Extensive
Proof of
Government Involvement
For the
past few years investigators and researchers have
been searching for hard evidence on the
elusive phenomena of
chemtrail spraying. If one searches
Google News for articles
on chemtrails in (with 4500 periodicals
represented) not one
article will be found. There is simply
no coverage on this
topic in the mainstream media.
Imagine our
surprise when we discovered extensive proof of
government involvement, funding,
sponsorship, multidisciplinary research, policy making and implementation of global
atmospheric modification under the
classification of 'Geo-
engineering.' This is the chemtrail smoking gun we have been
looking for.
Authorized
by Congress and sponsored by the National Academy
of Sciences, a monumental and in-depth
study on global
warming and possible corrective
measures (mitigation) was
undertaken in the early 1990s.
Represented were senior
researchers, faculty, theoreticians,
atmospheric scientists,
department heads and CEO's from a
multitude of prestigious
institutions. The Smithsonian, Harvard,
General Motors,
Cambridge, MIT, Yale, World Resources
Institute, National
Center for Atmospheric Research, the
Secretary General of
the United Nations, Oxford, Brookings
Institution, Columbia
University, Oak Ridge National
Laboratory, Carnegie-Mellon
University, Princeton University, Brown
University, Lawrence
Livermore Laboratory, and many more.
This colossal study
recalls the scope, expense and secrecy
of the Manhattan
Project, yet the goals and eventual
impacts of it are far
greater.
THE
CHEMTRAIL SMOKING GUN; Proof of global atmospheric geo-engineering
by: Bruce Conway
"There
are more things in heaven and Earth, Horatio, than are dreamt in your
philosophy." - Shakespeare
Five years
ago I founded the Chemtrails Hall of Shame web site to
document and investigate the elusive
Chemtrail spraying operations in
the skies above my home in the Pacific
NW. The site can be found at:
http://www.lightwatcher.com/
During this
time I have had the opportunity to work with and befriend
several of the luminaries within this
field of investigation: Diane
Harvey, Brian Holmes and a very special
investigator who chooses to
remain anonymous in this article. Each
of these individuals has
contributed greatly to the subject,
keeping this topic alive within
the alternative media . These chemtrail
spraying programs, which are
apparently being conducted on a
worldwide basis, are evident to anyone
who has the desire to look up and
perceive the evidence. Yet,
definitive proof has remained elusive.
Total denial by governmental
authorities, the shunning of this topic
by mainstream media, the systematic
discreditation of researchers,
ongoing cover-ups by the scientific
establishment, and a coordinated
systematic policy of disinformation has
relegated this topic to the
realm of fantasy and paranoid delusion.
Regardless, it continues to go
on above our heads, and has now grown
to become the largest
coordinated global engineering project
in the history of our species.
How can I
make such a preposterous claim?
Brian
Holmes of http://www.holmestead.ca/ has investigated these
eco-crimes for the past several years.
Because of his efforts, many
within Canada and on the net have
become aware of the ongoing spraying
operations. Like other serious
investigators who have studied this
phenomena, Brian's work has been
maligned, and there are ongoing
attempts to discredit him and his
sources.
Some months
ago, a Chemtrail insider that Brian nicknamed 'Deep
Shield' came forward with specific and
detailed information about this
mysterious program, corresponding with
him via e-mail. A transcript of
the communications with Deep Shield and
the Shield Project can be read
online at
http://www.holmestead.ca/chemtrails/shieldproject.html. For those of
us who have studied chemtrails
carefully, the revealing dialog rang of
the truth.
Since then
we have been able to study, and verify a number of Deep
Shield's primary claims. The anonymous
insider gave Brian's readers
some valuable clues to follow if they
wished to investigate deeper
into the history and hard science of
chemtrails. A primary clue was to
investigate the term 'geoengineering.'
One
investigator took the clues provided by 'Deep Shield' and dug in.
She eventually found an N.A.S. study on
Geoengineering and the
Mitigation of Global Warming. This
study is still available online and
is also available in hardcover. This
massive document validates the
insider information provided by Deep
Shield, and has lead to an
additional gold mine of evidence.
