by geoengineering is unlikely to be technical, but rather
involve the way we govern the use of this unprecedented technology.”
These
ethical considerations should be taken into account in any research
program into managing the rays of the sun. Perhaps researchers should
refrain from taking money from an American administration that denies
climate science, to avoid delegitimizing the technology in the eyes
of the rest of the world.
People
should keep in mind the warning by Alan Robock, a Rutgers University
climatologist, who argued that the worst case from the deployment of
geoengineering technologies might
be nuclear war.
But
it would be a mistake to halt research into this new technological
tool. Geoengineering might ultimately prove to be a bad idea for a
variety of reasons. But only further research can tell us that.
The
best way to think of the options ahead is as offering a balance of
risks. On one plate sit whatever pitfalls geoengineering might bring.
They might be preferable to the prospect of radical climate change.
Thinking in terms of delirious sci-fi fantasies, the trade-off won’t
necessarily be between cockroach protein bars and some happy future
of cheap, renewable energy. It is more likely to pit cockroach treats
against some dystopian, broiling world.
H.R.353 - Weather Research and Forecasting Innovation Act of 2017
https://www.congress.gov/bill/115th-congress/house-bill/353
Public Law No: 115-25 (04/18/2017)
(This
measure has not been amended since it was passed by the Senate on
March 29, 2017. The summary of that version is repeated here.)
Weather
Research and Forecasting Innovation Act of 2017
TITLE
I--UNITED STATES WEATHER RESEARCH AND FORECASTING IMPROVEMENT
(Sec.
101) This bill requires the National Oceanic and Atmospheric
Administration (NOAA) to prioritize weather research to improve
weather data, modeling, computing, forecasts, and warnings for the
protection of life and property and the enhancement of the national
economy.
(Sec.
102) NOAA's Office of Oceanic and Atmospheric Research (OAR) must
conduct a program to develop an improved understanding of forecast
capabilities for atmospheric events and their impacts, with priority
given to the development of more accurate, timely, and effective
warnings and forecasts of high impact weather events that endanger
life and property.
In
carrying out the program, the OAR must collaborate with and support
the nonfederal weather research community by making funds available
through competitive grants, contracts, and cooperative agreements.
Congress urges that at least 30% of the funds authorized for research
and development be made available for this purpose.
(Sec.
103) NOAA must establish a tornado warning improvement and extension
program to reduce the loss of life and economic losses from tornadoes
through the development and extension of accurate, effective, and
timely tornado forecasts, predictions, and warnings, including the
prediction of tornadoes beyond one hour in advance.
(Sec.
104) In collaboration with the U.S. weather industry and appropriate
academic entities, and through the National Weather Service (NWS),
NOAA must plan and maintain a project to improve hurricane
forecasting, including:
- the prediction of rapid intensification and track of hurricanes,
- the forecast and communication of storm surges from hurricanes, and
- risk communication research to create more effective watch and warning products.
(Sec.
105) The OAR must issue a research and development and research to
operations plan to restore and maintain U.S. leadership in numerical
weather prediction (processing weather data with computer models) and
forecasting.
(Sec.
106) NOAA must: (1) prioritize observation data requirements
necessary to ensure weather forecasting capabilities to protect life
and property to the maximum extent practicable; (2) evaluate
observing systems, data, and information needed to meet those
requirements; (3) identify data gaps in observing capabilities; and
(4) determine a range of options to address those gaps.
(Sec.
107) The OAR must undertake Observing System Simulation Experiments
(OSSE) to assess the value and benefits of observing capabilities and
systems.
OSSEs
must be conducted before: (1) acquisition of major government-owned
or government-leased operational observing systems with a lifecycle
cost of more than $500 million, and (2) purchase of any major new
commercially provided data with a lifecycle cost of more than $500
million.
The
OAR must complete an OSSE to assess the value of data from Global
Navigation Satellite System Radio Occultation and from a
geostationary hyperspectral sounder global constellation.
(Sec.
108) The bill requires an annual report on NOAA computing priorities
and upgrades as they relate to weather prediction.
(Sec.
