ADVERSE AGRICULTURAL CONSEQUENCES OF WEATHER MODIFICATION
Abstract
For at least fifteen years, with ever increasing frequency and extent, weather modification and/or climate alteration investigations have been conducted without public disclosure to perfect a covert methodology for inhibiting rainfall to deliberately damage a sovereign nation’s agri-cultural economy. This research discloses methodology for inhibiting rainfall, the evidence of coal combustion fly ash utilization, the adverse consequences on agriculture, and the adverse health implications on biota, including humans. The harm to agriculture comes primarily from aluminum addition to soil, changing soil pH and changing historic weather patterns. Aluminum in a chemically mobile form, not only harms plants, but is toxic to most biota, including humans. The micron and submicron particulates are used for weather modification contain heavy metals and radioactive elements which pose potentially grave human health threats including, but not limited to, cardiovascular disease, diabetes, respiratory diseases and reduced male fertility. Understanding that methodology and its adverse consequences by the agricultural community is crucial to identify and stop covert operations aimed at damaging the agricultural economy of a sovereign nation.
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Bell, M. L., Ebisu, K., Leaderer, B. P., Gent, J. F., Lee, H. J., Koutrakis, P., … Peng, R. D. (2014). Associations of PM2.5 constituents and sources with hospital admissions: Analysis of four counties in Connecticut and Massachusetts (USA) for persons ≥ 65 years of age. Environmental Health Perspectives, 122(2), 138–144. crossref
Blum, W. (2003). Killing hope: US Military & CIA interventions since World War II. London: Zed Books Ltd.
Bondy, S. C. (2014). Prolonged exposure to low levels of aluminum leads to changes associated with brain aging and neurodegeneration. Toxicology, 315(1), 1–7. crossref
Cape, J. N. (1993). Direct damage to vegetation caused by acid rain and polluted cloud: Definition of critical levels for forest trees. Environmental Pollution, 82(2), 167–180. crossref
Cole, L. A. (1988). Clouds of secrecy: The army's germ warfare tests over populated areas. Totowa, NJ: Rowman & Littlefield.
Dai, L., Zanobetti, A., Koutrakis, P., & Schwartz, J. D. (2014). Associations of fine particulate matter species with mortality in the United States: A multicity time-series analysis. Environmental Health Perspectives, 122(8), 837–842. crossref
Dockery, D. W., Pope III, C. A., Xu, X., Spengler, J. D., Ware, J. H., Fay, M. E., … Speizer, F. E. (1993). An association between air pollution and mortality in six U.S. cities. New England Journal of Medicine, 329(24), 1753–1759. crossref
Ebisu, K., & Bell, M. L. (2012). Airborne PM2.5 chemical components and low birth weight in the northeastern and Mid-Atlantic regions of the United States. Environmental Health Perspectives, 120(12), 1746–1752. crossref
Exley, C., Rotheray, E., & Goulson, D. (2015). Bumblebee pupae contain high levels of aluminium. PloS ONE, 10(6), 1-9. crossref
Fleming, J. R. (2010). Fixing the sky: The checkered history of weather and climate control. New York: Columbia University Press.
Fradkin, P. L. (2004). Fallout: An American nuclear tragedy (2nd ed.). Colorado: Johnson Books.
Gallagher, C. (1993). American ground zero: The secret nuclear war. Cambridge: MIT Press.
