Showing 182 results for Ali
Ali Hamidi, Maryam Ravanipour, Masoumeh Ravanipour,
Volume 17, Issue 2 (9-2024)
Abstract
Background and Objective: Scientometrics is used to identify existing study gaps, discover the future research directions, investigate fundamental trends and implement the necessary policies in a specific field of knowledge. Considering the key role of environmental factors in the health trends and the varyingburden of diseases in the country, this study was conducted with the aim of performing scientometric analysis of the role of environmental health in the prevention and control of diseases related to environmental factors in Iran.
Materials and Methods: Bibliographic information related to scientific documents indexed in the Web of Science database until September 12, 2022, was analyzed and visualized using Citespace and Biblioshiny software.
Results: A total of 1,212 documents were retrieved. These documents were published in 629 sources with the participation of 8,461 authors. The average publication year of the documents was 2010. The top three ranks of organizational affiliations were as follows: Tehran University of Medical Sciences (747 documents), Isfahan University of Medical Sciences (436 documents), and Shahid Beheshti University of Medical Sciences (393 documents). Iran's cooperation network with other countries indicates substantial joint researchbetween Iran and the main countries in this network. Over time, the co-occurrence network of keywords has evolved from outcomes (such as cardiovascular diseases, cancers, etc.) to environmental exposure factors, especially air pollutants, heavy metals, and food-borne pathogens factors. Risk assessment has also been a category of interest in recent years.
Conclusion: Scientometric analysis showed that environmental health studies in prevention and control of diseases related to environmental factors in Iran are young and still progressing. In the early years, studies were mainly focused on diseases as an outcome, while in recent years, they have focused more on exposure factors or environmental pathogens. It is suggested that the future studies based on the retrieved keywords should be more mission-oriented and the priority of solving the problems of environmental pollutants affecting people's health in the country based on the extent and scope of the problems of each province should be considered by policy makers and researchers.
Hadi Niknejad, Nima Kalvani, Mehdi Seyedirad, Alireza Ala, Reza Saeedi, Mehrnoosh Abtahi, Fathollah Gholami-Borujeni,
Volume 17, Issue 2 (9-2024)
Abstract
Background and Objective: There have been concerns about microbial contamination along the coastal cities in the north of the country, particularly in cities of Mazandaran province, which could pose health risks for swimmers and tourists. The present study aimed to quantitatively assess the risk of gastrointestinal diseases resulting from exposure to E. coli and enterococci bacteria during recreational activities on the beaches of Fereydunkanar.
Materials and Methods: In this cross-sectional descriptive study, 66 grab samples collected during the summer were analyzed to investigate microbial contamination in the recreational beach waters of Fereydunkanar.The Monte Carlo simulation method was used to calculate both daily and annual infection risks.
Results: The findings demonstrated that transmission of enterococci was more likely than that of E. coli in the swimming areas of these beaches. The average annual infection risk for E. coli was 0.41 for adults and 0.69 for children . Additionally, the annual risk of enterococci infection was 1 for adults and 0.99 children and, which exceeds the range advised by the WHO and EPA. These findings indicate that children have a higher infection risk compared to adults.
Conclusion: Unrestricted discharge of municipal and industrial wastewater effluents into sea and rivers can contribute to the presence of harmful microbes in beaches. By implementing effective environmental and recreational management strategies, it is possible to minimize the risk of public health hazards at recreational beaches while also preserving the natural beauty of these important public spaces.
Ali Amoozadeh, Hamzeh Saghafi,
Volume 17, Issue 3 (12-2024)
Abstract
Background and Objective: In recent decades, the issue of crop product safety has led to develop methods for analyzing pollutants in crops. In the present study, ultra-trace amounts of lead (II) ions were measured in lettuce and water samples collected from Shahmirzad, located in Semnan province, an area known for its lead-containing mineral mines.
Materials and Methods: After sampling and pre-preparation, the lead content in each sample was extracted using solid phase extraction with modified silica gel. The recovery percentage of lead was then determined using atomic absorption spectroscopy.
Results: Optimization of key parameters such as pH, adsorbent amount, analyte flow rate, and volume resulted in a recovery rate of 104%. The experiments also demonstrated a very low limit of detection (LOD) of 1.14 ng/mL, a concentration factor of 250, high analyte selectivity of the adsorbent in the presence of interfering ions, and a high adsorbent capacity of 2.93 μg/g.
Conclusion: The evaluation of experimental data indicates that the current study provides a highly selective method that can be applied to the extraction and recovery of various analytes from different sample types.
Gholamreza Shaghaghi, Amir Hossein Javid, Sara Allahyaribeik, Ali Mashinchian Moradi,
Volume 17, Issue 3 (12-2024)
Abstract
Background and Objective: The discharge of seawater concentrate from desalination plants into the sea causes irreparable effects on the environment. The purpose of this study is to identify the effects of this discharge, model methods for optimizing it, and design an effective outlet that minimizes environmental impacts and costs.