109) The U.S. Weather Research Program must: (1) report annually to
Congress about on-going research projects and the five NOAA projects
related to observations, weather, or subseasonal forecasts closest to
operationalization; (2) establish teams with staff from the OAR and
the NWS to oversee the operationalization of research projects; (3)
develop mechanisms for research priorities of the OAR; (4) develop a
system to track research goals; (5) provide testing facilities; and
(6) facilitate visiting scholars.
(Sec.
110) The bill authorizes through FY2018: (1) the OAR's weather
laboratories and cooperative institutes and weather and air chemistry
research programs, and (2) a joint technology transfer initiative.
TITLE
II--SUBSEASONAL AND SEASONAL FORECASTING INNOVATION
(Sec.
201) The NWS must collect and utilize information to make reliable
and timely foundational forecasts of subseasonal and seasonal
temperature and precipitation. Subseasonal forecasting is forecasting
weather between two weeks and three months and seasonal forecasting
is between three months and two years.
TITLE
III--WEATHER SATELLITE AND DATA INNOVATION
(Sec.
301) NOAA must complete and operationalize the Constellation
Observing System for Meteorology, Ionosphere, and Climate (a weather
satellite program which develops observational techniques using
global navigation systems).
(Sec.
302) The bill permits the purchase of weather data by the federal
government through contracts with commercial providers and the
placement of weather satellite instruments on co-hosted government or
private payloads.
(Sec.
303) NOAA must avoid unnecessary duplication between public and
private sources of data and the corresponding expenditure of funds
and employment of personnel.
TITLE
IV--FEDERAL WEATHER COORDINATION
(Sec.
401) The NOAA Science Advisory Board must continue to maintain the
Environmental Information Services Working Group. Membership
requirements and reporting requirements for the group are
established.
(Sec.
402) The Office of Science and Technology Policy must establish an
Inter-agency Committee for Advancing Weather Services to improve
coordination of relevant weather research and forecast innovation
activities.
(Sec.
403) The OAR and the NWS may establish a program to detail their
personnel to each other with the goal of enhancing forecasting
innovation through regular, direct interaction between OAR scientists
and NWS operational staff.
(Sec.
404) The NWS may establish a program to host postdoctoral fellows and
academic researchers at the National Centers for Environmental
Prediction.
(Sec.
405) The NWS must designate warning coordination meteorologists at
each of its weather forecast offices.
(Sec.
406) NOAA must conduct an evaluation of its system for issuing
watches and warning regarding hazardous weather and water events.
(Sec.
407) The NWS may establish the NOAA Weather Ready All Hazards Award
Program. The program must provide annual awards to individuals or
organizations that use NOAA Weather Radio All Hazards receivers or
transmitters to save lives and protect property.
(Sec.
408) NOAA must analyze the impacts of the proposed Air Force
divestiture in the U.S. Weather Research and Forecasting Model,
including the impact on:
- U.S. weather forecasting capabilities,
- the accuracy of civilian regional forecasts,
- the civilian readiness for traditional and extreme weather events in the United States, and
- the research necessary to develop the Weather Research and Forecasting Model.
(Sec.
409) NOAA must contract or continue to partner with an external
organization to conduct a baseline analysis of the NWS operations and
workforce.
(Sec.
410) NOAA must submit a report to Congress on the use of contract
employees at the NWS.
(Sec.
411) The NWS must review existing research, products, and services
that meet the specific needs of the urban environment, including
those with the potential for improving modeling and forecasting
capabilities by taking into account factors such as varying building
heights, impermeable surfaces, lack of tree canopy, traffic
pollution, and inter-building wind effects.
(Sec.
412) NOAA may establish mechanisms for outreach to: (1) assess the
weather forecasts and forecast products provided by NOAA, and (2)
determine the highest priority weather forecast needs of specific
communities.
(Sec.
413) NOAA must enter into one or more agreements with public and
private entities to acquire backup for the WP-3D Orion and G-IV
hurricane aircraft that is sufficient to prevent a single point of
failure.
NOAA
must continue the development of the Airborne Phased Array Radar
under the U.S. Weather Research Program.
(Sec.
