S Hazrati, M Barak, M Alighadri,
Volume 4, Issue 3 (1 2011)
Abstract
Background and Objectives: Gamma rays, the most energetic photons within the any other wave in the electromagnetic spectrum, pose enough energy to form charged particles and adversely affect human health. Provided that the external exposure of human beings to natural environmental gamma radiation normally exceeds that from all man-made sources combined, environmental gamma dose rate and corresponding annual effective dose were determined in the cities of Ardabil and Sar Ein.
Materials and Methods: Outdoor environmental gamma dose rates were measured using an Ion Chamber Survey Meter in 48 selected locations (one in city center and the remaining in cardinal and ordinal directions) in Ardabil and Sar Ein. Ten more locations were monitored along the hot springs effluent in Sar Ein. Measurements of gamma radiation dose rate were performed at 20 and 100 cm above the ground for a period of one hour.
Results: Average outdoor environmental gamma dose rate were determined as 265, 219, and 208 for Ardabil, Sar Ein, and along the hot spring effluent, respectively. The annual affective dose for Ardabil and Sar Ein residents were estimated to be 1.45 and 1.39 mSv, respectively.
Conclusion: Calculated annual effective dose of 1.49 and 1.35 are appreciably higher than the population weighted average exposure to environmental gamma radiation worldwide and that analysis of soil content to different radionuclide is suggested.
Parviz Yarahmadzahi, Fatemeh Momeniha, Abdolreza Mirolyaei, Abbas Balouchi, Mehrdad Zarabi, Danial Raisi, Abdolrasoul Khedmati, Faramarz Mobaraki,
Volume 18, Issue 3 (12-2025)
Abstract
Background and Objective: Aedes aegypti is a significant vector for the transmission of several dangerous arboviral diseases, including dengue fever, Zika, chikungunya, and yellow fever. The present study aimed to investigate the impact of environmental management and integrated methods on the control and reduction of Aedes aegypti mosquito abundance in Chabahar City in 2024.
Materials and Methods: To conduct this field study, a comprehensive environmental improvement program—based on Ministry of Health guidelines—was developed for Chabahar City to enhance integrated management measures for combating Aedes aegypti. This was accomplished by having environmental health, community health, and entomology experts complete relevant checklists during urban block surveys.To conduct this field study, a comprehensive environmental improvement program-based on the guidelines of the Ministry of Health- was developed for Chabahar City to enhance integrated environmental management measures for combating Aedes aegypti. This was accomplished by having environmental health, community health, and entomology experts complete relevant checklists during urban block surveys.
Results: The results of this study demonstrated that, following environmental improvement operations and chemical control measures in Chabahar City—and coinciding with the beginning of the cold season at the end of 1403 (2024)—the number of probable dengue fever cases declined sharply. Cases fell from a peak of 389 in November 2024 to only 8 by March 2025. This decline indicates the effectiveness of the implemented Aedes aegypti control strategies, potentially in conjunction with seasonal temperature changes.
Conclusion: Given the high prevalence of certain arboviral diseases transmitted by Aedes aegypti in neighboring countries and the continuous movement of residents in these regions, it is critical to plan and implement an immediate vector surveillance and control program to prevent the permanent establishment of this invasive mosquito species.