Materials and Methods: This study discusses impacts of seawater concentrate discharged into the sea, numerical modeling of diffusion, and outlet design based on discharge standards.A review of articles and sources from databases such as Google Scholar, Academia, Scopus, Civilica and Irandak was conducted using keywords such as “brine discharge”, “numerical modeling”, and “outlet design.” Out of 132 reviewed articles, 45 articles were consistent with the objectives of the study.
Results: The effects of seawater discharge can be observed in the discharge area and at greater distances. Numerical modeling is employed to predict pollutant concentrations at various distances and to determine the optimal discharge point while considering established standards. The design of the diffuser and the use of multiple nozzles at an angle of 60 degrees result in the greatest dilution at the discharge point.
Conclusion: The use of desalination systems necessitates addressing the effects of climate change. Appropriate modeling and design of the outlet are essential for complying with environmental standards and optimizing costs. Further research in this field is needed.
Mohammad Hssanabadi, Mohammad Sadegh Hassanvand, Mohammad Khanizadeh, Sasan Faridi, Adel Mokammel, Bita Malekian Esfahani, Ali Ahmadi Orkomi, Fatemeh Momeniha,
Volume 17, Issue 3 (12-2024)
Abstract
Background and Objective: The initial step in managing methane emissions is quantification. This study aims to comprehensively investigate the methods for estimating and measuring methane gas emissions in municipal solid waste landfills.
Materials and Methods: This systematic review includes studies published in English and Farsi between January 2005 and May 2023. English-language articles were included from PubMed, Web of Science, and Scopus databases, while Persian-language articles were included from SID, Majiran and Google Scholar.
Results: After evaluating the studies, 90 studies providing information on methods for measuring and estimating methane gas emissions in urban landfills were selected. The results showed that emission estimates based on widely used models like LandGEM and IPCC, despite being lower in cost and providing faster results, are often associated with relatively high uncertainty. Therefore, quantitative and qualitative methods of direct measurement are preferred for accurately determining methane emissions from landfills. The most commonly used methods for measuring greenhouse gases, especially methane from landfills, include direct reading equipment and closed flux determination chambers.
Conclusion: Estimating greenhouse gas emissions from primary sources allows responsible authorities to understand the current status of methane emissions and to formulate reduction strategies. The findings of estimated methane emissions from landfills can differ significantly from the actual measurements in some situations. Therefore, while these estimation methods are useful, fast and cost-effective tools, their inherent uncertainties should be considered when using them.
Sadegh Hosseinniaee, Mohammad Jafary, Ali Tavili, Salman Zare,
Volume 17, Issue 3 (12-2024)
Abstract
Background and Objective: Ethylenediaminetetraacetic acid (EDTA) is known as a synthetic chelating agent used for the remediation of soils contaminated with potentially toxic elements. Marrubium cuneatum is a medicinal plant with phytoremediation capabilities. This study investigated the effect of EDTA on the morph-physiological characteristics of this species and its rhizosphere soil.
Materials and Methods: Under greenhouse conditions, M. cuneatum was grown for six months in mine-contaminated soil with different levels of EDTA (0, 1, 3, 5 mmol/kg). Subsequently, its biomass, concentration of macro- and micronutrients, and soil biochemical properties—such as organic matter content, soil enzyme activity, and microbial biomass—were measured. Additionally, a regression model was established between EDTA concentration and shoot weight to predict the plant's growth response.
Results: A concentration of 5 mmol/kg EDTA decreased the dry weight of shoots and roots by 11% and 21.9%, respectively, compared to the control. The reduction in root macronutrient content was less pronounced with EDTA application compared to that of the shoots, with the greatest decrease observed for shoot potassium (40.70% compared to the control). The potassium-to-sodium ratio also decreased significantly. Despite improvements in some soil biochemical parameters at low EDTA levels, the 5 mmol/kg dose resulted in a 30% and 10% inhibition of urease and dehydrogenase activity, respectively. The regression relationship between EDTA concentration and shoot weight indicated that the maximum dry weight was obtained at a concentration of 2.4 mmol/kg.
Conclusion: Considering the adverse effects of EDTA at concentrations of 3 mmol/kg on soil and plants, as well as the predictive model of the growth response of M. cuneatum, it is suggested to investigate EDTA levels above 2.4 mmol/kg to determine the precise dose that initiates negative effects in soil and plants.
Alireza Mesdaghinia, Kamran Bagheri Lankarani, Kazem Naddafi, Mohammad Sadegh Hassanvand, Mohammad Paeezi, Reza Saeedi,
Volume 17, Issue 4 (3-2025)
Abstract
Background and Objective: The use of chemical pesticides is essential for integrated pest management; however, their improper application can lead to significant health and environmental consequences. This study aimed to develop an advocacy document for managing pesticide residues in agricultural products in the country, supported by the Academy of Medical Sciences of the Islamic Republic of Iran.
Materials and Methods: The study comprised the following steps: (1) formation of a committee to develop the advocacy document, (2) assessment of pesticide residue levels in agricultural products, (3) evaluation of the management of pesticide residues in the country, (4) drafting the advocacy document, and (5) proposing executive recommendations to improve the current situation.