Haberzettl, P., Lee, J., Duggineni, D., McCracken, J., Bolanowski, D., O’Toole, T. E., … Conklin, D. J. (2012). Exposure to ambient air fine particulate matter prevents VEGF-induced mobilization of endothelial progenitor cells from the bone marrow. Environmental Health Perspectives, 120(6), 848–856. crossref
Herndon, J. M. (2015). Aluminum poisoning of humanity and Earth’ s biota by clandestine geoengineering activity: Implications for India. Current Science, 108(12), 2173–2177. Retrieved from http://www.currentscience.ac.in/Volumes/108/12/2173.pdf
Herndon, J. M. (2016). Obtaining evidence of coal fly ash content in weather modification (geoengineering) through analyses of post-aerosol-spraying rainwater and solid substances. Indian Journal of Scientific Research and Technology, 4(1), 30–36. Retrieved from http:// www.nuclearplanet.com/indjsrt.pdf
Klein, J. P., Mold, M., Mery, L., Cottier, M., & Exley, C. (2014). Aluminum content of human semen: Implications for semen quality. Reproductive Toxicology, 50, 43–48. crossref
Kopittke, P. M., Moore, K. L., Lombi, E., Gianoncelli, A., Ferguson, B. J., Blamey, F. P. C., … Tollenaere, A. (2015). Identification of the primary lesion of toxic aluminum (Al) in plant roots. Plant Physiology, 167(4), 1402–1411. crossref
Kowall, N. W., Pendlebury, W. W., Kessler, J. B., Perl, D. P., & Beal, M. F. (1989). Aluminum-induced neurofibrillary degeneration affects a subset of neurons in rabbit cerebral cortex, basal forebrain and upper brainstem. Neuroscience, 29(2), 329–337. crossref
Likens, G. E., Bormann, F. H., & Johnson, N. M. (1972). Acid rain. Environment: Science and Policy for Sustainable Development, 14(2), 33–40. crossref
Moreno, N., Querol, X., Andrés, J. M., Stanton, K., Towler, M., Nugteren, H., … Jones, R. (2005). Physico-chemical characteristics of European pulverized coal combustion fly ashes. Fuel, 84(11), 1351–1363. crossref
NYTNS. (1974, May 19). Rainmaking used as weapon of war in SE Asia. Daytona Beach Morning Journal. Retrieved from https://news.google.com/newspapers?nid=OWslULmvb_UC&dat=19740519&printsec=frontpage&hl=en
Pires, A., de Melo, E. N., Mauad, T., Nascimento Saldiva, P. H., & de Siqueira Bueno, H. M. (2011). Pre- and postnatal exposure to ambient levels of urban particulate matter (PM(2.5)) affects mice spermatogenesis. Inhalation Toxicology, 23(4), 237–245. crossref
Pope III, C. A., Ezzati, M., & Dockery, D. W. (2009). Fine-particulate air pollution and life expectancy in the United States. New England Journal of Medicine, 360(4), 376–386. crossref
Potera, C. (2014). Toxicity beyond the lung: Connecting PM2.5, inflammation, and diabetes. Environmental Health Perspectives, 122(1), A29. crossref
Singh, A., & Agrawal, M. (2008). Acid rain and its ecological consequences. Journal of Environmental Biology. 29(1), 15-24. Retrieved from http://www.jeb.co.in/journal_ issues/200801_jan08/paper_02.pdf
Sparling, D. W., & Lowe, T. P. (1996). Environmental hazards of aluminum to plants, invertebrates, fish, and wildlife. Reviews of Environmental Contamination and Toxicology, 145, 1–127. crossref
Suloway, J. J., Skelly, T. M., Roy, W. R., Dickerson, D. R., Schuller, R. M., & Griffin, R. A. (1983). Chemical and toxicological properties of coal fly ash. Illinois: Department of Energy and Natural Resources.
Twardy, S., Shepherd, J. M., & Stofer, K. A. (2003). Particulates effect on rainfall. Retrieved December 9, 2003, from https://svs.gsfc.nasa.gov/20010
USAF. (2013). Contrails facts. Retrieved from http://web.archive.org/web/20130306001902/http://www.af.mil/shared/media/document/AFD-051013-001.pdf
Yellamma, K., Saraswathamma, S., & Kumari, B. N. (2010). Cholinergic system under aluminium toxicity in rat brain. Toxicology International, 17(2), 106–112. crossref
DOI: http://doi.org/10.17503/agrivita.v38i3.866
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