This
massive research study is entitled: Policy Implications of
Greenhouse Warming: Mitigation,
Adaptation, and the Science Base -
Panel on Policy Implications of
Greenhouse Warming, sponsored by the
National Academy of Sciences, National
Academy of Engineering, and the
Institute of Medicine. The results were
presented in 1992 and
published in book form in 2000 by the
National Academy Press. This 994
page study is the textbook on
greenhouse gasses, global warming,
policy decisions and mitigation's
(corrective measures). Included
within is the hard science many
chemtrails researchers have been
searching for: the scientists,
agencies, institutions and corporations
involved, cost factors, chemical
formula, mathematical modeling,
delivery methods, policies, recruiting
of foreign governments,
acquisition of materials, and the
manufacturing of aerosol compounds,
etc.
Policy
Implications of Global Warming This entire volume can presently
be read online at:
http://books.nap.edu/books/0309043867/html/index.html.
Keep in mind
that this study is only the tip of the
iceberg. Literally hundreds of
papers on related topics have been
published in scientific journals.
We don't expect this featured study to
remain online for long once the
cat is out of the bag. So do check it
out soon.
The full
involvement of foremost government agencies, research firms,
universities and private corporations
are detailed in this global
'geoengineering' study. Keep in mind
that this was approved by and
funded by Congress. We expect that this
documentation will bolster the
beliefs of most hardcore chemtrail
believers. It will also continue
undermining what little trust still
remains in our leaders and their
institutions. This documentation proves
that they have lied repeatedly
about their involvement and the
existence of chemtrail spraying
programs.
It also
appears that we 'Chemtrail' investigators have been chasing
our tails, being intentionally
discredited, maligned, and fed
disinformation to keep the actual truth
just below the levels of media
perception. The real story has been
taking place in broad daylight,
safely concealed under the scientific
umbrella of 'Geoengineering and
intentional climate change.'
Chemtrails
are just one of the 'mitigations' proposed to
Geoengineering our planet. Once we
began sifting through the numerous
studies, experiments and papers written
on intentional climate change,
we found a wealth of supporting
evidence of well funded global
atmospheric modification programs. One
such paper is Geoengineering: A
Climate Change Manhattan Project
http://www.metatronics.net/lit/geo2.html#two
(Jay Michaelson,
published in the Stanford Environmental
Law Journal, January, 1998)
The author
makes a very convincing case for the pressing need of
undertaking geoengineering projects. He
argues that regulation,
environmental laws and other stumbling
blocks limit our ability to
directly address the dangers that
threaten us directly and
immediately. He writes: "The
projected insufficiency of Kyoto's
emission reduction regime, and the
problems of absence, cost, and
incentives discussed in part II, cry
out for an alternative to our
present state of climate change policy
myopia."
"Geoengineering--intentional,
human-directed manipulation of the
Earth's climatic systems--may be such
an alternative. This part
proposes that, unlike a regulatory
"Marshall Plan" of costly emissions
reductions, technology subsidies, and
other mitigation measures, a
non-regulatory "Manhattan
Project" geared toward developing feasible
geoengineering remedies for climate
change can meaningfully close the
gaps in global warming and avert many
of its most dire consequences."
"In
some ways, this phase has already begun, as geoengineering has
moved from the pages of science fiction
to respectable scientific and
policy journals. [FN127] One of the
most encouraging proposals today
focuses on the creation of vast carbon
sinks by artificially
stimulating phytoplankton growth with
iron "fertilizer" in parts of
the Earth's oceans. [FN128] Another
proposal suggests creating
miniature, *106 artificial "Mount
Pinatubos" by allowing airplanes to
release dust particles into the upper
atmosphere, simulating the
greenhouse- arresting eruption of Mount
Pinatubo in 1991. [FN129]" pp.
105-106, Geoengineering: A Climate
Change Manhattan Project."
In Policy
Implications of Greenhouse Warming: Mitigation, Adaptation,
and the Science Bases conclusion, the
N.A.S. found that the most
effective global warming mitigation
turned out to be the spraying of
reflective aerosol compounds into the
atmosphere utilizing commercial,
military and private aircraft. This
preferred mitigation method is
designed to create a global atmospheric
shield which would increase
the planet's albedo (reflectivity)
using aerosol compounds of aluminum
and barium oxides, and to introduce
ozone generating chemicals into
the atmosphere.
This method
was the most cost effective, and yielded the largest
benefits. It could also be conducted
covertly to avoid the burdens of
environmental protection and regulatory
entanglements.
