16 March of every year marked the anniversary of the chemical gas attack on the City of Halabja, Kurdistan, Iraq, and its nearby villages. In the process, 5000 people reportedly died from the attack. Many more were wounded and the event left nearly 60 000 people displaced. A perceived consequence of the chemical bombing of Halabja City was the environmental pollution of the soil and water. A recent questionnaire completed by the population of Halabja City indicated that 35% believed that water pollution was still an issue, and 55% thought that soil pollution posed a high risk.In 2016, were requested by the Halabja City governor to investigate the situation. And to lay to rest the perception and concerns of soil and water still being contaminated by the events that happened on that day in March 1988. A total of 8 soil and 18 water samples were collected, Soil samples were collected from thesurface and as close as possible to bomb sites and craters, in contrast, water samples were collected from seven springs, ten water wells, and one surface streams downslope as close as possible to the bombed areas. The samples were analyzed for chemical warfare agents which are Arsenic, Cyanide, Fluoride, soluble orthophosphate, Nitrate, Phosphorous, Sulphate, and Sulphur. The results indicated no negative contamination remaining in both water and soil. The geology and hydrogeology in the area played an important role in helping the chemical warfare agents (CWA) to degrade during the past 28 years. Most of the CWA used arewater- soluble and solubility increases when the agents are either hydrolyzed or oxidized. The hydrolysis products have equal toxicity to the parent chemicals, posing a similar threat to the environment. In contrast, the intact chemicals can be adsorbed onto sediment, where they can be stored for a longer time.
Mass spectral behavior of the hydrolysis products of sesqui- and oxy-mustard type chemical warfare agents in atmospheric pressure chemical ionization