Showing 53 results for Assessment
Parisa Mohammad Hosseini,
Volume 15, Issue 2 (8-2022)
Abstract
Background and Objective: Due to the negative effects of municipal waste, the need for proper management and selection of appropriate solutions to minimize these effects is strongly felt. One of the methods of recycling waste is preparing compost from organic materials. The purpose of this study is to evaluate the environmental impacts of the two options of implementation and non-implementation of the Karaj compost plant project.
Materials and Methods: Based on the obtained results, the project implementation was determined by gaining more points (0.181) in terms of sustainability and having the least destructive environmental effects, and the project was not implemented by gaining more points (-0.155) in terms of sustainability and having more environmentally destructive effects.
Results: Based on the obtained results, the first option (project implementation) was determined as the best option by gaining more points (0.181) in terms of sustainability and having the least destructive environmental Impacts and the second option (non-implementation of the project) was determined with a lower score (-0.155) in terms of sustainability and more environmental damage than the first option.
Conclusion: According to the research findings, the results of the rapid impact assessment matrix and sustainability model are consistent in confirming the superiority of compost plant performance over non-implementation.
Hedieh Chorom, Nabiollah Mansouri, Mohammad Hassan Behzadi,
Volume 15, Issue 3 (12-2022)
Abstract
Background and Objective: This study aims to develop a quantitative model for the performance evaluation of urban green buildings using exploratory and confirmatory factor analysis.
Materials and Methods: Criteria and sub-criteria related to green building were collected, then to content validity and reliability of the primary questionnaire were confirmed by a panel of 11 experts. The final questionnaire with 8 main criteria and 26 sub-criteria was provided to 295 green building users to model the performance of the green buildings. Content validity and Cronbach's alpha were used for validity and reliability of the initial questionnaire, Expletory Factor Analysis was employed to identify factor structure and Confirmatory Factor Analysis was utilized to examine factor loadings and goodness of fit.
Results: The final questionnaire included 8 main criteria and 26 secondary criteria. The internal consistency of the test was adequate (alpha>0.6); the chi-square test for EFI analysis was equal to 0.09 and RMSEA<0.05 and the CFI index was equal to =0.98.
Conclusion: The results showed the designed 8-factor model could predict the impact of green building performance by 81.64%. EFI and CFI analysis confirmed the fitting of the model too.
Hamid Kariab, Mohammad Mehdi Emamjomeh, Sheida Zakariaie,
Volume 15, Issue 4 (3-2023)
Abstract
Background and Objective: Due to the presence of heavy metals (HMs), sludge produced in industrial wastewater treatment plants (WWPT) is classified as special waste and can cause adverse health effects. The present study aimed to identify special wastes and assess the risk associated with the presence of HMs in the sludge of WWTP from an Industrial City.
Materials and Methods: Identifying the special wastes was conducted using a checklist, and classification was performed in accordance with the Basel Convention. Ecological risk assessment was done by determining the geo-accumulation and ecological indexes. The estimation of health risk was done by determining HQ and ELCR indexes.
Results: The highest amount of special waste was allocated to sludge with a value of 3900.0 kg/month. Chromium was detected in the highest concentration (95.89 ± 52.15 mg/kg). The level of chromium and nickel pollution was evaluated in the low range, and cadmium was very severe. The ecological risk of lead was estimated in a significant range and was very high for cadmium. The HQ was less than 1, and the ELCR for inhalation and dermal exposure was estimated to be lower than the acceptable risk level of WHO.
Conclusion: The present study showed that the largest amount of special waste is dedicated to sludge. Although the concentration of HMs was lower than the acceptable limits, the sludge had a high ecological risk level. Therefore, the accumulation and transfer of sludge must be carried out under the provisions of the Basel Convention and environmental considerations.
Samira Sheikhi, Aran Moshiri, Hassan Aslani, Shamseddin Alizadeh,
Volume 15, Issue 4 (3-2023)
Abstract
Background and Objective: One of the main ways of transmitting diseases is drinking water, so the safety of drinking water is an important issue for consumers, water suppliers, operators, and health officials. This study was conducted to identify and semi-quantitative evaluation and prioritization of risks in the drinking water supply system of Bostan Abad city.