It is
evident to anyone who cares to look up, that this mitigation is
now being conducted worldwide and on a
daily basis. It is certain that
our leaders have already embarked on an
immense geoengineering
project; one in which they expect
millions of human fatalities, and
consider these to be acceptable losses.
This
landmark study; the widespread experimentation and published
papers of atmospheric theorists and
scientists, combined with the
visual evidence that atmospheric
mitigations are being conducted in
our skies, clearly shows that Chemtrail
spraying has became a
preferred solution to global warming
mitigation.
The
evidence is all around us. For example; this past week Boeing
Aircraft received an enormous initial
order from the Pentagon for 100
Boeing 767 tanker planes, to begin
replacing the Air Force's aging
fleet of KC-135s, the most commonly
seen chemtrail spray plane. The
final order will exceed 500 planes.
There has been no mention of the
usage of these aircraft.
Geoengineering
is being carried on Earth on a staggering scale,
without the impediment of environmental
laws or regulatory
constraints. This grand experiment is
being conducted in full view,
while being concealed in plain sight.
The
following excerpts detail the preferred geoengineering Mitigations
for reducing greenhouse gasses, global
warming and radiation from
space. Quoted from: Policy Implications
of Greenhouse Warming:
Mitigation, Adaptation, and the Science
Base - Panel on Policy
Implications of Greenhouse Warming
Evaluating
Geoengineering Options
"Several geoengineering options
appear to have considerable potential
for offsetting global warming and are
much less expensive than other
options being considered. Because these
options have the potential to
affect the radiative forcing of the
planet, because some of them cause
or alter a variety of chemical
reactions in the atmosphere, and
because the climate system is poorly
understood, such options must be
considered extremely carefully. These
options might be needed if
greenhouse warming occurs, climate
sensitivity is at the high end of
the range considered in this report,
and other efforts to restrain
greenhouse gas emissions fail."
"The
first set of geoengineering options screens incoming solar
radiation with dust or soot in orbit
about the earth or in the
atmosphere. The second set changes
cloud abundance by increasing cloud
condensation nuclei through carefully
controlled emissions of
particulate matter."
Screening
Out Some Sunlight
"Another
option for mitigating a global warming would be to try to
control the global radiation balance by
limiting the amount of
incoming radiation from the sun. This
could be done by increasing the
reflectivity of the earth, i.e., the
albedo. Proposals for increasing
the whiteness of roofs and surface
features would have some effect,
but only a fraction of incident solar
radiation reaches the earth's
surface and a purposeful change in
albedo would have more impact if
done high in the atmosphere. According
to Ramanathan (1988), an
increase in planetary albedo of just
0.5 percent is sufficient to
halve the effect of a CO2 doubling.
Placing a screen in the atmosphere
or low earth orbit could take several
forms: it could involve changing
the quantity or character of cloud
cover, it could take the form of a
continuous sheet, or it could be
divided into many ''mirrors" or a
cloud of dust. Preliminary
characterizations of some of the
possibilities that might be considered
are provided below."
Stratospheric
Dust
"Although
the space dust option does not appear to be sensible,
computations of the residence times of
0.2-½m dust above 20 to 40 km
are of the order of 1 to 3 years
(Hunten, 1975). It seems to be
generally accepted that volcanic
aerosols remain in the stratosphere
for several years (Kellogg and
Schneider, 1974; Ramaswamy and Kiehl,
1985). A screen could be created in the
stratosphere by adding more
dust to the natural stratospheric dust
to increase its net reflection
of sunlight."
Mass
Estimates
"Ramaswamy
and Kiehl (1985) estimate that an aerosol dust loading of
0.2 g/m2 for dust with a radius of
about 0.26 ½m increases the
planetary albedo by 12 percent,
resulting in a 15 percent decrease of
solar flux reaching the surface. Since
an approximately 1 percent
change in solar flux is required, and
their Figures 13 and 15 suggest
that, at these loadings, the dust
effects may reasonably be
extrapolated downward linearly,
estimates will be made by using a dust
loading of 0.02 g/m2 with a particle
radius of 0.26 �m."
