SKYGUARDS at the EU Parliament ~ Brussels, 9 April 2013
CLANDESTINE AERIAL SPRAYINGthe health effects of the toxic sky war on humans, animals and plants
Désirée L. Rövermedical research journalist,
author, radio hostwww.desireerover.nl text & photography Désirée L. Röver Ⓒ2013
Clandestine aerosol spraying, a.k.a
• persistent jet contrails
• stratospheric aerosol geo-engineering
• solar radiation management
• global dimming
• terra forming
• weather modification
• space shades
• albedo technologies
• cloud seeding
• climate remediation
• ecological bioterrorism
• chemtrails
• air crap
the Netherlands, October 31, 2012
Deficient foodwill create
deficient peopleWeston Price, Nutrition and Physical Degeneration, 1939
Vitamin D3 (hormone)
• calcium absorption ↑
• bone growth, density and strength
• osteoporosis, rickets
• modulates cell growth, maturation and proliferation
• stops abnormal cell growth
• immune T-cells ↑
• insulin production ↑
• risk diabetes type 1 & 2 ↓
• helps prevent - osteoporosis - osteoarthritis - depression - cancer of colon, prostrate, breast
• preserves muscle strength after exercise
Metallic salts (oxides)
• aluminium (nano particles)
• nano aluminium-coated fiberglass (CHAFF)
• barium
• cadmium
• chromium
• titanium
• strontium
• lithium
• zinc
• nickel
• uranium
the air is no longer neutralfor these particles
are electromagnetically charged
Humans are electric beings
•all body cells are molecules generating electromagnetic frequencies according to their subatomic vibration
•these frequencies are an important part of the cell-to-cell communication
anything interfering with these frequencies may result in dis-ease in the body
ALUMINIUM & the human body
• makes proteins fold differently (3D) ⇒ different substances: different effects
• damages the central nervous system
• weakens the cell membranes
• passes the blood brain barrier
• oxidizes the suppressor oncogene P53, causing a mutation
• aluminium in combination with toxins deplete and deactivate enzymes
electro active substance(deodorants, cookware, vaccines, medication)
NANOPARTICLES ~ Isis Report ~ 10/10/05
• Nanoparticles in the lungs are translocated to the circulatory system and from there throughout the body, accumulating in the liver, spleen, and bone marrow.
• Nanoparticles inhaled through the nose and air passages are translocated to the brain through the olfactory nerves, and accumulate in the brain.
http://www.i-sis.org.uk/Nanotoxicity.php
ALUMINIUM nanoparticles Russell L. Blaylock, MD
neurodegenerative and neurodevelopmental effects
• easily penetrate the brain via the blood and olfactory neural tracts
• infinitely more reactive ⇒ inflammation
• Alzheimer’s, A.L.S., Parkinson’s
• inflammatory reaction in the lungs
• pulmonary diseases, asthma
http://www.geoengineeringwatch.org/neurologist-warns-aluminum-in-chemtrails-could-cause-explosive-increase-in-neurodegenerative-diseases/
on SAGsnanoparticles are worse than asbestos
ALUMINIUM & FISH
• impaired ion regulation at the gill
• less oxygenation
• fish mortality ↑
• growth ↓
• reproductive potential ↓
• altered food availability
ALUMINIUM & increased soil acidity
• death of intermicroreselis of lichen and fungi
• aluminium will clog up root structures of trees and plants
• forests turning into tinder: today’s forest fires blazing hells
ALUMINIUM & PLANTS
aluminium oxide nanoparticles in groundwater(within 7 days) inhibit the root growth of:
• corn
• cucumber
• cabbage
• carrots
• soybeans
the smaller the nanoparticle, the greater the effectDaniel Watts, New Jersey Institute of Technology
Cotton root growth restricted by aluminium
BARIUM
• breathing difficulties
• blood pressure ↑
• heart rythm changes
• stomach irritation
• muscle weakness
• changes in nerve reflexes
• swelling of the brain
• swelling of the liver
• kidney and heart damage
• neurodegredation, MS
BARIUM
• turns off the body’s T-cells (immune system)
• depletes potassium from the human organism ➡ muscle weakness, heart defribillation
• makes magnesium bind to aluminium ➡ blood clotting
• barium’s frequency (380 nm) interferes with self healing mechanism of cells
• manipulates / stalls the jetstream
• makes human bodies more vulnerable to X-band radar (8 - 12 GHz)
barium and aluminium work togetherin diffusing and strengthening an electrical charge
Aluminium & barium
• HAARP runs on ELF (High-frequency Active Aurora Research Project)
• X-band radar scans organisms for barium
• the aluminium in your system turns you into an ANTENNA
NOW YOU ARE A PERFECT COMPONENT FOR THESE TWO SYSTEMS TO WORK AGAINST YOU!