Materials and Methods: In order to evaluate and document the key elements of WSP and identify the steps that need improvement, the quality assurance tool of the water safety plan (WSP-QA TOOL software) was used, and then based on the guide of the water safety plan from the WHO and the International Association Water safety, WSP team formed. Then the water supply system of Bostan Abad city from the farthest point of the basin to the last consumption point was inspected and described.
Results: The results showed that the highest number of risks are in the water supply sources, distribution network, and point of consumption, respectively. Also, the most vulnerable part of the system was identified as the disinfection unit and storage tanks due to biological and chemical contamination caused by equipment failure and improper preparation of chlorine solution.
Conclusion: In summary, it can be said that carrying out the necessary reforms can play an effective role in reducing the risk potential in times of crisis, which should be given serious attention by water industry officials.
Sepideh Sadeghi, Farzaneh Mohammadi, Amir Hossein Nafez, Sahar Gholipour, Mahnaz Nikaeen,
Volume 16, Issue 2 (9-2023)
Abstract
Background and Objective: The presence of pathogenic microorganisms in compost of solid waste can threat public health. Therefore, it is necessary to evaluate the safety of produced composts before its land application as a soil conditioner. This study was conducted to investigate the presence of pathogenic microorganisms in municipal solid waste (MSW) compost and health risks associated with accidental ingestion of compost by children.
Materials and Methods: In this study, sampling was done from compost piles at different public parks of Isfahan city during the period of compost spreading. Presence and concentration of pathogenic microorganisms including salmonella, campylobacter, cryptosporidium and adenovirus were investigated by culture or real-time PCR methods.
Results: All pathogenic microorganisms were detected in MSW compost in a frequency from 11%-62% with the highest frequency for detection of adenovirus. The health risk assessment showed that the highest risk of daily infection was for Cryptosporidium (7.67 × 10-4 pppy) and the lowest risk was related to adenovirus (8.27 × 10-10 pppy). The annual infection risk from gastrointestinal disease was calculated above guideline infection risk (10-3 pppy).
Conclusion: The results showed contamination of produced compost to pathogenic microorganisms and potential health risks from applying MSW compost in urban green spaces. Therefore, the relevant organizations should pay more attention to the composting process and its microbial quality and application in public access areas.
Seyyed Shahram Naghibzadeh, Mazaher Moeinaddini, Mehdi Zafaranieh,
Volume 16, Issue 3 (12-2023)
Abstract
Background and Objective: The economic evaluation is a tool for decision-making based on data that helps to select and prioritize waste management components and their implementation based on economic criteria. The purpose of this study was a comprehensive economic evaluation of the waste management components by life cycle costing assessment (LCC) , Net Present Value index (NPV), and Internal Rate of Return (IRR).
Materials and Methods: The cost of each waste management component, was calculated by LCC for one tonne of waste in. The efficiency of each waste management component was obtained using the NPV and IRR indicators.
Results: The results showed that recycling with 260%, and then composting with 40%, have the highest economic returns and the ability to return capital. The sensitivity analysis showed the profitability of these two processes despite the changes of ±30% in the influential calculation parameters.
Conclusion: In this study, comprehensive economic evaluation showed that using LCC, NPV, and IRR with their sensitivity analysis, simultaneity can have an important role in waste management decision-making.
Hossein Masoumbeigi, Davood Motalebi Peykani, Ghader Ghanizadeh, Hamed Akbari Jour, Maryam Esmaeili,
Volume 16, Issue 4 (3-2024)
Abstract
Background and Objective: The health and safety of the employees of any industry is one of the most important issues to prevent the occurrence of accidents. This study aimed to identify and assess related risks in a battery-manufacturing industry using FMEA method and estimate the ratio of the cost of accidents to prevention.