"The
dust in Ramaswamy and Kiehl's model is distributed between 10 and
30 km in the stratosphere, uniformly
over the globe. The actual effect
on radiative forcing of a global
distribution of additional dust would
be somewhat greater at low than at high
latitudes because more of the
sunlight is effective there for
geometric reasons. This would decrease
slightly the equator-to-pole
temperature gradients and might have some
effect on weather intensity.
Presumably, this effect can also be
studied with global climate
models."
Delivery
Scenarios
"Aircraft
Exhaust Penner et al. (1984) suggested that emissions of 1
percent of the fuel mass of the
commercial aviation fleet as
particulates, between 40,000- and
100,000-foot (12- to 30-km) altitude
for a 10-year period, would change the
planetary albedo sufficiently
to neutralize the effects of an
equivalent doubling of CO2. They
proposed that retuning the engine
combustion systems to burn rich
during the high-altitude portion of
commercial flights could be done
with negligible efficiency loss. Using
Reck's estimates of extinction
coefficients for particulates (Reck,
1979a, 1984), they estimated a
requirement of about 1.168 ½ 1010 kg
of particulates, compared with
the panel's estimate of 1010 kg, based
upon Ramaswamy and Kiehl
(1985). They then estimated that if 1
percent of the fuel of aircraft
flying above 30,000 feet is emitted as
soot, over a 10-year period the
required mass of particulate material
would be emitted.
However,
current commercial aircraft fleets seldom operate above
40,000 feet (12 km), and the lifetimes
of particles at the operating
altitudes will be much shorter than 10
years."
"An
alternate possibility is simply to lease commercial aircraft to
carry dust to their maximum flight
altitude, where they would
distribute it. To make a cost estimate,
a simple assumption is made
that the same amount of dust assumed
above for the stratosphere would
work for the tropopause (the boundary
between the troposphere and the
stratosphere). The results can be
scaled for other amounts. The
comments made above about the possible
effect of dust on stratospheric
ozone apply as well to ozone in the low
stratosphere, but not in the
troposphere. The altitude of the
tropopause varies with latitude and
season of the year."
"In
1987, domestic airlines flew 4,339 million ton-miles of freight
and express, for a total express and
freight operating revenue of
$4,904 million (U.S. Bureau of the
Census, 1988). This gives a cost of
slightly more than $1 per ton-mile for
freight. If a dust distribution
mission requires the equivalent of a
500-mile flight (about 1.5
hours), the delivery cost for dust is
$500/t, and ignoring the
difference between English and metric
tons, a cost of $0.50/kg of
dust. If 1010 kg must be delivered each
83 days, (provided dust falls
out at the same rate as soot), 5 times
more than the 1987 total
ton-miles will be required."
"The
question of whether dedicated aircraft could fly longer distances
at the same effective rate should be
investigated."
Changing
Cloud Abundance - The Approach
"Independent
studies estimated that an approximately 4 percent
increase in the coverage of marine
stratocumulus clouds would be
sufficient to offset CO2 doubling
(Reck, 1978; Randall et al., 1984).
Albrecht (1989) suggests that the
average low-cloud reflectivity could
be increased if the abundance of cloud
condensation nuclei (CCN)
increased due to emissions of SO2. It
is proposed that CCN emissions
should be released over the oceans,
that the release should produce an
increase in the stratocumulus cloud
albedo only, and that the clouds
should remain at the same latitudes
over the ocean where the surface
albedo is relatively constant and
small."
"Albrecht
(1989) estimates that a roughly 30 percent increase in CCN
would be necessary to increase the
fractional cloudiness or albedo of
marine stratocumulus clouds by 4
percent. Albrecht's idealized
stratocumulus cloud, which he argues is
typical, has a thickness of
375 m, a drizzle rate of 1 mm per day,
and a mean droplet radius of
100 mm, and he assumes that each
droplet is formed by the coalescence
of 1000 smaller droplets. The rate at
which the CCN are depleted by
his model is 1000/cm3 per day.
Consequently, about 300/cm3 per day (30
percent of 1000) of additional CCN
would have to be discharged per day
at the base of the cloud to maintain a
4 percent increase in
cloudiness. This assumes that the
perturbed atmosphere would also
remain sufficiently close to saturation
in the vicinity of the CCN
that additional cloud cover would be
formed every time the number of
CCN increased."
