The contamination of the drinking water in the neighborhood makes it possible to understand the impacts of arsenic concentration. The case highlights the impacts of lead contamination in the town, which the government asserted to have addressed. Gabriele and her husband had already experienced weakness that defines the need for a more advanced medical checkups and critical assessment (Dahlawi et al., 2018). The arsenic levels in the drinking water avoided and never addressed by the government, thus contributing to increased health complications and challenges in the long run. These issues define the need for assessment of the arsenic components and the potential risk factors that can hurt the progress and health and wellness of individuals.
The arsenic content of the contaminated water creates the toxicity levels and make it almost impossible to get clear water. Thus, the arsenic components spreads across many forms modify the adjacent cells and have the necessary aspects to addressing the impacts. The arsenic compounds lead to modifying of water sources to address the potential health implications. The arsenic component complicates the overarching perspectives to improve the analysis of toxic elements and effects (Hare et al., 2019). Thus, toxicity is affected by the neighboring medium or environment, including the cell that is exposed to the risk factors. People exposed to such environments are more likely to experience health complications, similar to Gabriele and her husband Charles.
Patients such as Gabriele are likely to experience abdominal pain, vomiting, and diarrhea, which vary in severity and depending on the discourse of the risk factors. These conditions make it a challenge for Gabriele and husband to get alternative health implications and processes. The target organs include kidney, lungs, liver, and heart. These are directly impacted by the presence of impurities in the blood and thus form part of the long-term challenges regarding these discourses. These organs are essential and likely to face compromise when the pexposed through arsenic compounds are allowed to continue.
References
Dahlawi, S., Naeem, A., Iqbal, M., Farooq, M. A., Bibi, S., & Rengel, Z. (2018). Opportunities and challenges in the use of mineral nutrition for minimizing arsenic toxicity and accumulation in rice: a critical review. Chemosphere, 194, 171-188.
Hare, V., Chowdhary, P., Kumar, B., Sharma, D. C., & Baghel, V. S. (2019). Arsenic toxicity and its remediation strategies for fighting the environmental threat. In Emerging and eco-friendly approaches for waste management (pp. 143-170). Springer, Singapore.
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