Materials and Methods: In this descriptive and analytical study, the production activities of the industry were first identified. Then the work process, employee duties, and Potential risks were determined by the HAZID method. Evaluation and prioritization of risks were done using FMEA method. Risks whose RPN was higher than 145 were determined as important risks and the ratio of incident cost to accident prevention was calculated.
Results: In 62 active units of this industry, 716 risks were identified and prioritized, 16 of which (2.23%) had RPN above 145 with the highest priority. The financial pulp unit with falling and fire hazards and the assembly unit with the risk of fumes and lead dust leakage with RPN 245 were among the most dangerous units and hazards identified in the industry. In all units except one unit, the ratio of the cost of accidents to prevention varied from 1.2 to 25.
Conclusion: The results showed that it is necessary to consider the correction of the important risks by the industry officials, according to the set priorities so that potential accidents caused by these risks are minimized. This prioritization can play an effective role in optimal risk management and reduce related costs.
Alireza Bakhtiyari, Behrouz Akbari-Adergani, Parisa Shavli-Gilani, Liela Karami, Najmeh Yazdanfar, Parisa Sadighara,
Volume 17, Issue 1 (6-2024)
Abstract
Background and Objective: Given the crucial role of milk and its products in human diets, it is imperative to implement effective measures to ensure the safety of milk by minimizing the presence of hazardous pollutants. This study aims to assess the concentration and potential risks associated with lead in raw milk produced in Tehran province.
Materials and Methods: This cross-sectional descriptive study involved the collection of raw milk samples from 24 diverse livestock farms in Tehran province during the winter season of 1401. The samples were analyzed for lead contamination using flame atomic absorption spectrometry. Statistical tests were applied to compare the results with international standards, and subsequent risk assessment was conducted based on the average amounts.
Results: The study revealed that none of the samples exceeded the permissible limit for lead. The mean and standard deviation of lead concentration in the samples was 7 ± 5.8 (ppb), well below the international standard. There was no significant variation in lead levels among the tested livestock farms. The Hazard Quotient (HQ) values for both children and adults were calculated to be less than 1.
Conclusion: The concentration of lead in all samples remained below the permissible limits set by Codex and the Iran Standards Organization, indicating no non-carcinogenic risks associated with milk consumption in terms of lead contamination, as suggested by the calculated HQ values.
Faezeh Sadeghi, Sakine Shekoohiyan, Mohsen Heidari,
Volume 17, Issue 2 (9-2024)
Abstract
Background and Objective: The Goharzamin iron mine in Sirjan has the largest iron ore reserves in the Gol Gohar area. This study aimed to assess the life cycle of iron ore extraction from this mine using the Life Cycle Assessment (LCA) method due to the extensive activities in the area and the lack of comprehensive studies.
Materials and Methods: The LCA evaluated the impacts of iron ore extraction from the Goharzamin mine on human health, ecosystem quality, and resource depletion. The boundary system included the drilling and blasting processes. Following the cradle-to-gate model and an attributional approach, the production of 1 ton of iron ore was considered a functional unit. Impact and damage assessment were conducted using SimaPro software and the ReCiPE method at mid and end-point levels.
Results: The findings revealed that transportation by trucks with a capacity exceeding 20 tons accounted for the highest environmental burden in all categories (51.1%), particularly in overburden removal. The detrimental impacts of transportation on ionizing radiation (human health), land use, and freshwater eutrophication potentials (ecosystem quality) exceeded 95%. Carbon-14 emissions, agricultural land occupation, and BOD5 and COD releases resulting from iron ore extraction were identified as the key pollutants in these impact categories. The average damage to human health, ecosystem quality, and resource depletion was found to be 89.8%, 5.5%, and 4.6%, respectively.
Conclusion: To mitigate the negative impacts of transportation, it is advisable to enhance environmental sustainability by utilizing trucks that adhere to Euro 5 standards or higher, as well as exploring the use of renewable energies.
Soudabeh Ghodsi, Mina Sheikh, Farzaneh Mohammadi, Mahnaz Nikaeen,
Volume 17, Issue 3 (12-2024)
Abstract
Background and Objective: The adverse health effects of polycyclic aromatic hydrocarbons (PAHs) have received significant attention in recent years. This study aimed to measure the concentration of PAHs associated with fine particles and assess the health risks posed by these compounds.