Mass
Estimates of Cloud Condensation Nuclei
"With
Albrecht's assumption in mind that cloudiness in a typical ocean
region is limited by the small number
of CCN, we now extrapolate to
the entire globe. On the average, 31.2
percent of the globe is covered
by marine stratiform clouds (Charlson
et al., 1987). If no high-level
clouds are present, the number n of CCN
that need to be added per day
is 1.8 ½ 1025 CCN/day. The mass of a
CCN is equal to 4/3pr3 ½ density,
and it is assumed that the mean radius
r is equal to 0.07 ½ 10-4 cm
(Charlson et al., 1987). Because the
density of sulfuric acid (H2SO4)
is 1.841 g/cm3, the CCN mass is 2.7 ½
10-15 g. The total weight of
H2SO4 to be added per day is 31½ 103 t
per day SO2 if all SO2 is
converted to H2SO4 CCN.
To put this
number in perspective, a medium-sized coal-fired U.S.
power plant emits about this much SO2
in a year. Consequently, the
equivalent emissions of 365 U.S.
coal-burning power plants,
distributed homogeneously, would be
needed to produce sufficient CCN."
"Cloud
stimulation by provision of cloud condensation nuclei appears
to be a feasible and low-cost option
capable of being used to mitigate
any quantity of CO2 equivalent per
year. Details of the cloud physics,
verification of the amount of CCN to be
added for a particular degree
of mitigation, and the possible acid
rain or other effects of adding
CCN over the oceans need to be
investigated before such system is put
to use. Once a decision has been made,
the system could be mobilized
and begin to operate in a year or so,
and mitigation effects would be
immediate. If the system were stopped,
the mitigation effect would
presumably cease very rapidly, within
days or weeks, as extra CCN were
removed by rain and drizzle."
"Several
schemes depend on the effect of additional dust compounds in
the stratosphere or very low
stratosphere screening out sunlight. Such
dust might be delivered to the
stratosphere by various means,
including being fired with large rifles
or rockets or being lifted by
hydrogen or hot-air balloons. These
possibilities appear feasible,
economical, and capable of mitigating
the effect of as much CO2
equivalent per year as we care to pay
for. (Lifting dust, or soot, to
the tropopause or the low stratosphere
with aircraft may be limited,
at low cost, to the mitigation of 8 to
80 Gt CO2 equivalent per year.)
Such systems could probably be put into
full effect within a year or
two of a decision to do so, and
mitigation effects would begin
immediately. Because dust falls out
naturally, if the delivery of dust
were stopped, mitigation effects would
cease within about 6 months for
dust (or soot) delivered to the
tropopause and within a couple of
years for dust delivered to the
midstratosphere."
"Sunlight
screening systems would not have to be put into practice
until shortly before they were needed
for mitigation, although
research to understand their effects,
as well as design and
engineering work, should be done now so
that it will be known whether
these technologies are available if
wanted."
"Perhaps
one of the surprises of this analysis is the relatively low
costs at which some of the
geoengineering options might be
implemented."
(end of
excerpts)
Following
is a partial list of those involved in this monumental study:
(former
Senator) DANIEL J. EVANS
(Chairman),
Chairman, Daniel J. Evans & Associates, Seattle, Washington
ROBERT
McCORMICK ADAMS, Secretary, Smithsonian Institution, Washington, D.C.
GEORGE F.
CARRIER, T. Jefferson Coolidge Professor of Applied
Mathematics, Emeritus, Harvard
University, Cambridge, Massachusetts
RICHARD N.
COOPER, Professor of Economics, Harvard University,
Cambridge, Massachusetts
ROBERT A.
FROSCH, Vice President, General Motors Research
Laboratories, Warren, Michigan
THOMAS H.
LEE, Professor Emeritus, Department of Electrical
Engineering and Computer Science,
Massachusetts Institute of
Technology, Cambridge, Massachusetts
JESSICA
TUCHMAN MATHEWS, Vice President, World Resources Institute,
Washington, D.C.
WILLIAM D.
NORDHAUS, Professor of Economics, Yale University, New
Haven, Connecticut
GORDON H.
ORIANS, Professor of Zoology and Director of the Institute
for Environmental Studies, University
of Washington, Seattle
STEPHEN H.