ALUMINIUM
• aluminium enhances effects of HAARP (High-frequency Active Aurora Research Project)
• HAARP 20-30HZ (ELF) emissions alter thoughts and emotions:
• anxiety
• inability to concentrate
• depression
electro active substance
CADMIUM
• diarrhea, stomach pains, severe vomiting
• bone fractures
• reproductive failure, possibly infertility
• damage to central nervous system
• damage to immune system
• DNA damage
• cancer development
NICKEL
• chance of development of cancer in lung, nose, larynx, prostate ↑
• lung embolism
• respiratory failure
• birth defects
• asthma and bronchitis
• allergic reactions
• heart disorders
CHROMIUM
• skin rashes
• upset stomach and ulcers
• respiratory problems
• weakened immune system
• alteration genetic material
• lung cancer
• death
Non-metallic substances
• fluoride
• infectuous pathogens
• sedatives
• dessicated blood, plasma
• mold spores
• virally mutated fungi
• yellow fungal mycotoxins
• exotic strains of bacteria
• parasitic nematode eggs
• ethylene bromide
• nano particulates
• polymer /polyethylene silicon fibers
• crystalline substances
• self-replicating nanomachineshttp://www.globalresearch.ca/index.php?context=va&aid=19047
Fluoride
• accumulative poison +++
• IQ: 10-15 points ↓
• damage to hippocampus
• accumulation in pineal gland
• thyroid function ↓
• bone fractures ↑
• inhibits antibody formation
• inhibits movement white bloodcells
• inactivates/inhibits enzymes
• collagen damage (ageing)
• uptake of aluminium ↑
• tumor & cancer rates ↑
Developmental Fluoride Neurotoxicity: A Systematic Review and Meta-Analysis http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3491930/pdf/ehp.1104912.pdf
(toothpaste, Prozac, Teflon cookware)
MYCOTOXINS OF FUNGI & MOLDS
• estrogenic effects
• carcinogenicity
• mutagenicity
• teratogenicity
Aspergillus Penicillium Fusarium
mind control
toxic syndromes in mammals
Abstract Morgellons disease is an emerging multisystem illness characterized by unexplained dermopathy and unusual skin-associated filament production. We present relevant clinical observations combined with chemical and light microscopic studies of material collected from three patients with Morgellons disease.
Morgellons Disease: A Chemical and Light Microscopic Study Marianne J. Middelveen¹, Elizabeth H. Rasmussen², Douglas G. Kahn³ and Raphael B. Stricker¹* ¹ International Lyme and Associated Diseases Society, Bethesda, MD ² College of Health Sciences, University of Wyoming, Laramie, WY ³ Department of Pathology, Olive View UCLA Medical Center, Sylmar, California
MOST IMPORTANT STUDY
Middelveen et al., Morgellons Disease: A Chemical and Light Microscopic Study, J Clin Exp Dermatol Res 2012, 3:1
Our study demonstrates that
Morgellons disease is NOT DELUSIONAL and that skin lesions with unusual fibers are NOT SELF-INFLICTED OR PSYCHOGENIC.
Morgellons Disease: A Chemical and Light Microscopic Study Marianne J. Middelveen¹, Elizabeth H. Rasmussen², Douglas G. Kahn³ and Raphael B. Stricker¹* ¹ International Lyme and Associated Diseases Society, Bethesda, MD ² College of Health Sciences, University of Wyoming, Laramie, WY ³ Department of Pathology, Olive View UCLA Medical Center, Sylmar, California
“We provide chemical, light-microscopic and immunohistological evidence
that filaments associated with this condition originate from human epithelial cells
supporting the hypothesis that the fibers are composed of keratin
and are products of keratinocytes.”
Morgellons Disease: A Chemical and Light Microscopic Study Marianne J. Middelveen¹, Elizabeth H. Rasmussen², Douglas G. Kahn³ and Raphael B. Stricker¹* ¹ International Lyme and Associated Diseases Society, Bethesda, MD ² College of Health Sciences, University of Wyoming, Laramie, WY ³ Department of Pathology, Olive View UCLA Medical Center, Sylmar, California
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was not !uorescent nor was normal skin. Color intensity and hue of the red and blue "laments was in!uenced by the color spectrum of the illuminating light. #is property and the presence of iridescence suggests that a structural component is involved in the unusual colors seen in Morgellons "bers.