Materials and Methods: A total of 38 air samples were collected from the central part of Isfahan city using a particle sampler equipped with an inlet to capture particles smaller than 2.5 µm (PM2.5). The samples were analyzed using GC-MS, and molecular ratios were used to identify potential sources of PAHs. Additionally, a Monte Carlo simulation was employed to perform a probabilistic risk assessment of carcinogenic and non-carcinogenic effects of PAHs for two groups: children and adults.
Results: Out of the 16 priority PAH compounds, seven compounds were identified, with average concentrations ranging from 0.003 to 17.8 ng/m3. Molecular ratios indicated that pyrogenic sources were the main contributors to PAHs in the air. The median carcinogenic risk for children and adults was estimated to be 3.1×10-8 and 5.99×10-8, respectively. The median non-carcinogenic risk for PAH compounds was estimated at 3.08×10-1.
Conclusion: The probabilistic risk assessment revealed that the PAHs concentrations associated with fine particles do not pose a significant risk to exposed individuals. However, it is important to note that this study focused solely on the risk assessment of PAHs associated with fine particles. A comprehensive risk assessment of all PAHs present in the atmosphere is, therefore, recommended.
Seyyed Shahram Naghibzadeh, Mazaher Moeinaddini, Mehdi Zafaranieh,
Volume 17, Issue 3 (12-2024)
Abstract
Background and Objective: Identiying the most optimal solution has long been an significant challenge for waste management decision-makers. This study aims to develop a decision support system to identify optimal environmental and economic scenarios for waste management.
Materials and Methods: This study presents the development and application of a decision support system that estimates the environmental burden and cost of waste using Life Cycle Assessment (LCA) and Life Cycle Cost (LCC) tools. The system then identifies optimal environmental and economic scenarios for waste management through a linear programming model. Data from the Karaj waste management system were utilized to apply and validate the decision support system.
Results: The outputs of the linear programming model in this system included one scenario based on minimizing environmental impacts and two scenarios based on minimizing costs imposed on the Karaj waste management system (MSWS). In both the environmental and second economic scenarios, incineration contributed the most to waste management, whereas composting was the dominant method in the first economic scenario. Additionally, recycling the maximum possible amount of recyclable materials was a common feature in all three scenarios, due to its environmental and economic benefits.
Conclusion: The result of this study demonstrate that the current Decision Support System can provide optimal environmental and economic scenarios for waste management to the decision-makers in the field. This is achieved by considering the inherent differences in the types of waste produced, the technologies employed, and the processing costs associated with each waste management system.
Ehsan Aghayani, Azizallah Dehghan, Navid Alinejad, Malihe Amiri,
Volume 17, Issue 4 (3-2025)
Abstract
Background and Objective: Monitoring pesticide concentrations in drinking water resources is crucial for enhancing water quality and public health. Therefore, periodic assessments of pesticide levels in these resources are essential to safeguard consumer health.
Materials and Methods: This study aimed to assess the concentrations of six pesticides—malathion, diazinon, glyphosate, paraquat, deltamethrin, and cypermethrin—in agricultural water resources as well as in urban and rural water distribution networks in Fasa city in 2023. Pesticide levels were monitored in 25 drinking water samples and 6 agricultural water samples.
Results: The results show that pesticide concentrations are higher in agricultural water compared to drinking water and distribution networks. Specifically, the concentrations of malathion and diazinon in agricultural water resources are significantly higher than in drinking water, with levels potentially up to eight times greater. The total risk index for samples from agricultural water sources ranges from 0.89 to 1.36, indicating a comparable risk to that of drinking water.
Conclusion: The health risk assessment of malathion, diazinon, glyphosate, paraquat, deltamethrin, and cypermethrin in drinking water resources suggests no immediate threat to public health. However, due to the elevated pesticide levels in agricultural water resources, ongoing monitoring of water sources near agricultural areas is recommended.