414) The Department of Commerce must complete a study, within 180
days of the enactment of this bill, on gaps in the coverage of the
NWS's Next Generation Weather Radar. Additionally, Commerce must
submit recommendations to Congress for improving hazardous weather
detection and forecasting coverage in areas of the United States
where limited or no Next Generation Weather Radar coverage has
resulted in insufficient warnings or degraded forecasts for hazardous
weather events.
TITLE
V--TSUNAMI WARNING, EDUCATION, AND RESEARCH ACT OF 2017
Tsunami
Warning, Education, and Research Act of 2017
The
bill also revises and reauthorizes through FY2021 the Tsunami Warning
and Education Act.
(Sec.
504) The tsunami warning systems for the Pacific and Arctic Oceans
and for the Atlantic Ocean are consolidated into a single warning
system. The system must support international tsunami forecasting and
warning efforts.
NOAA
must support or maintain tsunami warning centers to support the
national warning system and develop uniform operational procedures
for the centers. Warning centers are given additional
responsibilities, including maintaining a fail-safe warning
capability and an ability to perform back-up duties for each other.
(Sec.
505) The tsunami hazard mitigation program must provide for: (1)
technical and financial assistance; (2) activities to support the
development of regional hazard and risk assessments; (3) activities
to promote preparedness in at-risk ports and harbors; and (4)
dissemination of guidelines and standards for community planning,
education, and training products, programs, and tools.
(Sec.
506) The tsunami research program must develop the technical basis
for validation of tsunami maps, models, and forecasts.
NOAA
no longer has to operate an International Tsunami Information Center
to improve tsunami preparedness for Pacific Ocean nations.
(Sec.
508) NOAA must: (1) designate an existing working group to serve as
the Tsunami Science and Technology Advisory Panel to provide advice
on matters regarding tsunami science, technology, and regional
preparedness; (2) maintain a coordinating committee to assist in the
national tsunami hazard mitigation program; and (3) develop formal
outreach activities to improve tsunami education and awareness and
foster the development of resilient communities.
Could “cocktail geoengineering” save the climate?
Monday,
July 24, 2017
Carnegie
Science, Carnegie Institution, Carnegie Institution for Science, Ken
Caldeira
Washington,
DC— Geoengineering is a catch-all term that refers to various
theoretical ideas for altering Earth’s energy balance to combat
climate change. New research from an international team of
atmospheric scientists published by Geophysical Research Letters
investigates for the first time the possibility of using a “cocktail”
of geoengineering tools to reduce changes in both temperature and
precipitation caused by atmospheric greenhouse gases.
Carbon
dioxide emissions from the burning of coal, oil, and gas not only
cause the Earth to get hotter, they also affect weather patterns
around the world. Management approaches need to address both warming
and changes in the amount of rainfall and other forms of
precipitation.
So-called
solar geoengineering aims to cool the planet by deflecting some of
the Sun’s incoming rays. Ideas for accomplishing this include the
dispersion of light-scattering particles in the upper atmosphere,
which would mimic the cooling effect of major volcanic eruptions.
However,
climate-modeling studies have shown that while this scattering of
sunlight should reduce the warming caused by greenhouse gases in the
atmosphere, it would tend to reduce rainfall and other types of
precipitation less than would be optimal.
Another
approach involves thinning of high cirrus clouds, which are involved
in regulating the amount of heat that escapes from the planet to
outer space. This would also reduce warming, but would not correct
the increase in precipitation caused by global warming.
One
method reduces rain too much. Another method reduces rain too little.
This
is where the theoretical cocktail shaker gets deployed.
The
team—which includes Carnegie’s Ken Caldeira, Long Cao and Lei
Duan of Zhejiang University, and Govindasamy Bala of the Indian
Institute of Science—used models to simulate what would happen if
sunlight were scattered by particles at the same time as the cirrus
clouds were thinned. They wanted to understand how effective this
combined set of tools would be at reversing climate change, both
globally and regionally.
“As
far as I know, this is the first study to try to model using two
different geoengineering approaches simultaneously to try to improve
the overall fit of the technology,” Caldeira explained.
The
good news is that their simulations showed that if both methods are
deployed in concert, it would decrease warming to pre-industrial
levels, as desired, and on a global level rainfall would also stay at
pre-industrial levels. But the bad news is that while global average
climate was largely restored, substantial differences remained
locally, with some areas getting much wetter and other areas getting
much drier.
