Showing 3 results for Jamshidi
Soheila Rezaei, Kazem Naddafi, Hossain Jabbari, Masoud Yonesian, Arsalan Jamshidi, Abdolmohamad Sadat, Alireza Raygan Shirazinejad,
Volume 6, Issue 1 (5-2013)
Abstract
Background and Objectives: In recent years exposure to fine airborne particles has been identified as an important factor affecting human health. Epidemiological studies have showed that the aerosol laden air can be an agent for microorganisms’ dispersion. Ignoring internal sources, ambient air quality significantly affects indoor air quality. Since people spend most of their times in the indoor spaces and little data are available on the general understanding of the indoor air quality, therefore, the aim of this study is to determine the particulate matter concentrations in indoor and ambient air of Tehran Children Medical Center Hospital.
Materials and Method: PM10/PM2.5 samples were collected in the indoor environment of the Tehran Children Medical Center Hospital and its adjacent outdoor environment by a portable GRIMM dust monitor model 1.108 from November 26 to March 10, 2007. The places of sampling for indoor and ambient air were in the patient room and the roof of the hospital respectively.
Results: The results showed that indoor PM10 level was higher than WHO standards in 80% cases in patient room, whereas, for indoor PM2.5 level, this value was 42 and 64% more than the EPA standards and WHO standards respectively. The relationship between outdoor and indoor particulate matters was examined by linear regression analysis. The indoor particulate matter levels were correlated with the corresponding ambient air ones.
Conclusion: Our analysis revealed that infiltration of ambient air could substantially increased indoor pollutants and thereby influences the indoor air quality.
A Bondori, A Bagheri, M Sookhtanlou, O Jamshidi, A Norozi,
Volume 12, Issue 4 (2-2020)
Abstract
Background and Objective: Farmers in agricultural activities deal with various forms of chemical pesticides and thus their knowledge level can have a positive or negative impact on the food health of a community and the environment. Understanding their knowledge about the consequences of poisoning will provide an effective extension for promoting environmentally friendly methods in farms and maintaining food security. Hence, the aim of this study was to assess the farmers' knowledge of Moghan plain about the consequences of chemical pesticides use for community health, the environment and food security in 2017.
Materials and Methods: The method of this study is descriptive and survey. The statistical population consisted of all farmers (water cultivation) in the Moghan plain. The sample size of 400 was determined by multi-stage sampling method and using Kerjesi and Morgan table (1970). The study tool was a questionnaire whose validity was confirmed by a panel of experts and its reliability was confirmed by Cronbach's alpha coefficient.
Results: The findings showed that the majority of the farmers had relatively poor knowledge about the consequences of using chemical pesticides. The results of structural equation modeling (using Lisrel software) showed that the use of information resources, in total, predicted 24% of variance of farmers' knowledge about the consequences of chemical pesticides.
Conclusion: Given that more favorable safety behavior and cultivation of more healthy crops are based on the farmers' knowledge about the use and consequences of chemical pesticides, hence, the attention of authorities and planners for conducting various workshops in line with farmers' perceptions about the use of knowledge and the consequences chemical pesticides are needed.
Mohsen Pourkhosravani, Fatemeh Jamshidi Gohari, Nasrin Sayari,
Volume 16, Issue 2 (9-2023)
Abstract
Background and Objective: This research tries to analyze the spatial distribution and trend of arsenic level changes in the underground water resources of the Sirjan basin, and also to evaluate and analyze the factors affecting the concentration of this element in these water resources.
Materials and Methods: Sampling of underground water sources in the study area was done by systematic-random method and arsenic concentration was done by ICP-MS method in the laboratory. Also, to evaluate the factors affecting the concentration of arsenic in the underground water resources of Sirjan bathe sin, the method of land systems analysis was used.
Results: The results of the research show that the amount of arsenic in all samples is higher than the Guidelines provided by the World Health Organization so the amount of this element in the underground water sources of the study area varies between 30 and 390 µg/L. Samples No. 9, 13, and 16, which are located in the deepest parts of the basin, have the highest amount of arsenic. For this reason, the durability of water in this part of the basin increases. This reduces the intensity of the current. As a result, according to the cumulative effect law, this process can lead to an increase in arsenic concentration.
Conclusion: The evaluation of changes in the concentration of arsenic in the underground water resources of the study area indicates that the concentration of this element had a high increasing trend. According to the results, the location of the studied area in the center of hydrothermal and geothermal processes (copper mineralization belt in Iran), the cumulative effect, and the effect of pH on the absorption and desorption of arsenic are among the most important factors affecting the increase of arsenic in the underground water resources of Sirjan Basin.