Mohamad Parsi Mehr, Eisa Solgi,
Volume 17, Issue 4 (3-2025)
Abstract
Background and Objective: The Qazvin Plain, one of the key agricultural regions in Iran, faces significant challenges affecting the quality of its water resources. These challenges include changes in land use (LU) and the expansion of activities such as agriculture and industry. Assessing, modeling, and predicting total dissolved solids (TDS) and the sodium absorption ratio (SAR) in groundwater—two critical parameters influencing water resource usability—can play a pivotal role in managing water quality in the region.
Materials and Methods: This study aimed to investigate and model the relationship between LU and water quality parameters. TDS and SAR values were first mapped using the inverse distance weighting (IDW) interpolation method. Land use in the Qazvin Plain was then classified using Landsat 8 satellite imagery and the supervised maximum likelihood classification method. Finally, geographic weighted regression (GWR) was employed to model and examine the spatial relationship between the LU distribution patterns in the Qazvin Plain and the groundwater quality parameters.
Results: The coefficient of determination (R²) for the relationship between SAR and LU was 0.74, while for TDS and LU, it was 0.81. These findings highlight a significant influence of LU changes on groundwater quality parameters in the study area.
Conclusion: The results demonstrate a strong correlation between LU and groundwater quality parameters. Moreover, the application of GWR proved effective in capturing spatial variations and providing accurate tools for analyzing these relationships. This approach can be instrumental in the sustainable management of water resources in the Qazvin Plain.
Mojtaba Moazzen, Amir Mohammad Mortazavian, Nabi Shariatifar, Sara Sohrabvandi, Elham Khanniri, Seyedeh Mahsa Khodaei,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Obejective: Many elements can naturally or artificially enter human food and pose risks to human health. Some of these elements are toxic, while others are essential for humans. The purpose of this study is to investigate the concentrations of toxic elements (aluminum (Al), arsenic (As), cadmium (Cd), nickel (Ni), and lead (Pb)) and essential elements (cobalt (Co), chromium (Cr), iron (Fe), manganese (Mn), and zinc (Zn)) in yogurt and kashk samples.
Materials and Methods: In this study, the concentration of 10 elements was measured using an ICP-OES device in 48 samples (with two repetitions each) of yogurt and kashk collected from Tehran. The risk associated with human exposure to these metals was then calculated using the Latin Hypercube method.
Results: The results showed that in all samples, the highest and lowest average concentrations of essential elements (in µg/kg) were attributed to iron (567.53) and cobalt (10.58), respectively. Similarly, the highest and lowest average concentrations of toxic elements were attributed to arsenic (28.60) and cadmium (1.08), respectively.
Conclusion: Finally, it can be concluded that the average concentration of all elements—except for Pb, Co, and Cd—was higher in kashk than in yogurt. Additionally, the average concentration of all elements was below the established standards. However, the risk analysis results indicated that children are more exposed to non-carcinogenic risks from yogurt and carcinogenic risks from the consumption of both yogurt and kashk compared to adults.
Somayeh Alizadeh Attar, Alireza Pardakhti, Khosrow Ashrafi, Mohammad Sadegh Hassanvand,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Objective: Black carbon is a byproduct of the incomplete combustion of fossil and biomass fuels. Long-term exposure to black carbon has been linked to an increased risk of lung cancer and cardiovascular diseases. This study aims to evaluate the carcinogenic and non-carcinogenic risks associated with black carbon exposure in the ambient air of Tehran.
Materials and Methods: Hourly black carbon concentrations were collected from the air quality monitoring stations operated by Tehran's Air Quality Control Company and averaged to calculate annual means for 2021, 2022, and 2023. The risk assessment for black carbon exposure in Tehran was conducted using the US EPA model.
Results: The findings reveal that in Tehran, the carcinogenic risk index (CR) due to black carbon exposure in ambient air is higher for adults than for children. The non-carcinogenic risk quotient (HQ) for both age groups remains below the threshold value of one, indicating a low and negligible non-carcinogenic risk. However, children demonstrate a higher HQ compared to adults. The lifetime cancer risk associated with black carbon exposure is calculated to be 1.4 × 10-3, while the annual cancer risk is estimated at 0.02 × 10-3.
