Global Skywatch

Group Info

Founder

THIS IS the largest crime against humanity in human history. We are a family-friendly group that welcomes everyone everywhere to learn about the jet trails in the sky, te

... More

Link

Russ Tanner

September 20, 2025 3:44 pm

It is stunning how precisely the "Aromatic" ( https://gsw.bz/type-aromatic )plume type matches the symptom set of cadmium exposure/poisoning. The Aromatic type has become 1 of the 2 most commonly-spra... View MoreIt is stunning how precisely the "Aromatic" ( https://gsw.bz/type-aromatic )plume type matches the symptom set of cadmium exposure/poisoning. The Aromatic type has become 1 of the 2 most commonly-sprayed types in our area (I can't speak for other areas, but it's likely the same). They use this type daily concentrating usage at night between about 10:30 pm until 2 to 4 am. Intensity has never been as strong as it is now. I wrote a substack article on this months ago. For those who may be interested, I will share some of my personal research notes below. Why it's not showing up "high" in your blood test Nanoparticles are orders of magnitude more reactive/toxic because they contain orders of magnitude larger surface area per volume as compared with common (HEPA) particle sizes. This means that nanoparticles only require roughly 1/100th of the volume of exposure to produce the same symptoms/damage as common particle sizes at 100+ times the volume. This is how knowledge of nanoparticulate exposure is evaded by common lab tests. Because Inductively Coupled Plasma Mass Spectrometry (ICP-MS)—the type of test used to measure the volume of metals in the blood—measures volume, such tests will show "normal" contaminant ranges for nanoparticles even though they are producing symptomology/damage 100+ times greater than would normally be expected by common (HEPA) particle sizes. This fact effectively makes this type of warfare undetectable to the target using common/conventional methods of measurement. Cadmium - Cadmium occupies zinc binding sites - Fulvic Acid binds cadmium - Cd accumulates in the kidneys impairing function - Can cause flu-like symptoms - Yes, cadmium exposure can cause tremors: - Cadmium is poisonous (obviously) - Cadmium is a highly toxic element that can be fatal if ingested or inhaled. Symptoms of cadmium exposure include tremors, headaches, drowsiness, metallic taste, loss of appetite, nausea, convulsions, and respiratory arrest. Parkinsonism-like syndrome Chronic exposure to cadmium can cause a Parkinsonism-like syndrome, which includes tremors, slow movement, and stiffness. Other symptoms of cadmium exposure include: - Insomnia - Fatigue - Forgetfulness - Changes in vision and hearing - Arm numbness - Hand tremors - Confusion - Stuttering - Tingling in head Cadmium exposure can cause a number of symptoms, including cold hands, which can be a sign of heavy metal poisoning: Tingling hands: A symptom of heavy metal poisoning and cadmium ingestion Flu-like symptoms: Exposure to cadmium fumes can cause flu-like symptoms, including chills, fever, and muscle pain Stomach irritation: Eating food or drinks contaminated with cadmium can cause stomach irritation, abdominal cramps, nausea, vomiting, and diarrhea Numbness: A symptom of heavy metal poisoning and acute heavy metal exposure Weakness: A symptom of heavy metal poisoning and acute heavy metal exposure Dehydration: A symptom of heavy metal poisoning Scratchy throat: A symptom of heavy metal poisoning Cadmium exposure can also impair the body's ability to adapt to cold stress. Overexposure may cause fatigue, headaches, nausea, vomiting, abdominal cramps, diarrhea and fever. In addition, progressive loss of lung function (emphysema), abnormal buildup of fluid within the lungs (pulmonary edema) and breathlessness (dyspnea) may also be present. Some affected individuals may have increased salivation; yellowing of the teeth; an unusually rapid heartbeat (tachycardia); low levels of iron within the red blood cells (anemia); bluish discoloration (cyanosis) of the skin and mucous membranes due to insufficient oxygen supply to these tissues and/or an impaired sense of smell (anosmia). Individuals with cadmium poisoning may also experience improper functioning of the canals with the kidney (renal tubular dysfunction) characterized by excretion of abnormally high levels of protein in the urine (proteinuria), minor changes in liver function and/or softening of certain bones (osteomalacia).[Source] Bone mineral health is sensitively related to environmental cadmium exposure- experimental and human data Source Yes, exposure to cadmium can cause inflammation in the heart: Inflammation-induced imbalance Cadmium can cause an imbalance in the extracellular matrix turnover in the heart, which is linked to inflammation. Vascular inflammation Non-toxic levels of cadmium can stimulate the expression of MMP-2 and MMP-9 in the cardiovascular system, which can lead to vascular inflammation and atherosclerosis. Oxidative stress Cadmium can cause oxidative stress in the heart, which can lead to inflammation, apoptosis, and metabolic disorders. Elevated risk of cardiovascular disease High levels of cadmium in the blood are associated with an increased risk of cardiovascular disease. Yes, cadmium exposure can potentially cause both digestive issues and heart arrhythmias, though these effects depend on the level and