Thomas’s analysis showed that the chemtrails include:
1. Bacilli & Moulds
2. Pseudomonas Aeruginosa
3. Pseudomonas Florescens
4. Bacilli Amyloliquefaciens
7. Serratia Marcscens (see below)
8. Human White Blood Cells
9. A restricter enzyme used in research labs to snip and combine DNA
10. Enterobacter Cloacae
11. Other bacilli and other toxic molds capable of producing heart disease and meningitis, as well as acute upper respiratory and gastrointestinal distress.
12. JP-8 Jet Fuel = Ethylene Dibromide
# 2. Pseudomonas Aeruginosa. A Respiratory tract infection by the ubiquitous bacterium. Cancer and burn patients also commonly suffer attack from this organism. Unlike other bacteria that reside in the environment, P. aeruginosa has a remarkable capacity to cause disease. Pseudomonas has the ability to adapt and thrive in many ecological niches, including humans. Once infections are established, P. aeruginosa produces a number of toxic proteins which cause not only extensive tissue damage, but also interfere with the human immune system’s defense mechanisms. These proteins range from potent toxins that enter and kill host cells at or near the size of colonization to degradative enzymes that permanently disrupt the cell membranes and connective tissues in various organs. P. aeruginosa successfully colonizes the respiratory tract. One reason is that it produces a highly protective capsule made of the mucoid polysaccharide alginate. This allows the bacteria to resist engulfment by immune system cells and better adhere to the lining of the lungs. It is likely that antibiotics cannot effectively eradicate Pseudomonas from the lungs because of this protective capsule. In addition, some Pseudomonas strains can inactivate the drugs that threaten them by using enzymes to modify the drug.
# 7. Serratia Marcescens is a significant opportunistic human bacterial pathogen. This microorganism has been shown to be the cause of many life-threatening diseases such as pneumonia, meningitis and endocarditis. It is one of the major causes of hospital-acquired infections. The seriousness of a S. marcescens infection is compounded by the fact that it is very resistant to most commonly used antibiotics, thus making treatment difficult. In this study one of the factors contributing to the antibiotic resistance of S. marcescens will be examined. In order for an antibiotic to kill or inhibit growth of bacteria it must penetrate the outer surface or membrane and enter the bacterial cell ,which is very difficult.
I hope some of this helps you to better understand what we are fighting against.
Are they preparing to admit chemtrails?