Conclusion: The results indicate that the carcinogenic risks associated with black carbon exposure exceed acceptable levels for both adults and children. Adults face a cancer risk six times greater than children, though the non-carcinogenic risk is assessed as low. Reducing black carbon emissions is critical for improving public health in traffic-congested cities, and further research on this topic is strongly recommended.
Mohadeseh Narouei, Narjes Okati, Fatemeh Einollahi Peer ,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Objective: Assessing the life cycle and evaluating the carbon footprint in thermal power plants is crucial due to their reliance on fossil fuels. This study was conducted to evaluate the environmental impacts and carbon footprint of the Iranshahr steam power plant.
Materials and Methods: Primary data were collected and analyzed using SimaPro software and the ReCiPe 2016 method (Hierarchist perspective). The carbon footprint was assessed through data modeling based on the International Panel on Climate Change (IPCC) method. The functional unit was defined as one kilowatt-hour (kWh) of electricity generated, and the system boundary was set as gate-to-gate.
Results: The study revealed that the most significant environmental impacts of the power plant were related to human carcinogenic toxicity, accounting for 42% at the midpoint level, and damage to human health, contributing 86% at the endpoint level. Sensitivity analysis identified natural gas as the most influential factor affecting the results. According to the IPCC method, fossil fuel consumption contributed 94% to the global warming potential. The highest amount of CO2 emitted was 0.946 kg per kWh of electricity produced.
Conclusion: The CO2 emissions per kWh of electricity produced (0.946 kg/kWh) exceeded the average CO2 emission factor for fossil fuel power plants in Iran (0.64 kg/kWh). Based on these findings, it is recommended to prioritize the use of renewable and clean energy sources, such as wind and solar power, as alternatives for electricity generation in the region.
Soheil Sobhanardakani, Nayereh Sadat Hosseini,
Volume 18, Issue 3 (12-2025)
Abstract
Background and Objective: Evaluating environmental and health risks from urban soils contaminated with toxic elements is crucial for maintaining urban ecosystem quality and public health. Therefore, this study assessed the environmental and health risks of As, Cd, Ni, and Pb in surface soils of city of Hamedan in 2022.
Materials and Methods: A total of 135 topsoil (0-20 cm) samples were collected from residential, commercial, and industrial areas of the study region, and their concentrations were determined using ICP-OES. The pollution index (PI) and Nemerow integrated pollution index (NIPI) were calculated to assess contamination levels. Additionally, a health risk assessment model was applied to evaluate non-carcinogenic and carcinogenic risks.
Results: The highest mean concentrations of As (6.91 mg/kg), Cd (0.306 mg/kg), and Ni (23.9 mg/kg) were found in industrial areas, while Pb (31.2 mg/kg) was highest in commercial areas. According to the PI values, pollution levels of the analyzed elements ranged from "low" to "high." The mean NIPI value was 2.62, indicating "moderate" contamination in the study area. The average hazard index (HI) and total carcinogenic risk (TCR) values for both children and adults suggested no significant health risks.
Conclusion: The results indicate that industrial activities and traffic play a significant role in soil pollution in Hamedan. Therefore, periodic soil monitoring, reducing pollutant emissions from industrial sources, and improving transportation management policies are recommended to safeguard human and environmental health.
Negin Alaei Borujeni, Reza Gholamnia, Amin Bagheri, Amir Kavousi, Reza Saeedi,
Volume 18, Issue 4 (3-2026)
Abstract
Background and Objective: Performance assessment of health, safety, and environmental (HSE) management is the process of applying and estimating components and indicators through which the extent of achieving organizational objectives, as well as progress and continuous improvement in the HSE domain, can be determined. In this study, a performance assessment index for urban HSE management using a process–outcome approach was developed and applied in Isfahan.