Case 2: Microscopic examination of scab material revealed scab detritus imbedded with long "laments of various colors (Figures 3A-3D). Hyaline, red, blue, and light purple "bers were observed (10-40 µm diameter) (Figure 3A, Figure 3B). One sample revealed "bers tangled around a hair and these "bers may have been associated with the hair follicle (Figure 3C). Smaller, pale purple "bers (10 µm diameter) appeared to form a mesh around the follicle. Some samples revealed "bers that lay beneath or penetrated dermal tissue Figure 3D.
Case 3: Microscopic examination was performed with particular attention to hair follicles, as the patient had reported unusual
"lament formation associated with the follicles. Microscopy revealed abnormalities of the follicular bulbs and the hair associated with these follicles that indicated abnormal functioning of follicular keratinocytes (Figures 4A-4D). Many follicles contained malformed bulbs with distorted shapes, and some follicles had two or more hairs branching from a single inner root sheath (Figure 4A). Filaments stemming from the bulb end were found in some follicles and these appeared as root-like growths (Figure 4B). Transparent "laments were observed that stemmed from cells within the inner root sheath (Figure 4C). On some hairs red or blue colored "laments branched from the sha$ (Figure 4D). Many hairs were !attened or tape-like on cross-section rather than concentric. #ese hairs were similar in appearance to Morgellons "laments.
BDD Microscopic observationsBiopsies from late proliferative stage BDD lesions were examined
microscopically for comparison (Figures 5A-5D). Although the scale of "laments was much larger, the BDD "laments (roughly ten times
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was not !uorescent nor was normal skin. Color intensity and hue of the red and blue "laments was in!uenced by the color spectrum of the illuminating light. #is property and the presence of iridescence suggests that a structural component is involved in the unusual colors seen in Morgellons "bers.
Case 2: Microscopic examination of scab material revealed scab detritus imbedded with long "laments of various colors (Figures 3A-3D). Hyaline, red, blue, and light purple "bers were observed (10-40 µm diameter) (Figure 3A, Figure 3B). One sample revealed "bers tangled around a hair and these "bers may have been associated with the hair follicle (Figure 3C). Smaller, pale purple "bers (10 µm diameter) appeared to form a mesh around the follicle. Some samples revealed "bers that lay beneath or penetrated dermal tissue Figure 3D.
Case 3: Microscopic examination was performed with particular attention to hair follicles, as the patient had reported unusual
"lament formation associated with the follicles. Microscopy revealed abnormalities of the follicular bulbs and the hair associated with these follicles that indicated abnormal functioning of follicular keratinocytes (Figures 4A-4D). Many follicles contained malformed bulbs with distorted shapes, and some follicles had two or more hairs branching from a single inner root sheath (Figure 4A). Filaments stemming from the bulb end were found in some follicles and these appeared as root-like growths (Figure 4B). Transparent "laments were observed that stemmed from cells within the inner root sheath (Figure 4C). On some hairs red or blue colored "laments branched from the sha$ (Figure 4D). Many hairs were !attened or tape-like on cross-section rather than concentric. #ese hairs were similar in appearance to Morgellons "laments.
BDD Microscopic observationsBiopsies from late proliferative stage BDD lesions were examined
microscopically for comparison (Figures 5A-5D). Although the scale of "laments was much larger, the BDD "laments (roughly ten times
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larger) were similar in appearance compared to the specimens observed in Case 1 (Figure 5A, Figure 5B). Filaments were macroscopic, opaque and dirty white in color, ranging in size from less than 0.5 mm in diameter to about 1 mm in diameter. In cross section !laments appeared to originate beneath the stratum corneum (Figure 5C). Longer !laments were close to 1 mm in length. "e BDD !laments demonstrated #uorescence under UV light (Figure 5D).
