Research Article Open Access

Estimation of Pathogenic Microorganisms during Atmospheric Tempestat North Africa

U. Ali Rahoma1
  • 1 Omer El-Mukhtar University, United States

Abstract

Problem statement: Dust continued to blow across northern Africa and the Mediterranean Sea on March 3, 2005. Many sources are associated with areas where human impacts are well documented. Approach: Nonetheless, the largest and most active sources are located in truly remote areas where there is little or no human activity. Dust activity is extremely sensitive to many environmental parameters. Results: The persistent sources are located in the Northern Hemisphere, mainly in a broad “dust belt” that extends from the Meddle coast of North Africa over the Middle East. In this study we identify local environments enables us to identify those characteristics that are important for dust generation. However, if dust has an impact on climate, then the role of humans in the destabilization of soil surfaces takes on an added dimension. Conclusion/Recommendations: Threshold effects may be at work. Human health may also be adversely affected, primarily by inhalation of known or suspected components in dust events, including nonpathogenic and pathogenic viable microorganisms; chemical contaminants such as carcinogens, toxins, endocrine disruptors and toxic metals and small particles that may trigger other physiological reactions (e.g., asthma, cardiovascular events).

Current Research in Medicine
Volume 2 No. 1, 2011, 1-6

DOI: https://doi.org/10.3844/amjsp.2011.1.6

Submitted On: 18 October 2010 Published On: 29 March 2011

How to Cite: Rahoma, U. A. (2011). Estimation of Pathogenic Microorganisms during Atmospheric Tempestat North Africa. Current Research in Medicine, 2(1), 1-6. https://doi.org/10.3844/amjsp.2011.1.6

  • 3,954 Views
  • 2,502 Downloads
  • 1 Citations

Download

Keywords

  • Chemical contaminants
  • human health
  • dust activity
  • toxic metals
  • aureobasidium
  • moderate resolution
  • spectroradio meter
  • pseudomonas
  • Absorbing Aerosol Index (AAI)