duration of exposure. Here's how cadmium might be involved in these symptoms: Heart Arrhythmias - Electrolyte Imbalance: Cadmium can disrupt the balance of key electrolytes such as potassium, calcium, and magnesium. These are crucial for maintaining normal electrical activity in the heart, and imbalances can lead to arrhythmias. - Oxidative Stress: Cadmium exposure promotes oxidative stress, which can damage heart cells and disrupt their electrical conduction. - Direct Toxicity: Cadmium interferes with calcium signaling in cardiac muscle cells, potentially causing abnormal heart rhythms. - Hypertension: Chronic exposure to cadmium has been linked to high blood pressure, a risk factor for arrhythmias. General Attributes of Cadmium Considerably more thiophilic than zinc: binds aggressively to sulfur. src Carcinogenicity: Inhalation or subcutaneous injection causes malignant tumors in rat studies. Excess zinc by inhalation, parenteral, or oral routes has been shown to reduce the carcinogenic potential of cadmium after systemic or inhalation exposure. Src Cadmium CdS in high doses induces toxicity in both neuron and purkinje cells in rats. These are the cells that produce GABA. Is this why we feel stimulated when they spray this type? src Solutions Consume foods rich in iron, zinc, and calcium, which can reduce cadmium absorption. Chelation therapy may be recommended in severe cases. Antioxidants such as vitamins C and E can help counteract oxidative stress. Advanced Diagnostic Tests Chelation Challenge Test: • Involves administering a chelating agent (e.g., EDTA or DMPS) to mobilize cadmium stored in tissues, followed by urine analysis. • Strengths: Can indicate body burden in tissues. • Limitations: Should only be performed under medical supervision, as it can temporarily increase circulating cadmium levels and risk toxicity. Detox EDTA (Ethylenediaminetetraacetic Acid) Mechanism: Binds to heavy metals like cadmium and promotes their excretion through urine. Use: Commonly used in clinical settings for chronic heavy metal poisoning. Administration: Typically given intravenously (IV) under medical supervision. Pros: Effective at reducing blood cadmium levels. Cons: Can also chelate essential minerals like calcium and magnesium, so supplementation may be required to prevent deficiencies. DMPS (Dimercaptopropane-1-sulfonate) Mechanism: A sulfur-containing compound that binds cadmium, enhancing its excretion through urine. Use: Effective for acute and chronic heavy metal poisoning, including cadmium. Administration: Given orally, intravenously, or intramuscularly. Pros: Strong binding affinity for cadmium and generally well-tolerated. Cons: Should only be used under medical supervision due to potential side effects, such as kidney stress. DMSA (Dimercaptosuccinic Acid) Mechanism: A sulfur-based chelator that binds cadmium and enhances its elimination. Use: FDA-approved (seriously?) for treating heavy metal poisoning, including lead, and effective for cadmium detoxification. Administration: Typically taken orally. Pros: Less likely to deplete essential minerals than EDTA; suitable for long-term use. Cons: Can cause mild gastrointestinal upset or allergic reactions in some individuals. Alpha-Lipoic Acid (ALA) Mechanism: Acts as a mild chelator and antioxidant, helping to protect cells from cadmium-induced oxidative damage while mobilizing cadmium for excretion. Use: Often used as a supportive agent rather than a primary chelator. Administration: Available as an over-the-counter supplement. Pros: Protects against oxidative stress; safe for long-term use. Cons: Less effective as a standalone chelator. Glutathione and N-Acetylcysteine (NAC) Mechanism: Enhance the body’s natural detoxification processes by boosting glutathione levels, a key antioxidant and chelator. Use: Best as a supportive therapy alongside stronger chelators. Administration: Oral or IV (glutathione); oral (NAC). Pros: Protects against cadmium-induced oxidative damage; safe for prolonged use. Cons: Works better when combined with other chelators. Selenium Mechanism: Forms an inert complex with cadmium, reducing its toxicity and aiding its elimination. Use: Best as a protective agent rather than a primary chelator. Administration: Oral supplementation. Pros: Mitigates oxidative damage and supports immune function. Natural Chelators Chlorella and Spirulina: Bind heavy metals in the gut and promote excretion. Pectin (e.g., Modified Citrus Pectin): Binds cadmium in the gastrointestinal tract to reduce reabsorption. Dietary Fiber: Binds cadmium and supports gut health. Nutrients That Reduce Cadmium Absorption Cadmium competes with essential minerals for absorption in the intestines. Ensuring adequate intake of these minerals can reduce cadmium uptake: - Calcium: Supplementing calcium can limit cadmium absorption in the gut, as both compete for the same transport mechanisms. - Zinc: Zinc competes with cadmium for absorption and helps maintain healthy cellular processes that cadmium might disrupt. - Iron: Adequate iron reduces cadmium uptake, particularly in people with low iron stores (e.g., those with anemia). - Magnesium: Magnesium supplementation can help maintain normal cellular function and reduce cadmium-induced damage.

View Less

The Aromatic Plume Type

gsw.bz

Be the first person to like this.

Members

Russ Tanner

Andrew Baster

COS Michelle

Douglas King