Materials and Methods: The index design process included the following steps: (1) extracting preliminary list of principles and indicators, (2) determining the principles and indicators through expert panel consultation, (3) assigning weights to the components of the index, (4) defining integration functions, and (5) classifying the index score. The required data for evaluating HSE management in Isfahan were collected through visits to relevant organizations, existing reports and studies, and public surveys.
Results: The performance assessment index of urban HSE management, including 16 principles and 61 indicators, was validated based on expert panel opinions, and the total weights of process-oriented and outcome-based indicators were 0.16 and 0.84, respectively. The HSE performance score for Isfahan was 66.4, indicating a medium level. The most important domains identified for improvement of HSE management in Isfahan (based on high weight and low performance score) were ambient air quality, access to health-care services, solid waste management, prevention of resource degradation and loss, public education, and top management commitment.
Conclusion: The developed index demonstrated satisfactory effectiveness in assessing the performance of urban HSE management and due to comprehensiveness and flexibility can be applied to other cities.
Nabi Shariatifar, Majid Arabameri, Hanie Asghari, Hossen Bahramzad, Mojtaba Moazzen, Mohammad Rouzbahani, Gholamali Sharifiarab,
Volume 18, Issue 4 (3-2026)
Abstract
Background and Objective: Bread is one of the most important foods in the world that may contain harmful compounds such as acrylamide (AA). The aim of the present study was to measure the levels of AA in three types of widely consumed Iranian bread (Sangak, Lavas, and Taftoon).
Materials and Methods: A total of 36 bread samples were randomly collected from 4 districts of Tehran. A derivatization method was used to prepare the samples, and gas chromatography-mass spectrometry (GC-MS) was used to measure the amount of (AA). Carcinogenic risk assessment for the different types of flatbreads was performed using Monte Carlo simulation technique.
Results: The average (µg/kg) AA (maximum-minimum) in all bread samples was 170.4±80.8 (62.4-301.4). Also, the average AA in Lavash, Taftoon and Sangak bread samples was 98.6±24.5, 142.6±52.1 and 270.0±21.14 µg/kg, respectively. The chronic daily intake (CDI) of AA (50th) from flatbread was at 4.78×10-4mg/kg/day for adults and 1.02×10-3 mg/kg/day for children. On the other hand, the non-cancer hazard index (THQ) (50th) values were 2.36×10-1 and 5.13×10-1, respectively. While the incremental lifetime cancer risk (ILCR) (50th) were 2.31×10-4 for adults and 5.10×10-4 for children.
Conclusion: The average AA in the samples was higher than the EU standard (50-80 µg/kg) level. Considering the average AA concentration values in bread types and the estimated ILCR values, there is a possibility of carcinogenic risk and further monitoring is needed at all stages of bread production.
Ghazal Yousefian, Seyed Morteza Hodaei, Mohammad Rezvani Ghalhari, Alireza Yousefian, Habib Fasahat, Afshin Ebrahimi,
Volume 19, Issue 1 (6-2026)
Abstract
Background and Objective: The implementation of desalination projects is not without challenges and can have adverse environmental consequences on the environment. The present study was conducted with the aim of assessing the environmental impacts of the desalination of brackish groundwater in the villages of Taft city.
Materials and Methods: Based on field visits to the study area and the prevailing environmental conditions in the region, as well as considering the specific conditions of implementing desalination facilities, questionnaire checklists were used to examine the spatial sensitivity of the project. The Wooten and Rao matrix was used to analyze the relevant environmental activities and consequences.
Results: The results showed that the project overall has a predominance of positive effects, which is confirmed by obtaining a final score of +29. The highest positive scores belong to social and economic dimensions such as income parameters (+27), welfare (+24), and employment (+24). However, the results emphasize the focus of negative impacts on the physical environment, with the most severe impacts being noise pollution (-9) and groundwater resources (-16).
Conclusion: In the present study, the positive impacts outweigh the negative impacts; therefore, implementing this project is deemed appropriate based on the Wooten and Rao matrix criteria, and it does not have any major adverse effects on the region's environment. In addition, the transfer of wastewater to this location has no impact on erosion, compaction, and soil structure degradation, as well as the quality of the aquifers in the region.