“The
same amount of rain fell around the globe in our models, but it fell
in different places, which could create a big mismatch between what
our economic infrastructure expects and what it will get,” Caldeira
added. “More complicated geoengineering solutions would likely do a
bit better, but the best solution is simply to stop adding greenhouse
gases to the atmosphere.”
Caldeira
said that the international collaboration of scientists (including
scientists from China and India) undertook this research as part of a
broader effort aimed at understanding the effectiveness and
unintended consequences of proposed strategies for reducing climate
change and its impacts.
27
Jamuary, 2018
OSLO
(Reuters) - The idea of spraying a haze of sun-dimming chemicals high
above the Earth as a quick way to slow global warming faces so many
obstacles that it may not be feasible, a leaked draft U.N. report
says.
The
U.N. review of a planetary sunshade, mimicking how a big volcanic
eruption can cool the planet with a veil of debris, is part of a
broad study of climate technologies ordered by almost 200 nations in
the 2015 Paris Agreement.
Proposals
by some scientists to spray chemicals such as sulfur high in the
atmosphere from aeroplanes have won more attention since Paris as a
relatively cheap fix, costing perhaps $1 billion to $10 billion a
year.
But
such geo-engineering may be “economically, socially and
institutionally infeasible,” according to a draft obtained by
Reuters covering hundreds of pages on risks of droughts, floods, heat
waves and more powerful storms.
The
draft, by the Intergovernmental Panel on Climate Change (IPCC) about
ways to limit warming to 1.5 degrees Celsius (2.7 Fahrenheit) above
pre-industrial times, is due for publication in October. It could
still change substantially, the IPCC said.
Problems
involved with “solar radiation management” include testing and
working out rules for a technology that could be deployed by a single
nation, or even a company, and might disrupt global weather patterns.
And
it “would result in an ‘addiction problem’; once started, it’s
hard to stop,” the draft says. A halt after several years could
lead to a jump in temperatures because greenhouse gases would
continue to build up in the atmosphere.
David
Keith, faculty director of Harvard University’s Solar
Geoengineering Research Program which is working for a tiny outdoor
experiment to dim sunshine, said there was a misguided “taboo”
against examining the technology.
“We
need a serious research effort to understand its risks and potential
benefits. Then we will be able to write informed assessments,” he
wrote in an e-mail.
But
many scientists are skeptical.
“To
deploy it safely ... would take many decades,” said Myles Allen, a
professor of geosystem science at Oxford University. He said it was
“completely misleading” to suggest it could be an easy short-cut
to slow warming.
Given
the long time needed for research, it would be better to focus on
ways to limit greenhouse emissions, he said. Allen said he was giving
his personal views, not of the IPCC draft of which he is an author.
The
draft also says rising temperatures could breach 1.5C by mid-century
unless governments take unprecedented action. The Paris Agreement has
been weakened by U.S. President Donald Trump’s plan to withdraw.
Scholars
from developing countries call for greater say in solar
geoengineering research, arguing poor nations have most at stake
In
a leaked draft of a report about global warming due for publication
in October, a UN panel of climate experts express
scepticism about solar geoengineering,
suggesting it may be “economically, socially and institutionally
infeasible”.
This is from today
This is from today
Air Quality Emergency Over NYC: Particulate Sprays Blocking Sun
Dr
Naomi Wolf has been reporting on geoengineering on DailyClout - new
tech such as solar radiation management, that stands to generate
billions for IP holders but may damage human health and environment.
White plumes that are not ordinary emissions have been covering blue
sky in Manhattan since Nov 2017. Are these biofuels...SRM...ordinary
contrails that climate change or pollution is affecting in
extraordinary ways...cloud-seeding
..or
some other tech? White cirrus type clouds can be caused by manmade
pollutants; Dr Wolf shows how the emissions are blocking sun and
affecting the solar industry
Here is some more from Naomi Wolf's Daily Clout
Here is some more from Naomi Wolf's Daily Clout
No comments:
Post a Comment
Note: only a member of this blog may post a comment.