SCHNEIDER, Head, Interdisciplinary Climate Systems,
National Center for Atmospheric
Research, Boulder, Colorado
MAURICE
STRONG, Secretary General, United Nations Conference on
Environment and Development, New York
(resigned from panel February
1990)
SIR CRISPIN
TICKELL, Warden, Green College, Oxford, England
VICTORIA J.
TSCHINKEL, Senior Consultant, Landers, Parsons and
Uhlfelder, Tallahassee, Florida
PAUL E.
WAGGONER, Distinguished Scientist, The Connecticut
Agricultural Experiment Station, New
Haven
PETER
BREWER, Executive Director, Monterey Bay Aquarium and Research
Center, Pacific Grove, California
RICHARD N.
COOPER, Professor of Economics, Harvard University,
Cambridge, Massachusetts
ROBERT
CRANDALL, Senior Fellow, Brookings Institution, Washington, D.C.
ROBERT
EVENSON, Professor of Economics, Yale University, Economic
Growth Center, New Haven, Connecticut
DOUGLAS
FOY, Executive Director, Conservation Law Foundation, Boston,
Massachusetts
ROBERT A.
FROSCH, Vice President, General Motors Research
Laboratories, Warren, Michigan
RICHARD
GARWIN, Fellow, Thomas J. Watson Research Center, Yorktown
Heights, New York, and Adjunct
Professor of Physics, Columbia
University, New York
JOSEPH
GLAS, Director, Vice President, and General Manager,
Fluorochemicals Division, E.I. du Pont,
Wilmington, Delaware
KAI N. LEE,
Professor and Director, Center for Environmental Studies,
Williams College, Williamstown,
Massachusetts
GREGG
MARLAND, Scientist, Environmental Science Division, Oak Ridge
National Laboratory, Oak Ridge,
Tennessee
JESSICA
TUCHMAN MATHEWS, Vice President, World Resources Institute,
Washington, D.C.
ARTHUR H.
ROSENFELD, Professor of Physics, University of California,
Berkeley, and Director, Center for
Building Science, Lawrence Berkeley
Laboratory, Berkeley, California
EDWARD S.
RUBIN, Professor, Mechanical Engineering and Public Policy,
and Director, Center for Energy and
Environmental Studies,
Carnegie-Mellon University, Pittsburgh,
Pennsylvania
MILTON
RUSSELL, Professor of Economics and Senior Fellow, University
of Tennessee, Knoxville, and
Collaborating Scientist, Oak Ridge
National Laboratory, Oak Ridge,
Tennessee
STEPHEN H.
SCHNEIDER, Head, Interdisciplinary Climate Systems,
National Center for Atmospheric
Research, Boulder, Colorado
EUGENE B.
SKOLNIKOFF, Professor of Political Science, Massachusetts
Institute of Technology, Cambridge
THOMAS H.
STIX, Professor, Department of Astrophysics and Plasma
Physics Laboratory, Princeton
University, Princeton, New Jersey
EDITH BROWN
WEISS, Professor of Law, Georgetown University,
Washington, D.C. (resigned from panel
October 1990)
GEORGE F.
CARRIER (Chairman), T. Jefferson Coolidge Professor of
Applied Mathematics, Harvard
University, Cambridge, Massachusetts
WILFRIED
BRUTSAERT, Professor of Hydrology, Civil and Environmental
Engineering, Cornell University,
Ithaca, New York
ROBERT D.
CESS, Leading Professor, State University of New York, Stony Brook
HERMAN
CHERNOFF, Professor of Statistics, Harvard University,
Cambridge, Massachusetts
ROBERT E.
DICKINSON, Professor, Institute of Atmospheric Physics,
Department of Atmospheric Sciences,
University of Arizona, Tucson
JOHN
IMBRIE, H.L. Doherty Professor of Oceanography, Department of
Geological Sciences, Brown University,
Providence, Rhode Island
THOMAS B.
KARL, Meteorologist, Climate Research and Applications,
National Climate Data Center,
Asheville, North Carolina
MICHAEL C.
MacCRACKEN, Physicist and Division Leader, Atmospheric and
Geophysical Sciences, Lawrence
Livermore Laboratory, University of
California, Livermore
BERRIEN
MOORE, Professor and Director, Institute for the Study of
Earth, Oceans, and Space, University of
New Hampshire, Durham
Staff
ROB
COPPOCK, Staff Director
DEBORAH D.
STINE, Staff Officer
NANCY A.