Chemical ExperimentsSamples of normal hair, colored !laments and dermal material from
Cases 1 and 2, and BDD !bers were subjected to immersion in caustic agents. Duplicate experiments with each caustic agent were performed on each sample. Results of the experiments are shown in (Table 1) Normal hair and patient !laments began to fray a$er incubation for 1 minute, and the patient !laments had completely disintegrated a$er incubation for 120 minutes in 12% sodium hypochlorite. Normal hair
was still visible at this timepoint. In contrast, patient !laments began to fray at 1 minute in 10% sodium hydroxide but were still visible a$er 120 minutes, similar to normal hair. "e hair and patient !laments were more resistant to 10% potassium hydroxide, with visible fraying beginning at 10 minutes and !bers still visible at 120 minutes. Although the larger BDD !bers appeared to be more resistant to the chemicals, fraying and shape change similar to the human samples was evident at 120 minutes with each caustic agent.
Keratin immunostaining"e results of keratin immunostaining experiments are shown
in Figure 6. "e MD !laments from Case 1 stained strongly with the “pankeratin” antibody AE1/AE3 directed against cytokeratin 1/3. In contrast, the !laments stained weakly with the more restrictive antibody AE5/AE6 directed against cytokeratin 5/6. Staining with AE1/AE3 was seen over the length of the !ber, while staining with AE5/
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larger) were similar in appearance compared to the specimens observed in Case 1 (Figure 5A, Figure 5B). Filaments were macroscopic, opaque and dirty white in color, ranging in size from less than 0.5 mm in diameter to about 1 mm in diameter. In cross section !laments appeared to originate beneath the stratum corneum (Figure 5C). Longer !laments were close to 1 mm in length. "e BDD !laments demonstrated #uorescence under UV light (Figure 5D).
Chemical ExperimentsSamples of normal hair, colored !laments and dermal material from
Cases 1 and 2, and BDD !bers were subjected to immersion in caustic agents. Duplicate experiments with each caustic agent were performed on each sample. Results of the experiments are shown in (Table 1) Normal hair and patient !laments began to fray a$er incubation for 1 minute, and the patient !laments had completely disintegrated a$er incubation for 120 minutes in 12% sodium hypochlorite. Normal hair
was still visible at this timepoint. In contrast, patient !laments began to fray at 1 minute in 10% sodium hydroxide but were still visible a$er 120 minutes, similar to normal hair. "e hair and patient !laments were more resistant to 10% potassium hydroxide, with visible fraying beginning at 10 minutes and !bers still visible at 120 minutes. Although the larger BDD !bers appeared to be more resistant to the chemicals, fraying and shape change similar to the human samples was evident at 120 minutes with each caustic agent.
Keratin immunostaining"e results of keratin immunostaining experiments are shown
in Figure 6. "e MD !laments from Case 1 stained strongly with the “pankeratin” antibody AE1/AE3 directed against cytokeratin 1/3. In contrast, the !laments stained weakly with the more restrictive antibody AE5/AE6 directed against cytokeratin 5/6. Staining with AE1/AE3 was seen over the length of the !ber, while staining with AE5/
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A 440 Hz, pop musicHollywood
MSM, televisionvaccines
Western medicinedentistry
pharmaceuticals chemotherapy
implants
GM food crops
chemicals,pesticides
industrial pollution
food processingfood additives
Codex Alimentariustoxic food packagingfood irradiation
microwaveTeflon cookware
water fluoridationcovert aerosol spraying
deodoranttoothpaste
airport body scansDNA rupture
Chernobyl, Fukushima,
‘depleted’ uranium
electro smogcomputers cell phoneslight bulbs
HAARPpower lines, ELF, ULFS-quad, smart meters
Health adverse effects
always are:
SYNERGISTIC
Whatever we want to callthese toxic trails,
THEY SHOULD NOT BE THERE
What happened toINFORMED CONSENT?
Politicianshave you ever considered
what these clandestine toxic sprayingsare doing to nature, humanity, flora and fauna?
And if you already did realize,― or are overstanding just now ―
what will you do to STOP this willful demise of our planet?
Dutch citizens are DOING SOMETHINGagainst clandestine aerial spraying:
Stop C........s Nu!
http://petities.nl/petitie/stop-chemtrails-nu
Worldwide individuals are DOING SOMETHINGagainst clandestine aerial spraying:
• www.geoengineeringwatch.org
• www.aircrap.org
• www.carnicominstitute.org
• www.bariumblues.com/
• www.aboutthesky.com/
• www.arizonaskywatch.com/
• www.agriculturedefensecoalition.org/content/california-skywatch
• www.worldgathering.net
• www.whatintheworldaretheyspraying.info/
• www.whyintheworldaretheyspraying.com/
• www.desireerover.nl
• http://youtu.be/kXUaI718yJs
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