CROWELL, Administrative Specialist
MARION R.
ROBERTS, Administrative Secretary
Papers of
special interest to Chemtrail Investigators
Jay
Michaelson 1998 Geoengineering: A climate change Manhattan Project
- Stanford Environmental Law Journal
January -
http://www.metatronics.net/lit/geo2.html#two
Edward
Teller (director emeritus, Lawrence Livermore National
Laboratory), "The Planet Needs a
Sunscreen" Wall Street Journal,
October 17, 1997. -
http://www.ncpa.org/pi/enviro/envpd/pdenv125.html
Climate
Change 2001: Working Group III: Mitigation - by the
Intergovernmental Panel on Climate
Change -
http://www.grida.no/climate/ipcc_tar/wg3/index.htm
Ramanathan,
V. 1988. The greenhouse theory of climate change: A test
by an inadvertent experiment. Science
243:293-299
http://www.gfdl.gov/~gth/netscape/authors/ramaswamy.html
Schimel,
D., D. Alves, I. Enting, M. Heimann, F. Joos, D. Raynaud, T.,
Wigley, M.
Prather, R. Derwent, D. Ehhalt, P. Fraser, E. Sanheuza, X.,
Zhou, P.
Jonas, R. Charlson, H. Rodhe, S., Sadasivan, K. P. Shine, Y.
Fouquart,
V. Ramaswamy, S. Solomon, J., Srinivasan, D. Albritton, I.
Isaksen, M.
Lal, and D. Wuebbles, 1996: Radiative forcing of climate
change. In
Climate Change 1995: The Science of Climate Change,
Cambridge:
Cambridge University Press, 69-131.
http://www.gfdl.gov/~gth/netscape/authors/ramaswamy.html
Ramaswamy,
V., R. J. Charlson, J. A. Coakley, J. L. Gras,
Harshvardhan,
G. Kukla, M. P. McCormick, D. Moller, E. Roeckner, L. L.
Stowe, and
J. Taylor, 1995: Group report: what are the observed and
anticipated meteorological and climatic
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==================================================================
EXPERIMENTAL
WEATHER MODIFICATION BILL ON FAST TRACK
By Rosalind
Peterson
January 16,
2006
NewsWithViews.com
U.S. Senate
Bill 517 and U.S. House Bill 2995, a bill that would allow
experimental weather modification by
artificial methods and implement a
national weather modification policy,
does not include agriculture or
public oversight, is on the fast track
to be passed early in 2006.
This bill
is designed to implement experimental weather modification.
The appointed Board of Directors
established by this bill does not
include any agricultural, water, EPA,
or public representatives, and has
no provisions for Congressional, State,
County, or public oversight of
their actions or expenditures.
Weather
Modification may adversely impact agricultural crops and water
supplies. If the weather is changed in
one state, region or county it
may have severe consequences in another
region, state or county. And who
is going to decide the type of weather
modification experimentation and
who it will benefit or adversely
impact?
This
experimental weather modification bill will impact residents across
the United States, not just in
California. Many current and ongoing
weather modification programs (47
listed by NOAA in 2005), including the
one in Wyoming that is designed to
increase the snowpack, may be
diverting rainwater away from Oklahoma
and Texas, two states that are
currently fighting fires caused by a
lack of rainfall. We have no idea
what the unintended consequences of the
Wyoming action or other
experimental weather modification
programs might be now or in the future.
In addition
to the experimental weather modification programs listed by
NOAA, there are both private and
ongoing government sponsored
atmospheric testing and heating
programs underway in Alaska and across
the United States. Alaska Senator
Stevens recently received $50 million
in funding for Alaska's atmospheric
heating program.
All of
these unregulated, private, government, and public weather
modification programs, may also have
unintended synergistic effects.
Senate Bill 517 does not address these
issues but intends to implement
more experimental weather modification
programs without a national
debate or public oversight.
Artificial
weather modification can impact all of us by reducing water
supplies, changing agricultural crop
production cycles, reducing crop
production, and water availability.
Since most experimental weather
modification programs use chemicals
released into the atmosphere the
public could be subjected increasingly
toxic or unknown substances that
could adversely impact agricultural
crops and trees.
Trimethyl
Aluminum (TMA) and barium are just two of the toxic chemicals
used in recent atmospheric heating and
testing programs according to
NASA. The Alaska H.A.A.R.P. atmospheric
heating program may have the
capability of changing the Jet Stream
which could also change our weather.
Many
private weather modification companies admit that precipitation
effects may be positive or negative.
Fog dispersal programs, using dry
ice, liquid nitrogen, liquid propane or
silver iodide may improve
visibility while adversely impacting
Redwood Trees along the California
coast by depriving them of needed water
they derive from the fog.
The
increasing use of varied chemicals like aluminum (coupled with
increasing air pollution), can severely
impact tree health by depriving
trees of water and nutrients normally
absorbed through their root systems.
The
December 2005 Popular Science Magazine discussed a plan to use an
oil slick to stop hurricanes without
noting the adverse environmental
impacts of the oil used to cover the
ocean.
Popular
Science also noted that a private company, Dyn-O-Mat, plans to
purchase jets to drop thousands of
pounds of a water absorbing chemical
powder (unknown substance), into
hurricanes to absorb moisture that may
dissipate hurricanes. There is no
agriculture oversight or public
hearings to determine the consequences
of this and other actions or to
monitor or prevent adverse impacts of
this chemical once it falls on the
surface of the ocean or on land.
Alaska and
other areas across the United States are beginning to feel
the impacts of climate change. Enormous
changes are being seen in the
declining health of native plant and
tree communities in many areas
across the United States.
NASA noted
in an October 2005 newsletter that increasingly persistent
contrails are trapping warmth in the
atmosphere and exacerbating
global warming NASA goes on to note
that: Any increase in global
cloud cover will contribute to
long-term changes in Earth's climate.
Likewise, any change in Earth's climate
may have effects on natural
resources.
Global
dimming and persistent contrails that produce man-made clouds may
have serious impacts on crop
production. A recent corn crop study in
Illinois shows that cloud cover reduces
corn crop production while
direct sunlight increases production.
In addition, increasing man-made
clouds may reduce the effectiveness of
solar panels.
Gil Smolin,
an Avian Bird Flu expert, noted on the Ron Owens Show on KGO
Radio (January 5, 2006), that the flu
was spread more quickly in the
winter when there was a lack of
sunlight. Would man-made clouds be
contributing to the lack of sunlight
which might cause the Avian Bird
flu to spread more quickly at other
times of the year? Experimental
weather modification programs could
also exacerbate this problem by
changing climate patterns and our
weather.
Senate Bill
517 does not address any of these important issues. Its sole
purpose is to establish an experimental
weather modification policy
without any agriculture or public
oversight of private, military, and
government programs. Without oversight
or public hearings agriculture,
our natural resources, and watersheds
may be negatively impacted. And
who will be responsible to determine
the synergistic effects of these
programs or pay for unintended
disasters created by this
experimentation. If these programs
change growing seasons and interrupt
the pollination process crop losses
could be substantial.
Please
contact all of your elected local, state and federal officials to
stop this bill in its present form.
This bill needs to have appropriate
agriculture and public oversight, with
public hearings included, prior
to any more experimental projects. We
need a national dialogue on this
subject before more experimentation
takes place.
Related
Articles:
'Chemtrails
in Las Vegas Skies
Owning the
Weather
Scientists
Excited About Cloud-Seeding Project
© 2006 -
Rosalind Peterson - All Rights Reserved
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Rosalind
Peterson was born and raised on a working farm in Redwood
Valley, California. The weather was the
foremost factor in determining
whether or not our tree crops produced
fruit and nuts.
Between
1989 and 1993 Rosalind worked as an Agricultural Technologist
for the Mendocino County Department of
Agriculture. After leaving
Mendocino County she took a position
with the USDA Farm Service Agency
as a Program Assistant in Mendocino,
Sonoma, and the Salinas County Offices.
In 1995,
she became a certified U.S.D.A. Farm Service Agency Crop Loss
Adjustor working in more than ten
counties throughout California. Many
crop losses throughout the State can be
attributed to weather related
causes. Rosalind has a BA degree from
Sonoma State University in
Environmental Studies & Planning
(ENSP), with emphasis on agriculture,
watersheds, climate, and crop
production.
Rosalind
Peterson can be reached at:
Post Office
Box 499
Redwood
Valley, California 95470
(707)
485-7520