Results: The systematic review and meta-analysis revealed that approximately 19% of agricultural products in the country exceeded the maximum residue level (MRL) set by the Codex Alimentarius Commission, a relatively high rate compared to other countries. While existing laws and regulations provided a clear framework for pesticide residue management and outlined stakeholder responsibilities, there was insufficient allocation of resources and support for policymakers, executives, beneficiaries, and the general public. The advocacy document identified stakeholder roles and defined five goals to enhance stakeholder engagement and foster intersectoral collaboration. The five key recommendations to improve the current situation were: (1) clarifying the current status of pesticide residue management, (2) setting quantitative goals for programs, (3) ensuring adequate budget and resource allocation, (4) leveraging expert opinions effectively, and (5) improving the performance of beneficiaries.
Conclusion: To ensure the implementation of these recommendations and achieve the goals outlined in this document, it is recommended to establish an advocacy committee on pesticide residue management in agricultural products. This committee should include representatives from all responsible organizations within the Ministry of Health, Treatment, and Medical Education.
Raziyeh Zandipak, Nader Bahramifar, Habibollah Younesi, Mohammad Ali Zolfigol,
Volume 17, Issue 4 (3-2025)
Abstract
Background and Objective: Dyes are significant pollutants that pose serious hazards to humans, animals and other organisms. They are not biodegradable through aerobic treatment processes, making their removal from industrial wastewater through photocatalytic processes essential. This research aimed to synthesize an imide-conjugated polymer photocatalyst for the first time and evaluate its effectiveness in removing Rhodamine B dye from aqueous solutions.
Materials and Methods: In this applied research, an imide conjugated polymer was synthesized and employed as a photocatalyst for the removal of Rhodamine B from aqueous solutions. The polymer was characterized using Scanning Electronic Microscopy (SEM), Transmission electron microscopy (TEM), Atomic force microscopy (AFM), X-Ray Diffraction (XRD), Thermogravimetric Analysis, Fourier transform infrared spectroscopy (FTIR), and Diffuse reflectance spectroscopy (DRS) methods. The study also assessed the influence of variables, including pH (4-9), photocatalyst concentration (0.01-0.04 g/L), and contact time (0-120 min), on the removal efficacy of Rhodamine B.
Results: The findings indicated that removal efficiency increased to 99% at a contact time of 45 minutes and a photocatalyst concentration of 0.02 g/L. The optimal pH for Rhodamine B removal was found to be 7.
Conclusion: The imide conjugated polymer proved to be an effective and accessible photocatalyst for the removal of rhodamine B from industrial wastewater under visible light.
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.
Zahra Nasiri, Kazem Naddafi, Ali Ahmadi Orkomi, Mohammad Sadegh Hassanvand, Sasan Faridi,
Volume 17, Issue 4 (3-2025)
Abstract
Background and Objective: The present study was designed to investigate the spatial and temporal (hourly, daily, monthly, and seasonal) variations in ambient fine particulate matter (PM2.5) concentrations in Tehran from 21 March, 2023, to 19 March, 2024, and estimate the number of premature deaths attributable to PM2.5.
Materials and Methods: Hourly PM2.5 data were obtained from 41 air quality monitoring stations across Tehran. Subsequently, 29 validated stations were identified for assessing spatial changes in pollutant concentrations and estimating the associated health effects. The latest version of the AirQ+ software (version 2.2.4) was employed to estimate health impacts attributable to PM2.5. Additionally, updated baseline data and the population of Tehran were used to assess the health effects of air pollution.
Results: The annual average concentration of ambient PM2.5 in Tehran over the study period was approximately 32 µg/m³ for the entire city. At validated monitoring stations and across neighborhoods, the concentrations ranged from 20.8–47.5 µg/m³ and 22.2–46.3 µg/m³, respectively. These levels were approximately 4 to 9 times higher than the World Health Organization's (WHO) annual air quality guidelines and 2 to 4 times higher than the NAAQS. The number of deaths attributable to long-term exposure to ambient PM2.5 in adults aged 30 and above in Tehran during the study period was estimated to be 9,321 (95% confidence interval: 7,232–10,313) for concentrations exceeding 5 µg/m³.
Conclusion: The results of this study highlight that ambient PM2.5 concentrations in Tehran over the study period consistently exceeded the WHO air quality guideline and the NAAQS. Furthermore, a comparison of pollutant concentrations across all validated monitoring stations and neighborhoods reveals that residents in all parts of Tehran experienced poor air quality. However, concentrations were significantly higher in some areas, particularly the central and southern parts of the city, compared to the northern regions.
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.
Akbar Eskandari, Mohammad Mosaferi, Alieh Tabasi,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Objective: Microplastics are emerging and persistent environmental pollutants. The most common types include polyethylene, polypropylene, polyvinyl chloride, polyformaldehyde, polystyrene, and polyamide. Due to their chemical and toxic properties, ability to absorb and release persistent organic pollutants, and association with heavy metals, microplastics pose a serious threat to both the environment and human health. Therefore, this study aimed to investigate the effects of microplastics on human health and the environment.
Materials and Methods: This descriptive review was conducted in 2024 to document the process of searching, screening, and reporting based on the PRISMA checklist for systematic reviews. Articles published between 2019 and April 2024 were searched using keywords such as "Microplastics," "Health Risk," "Emerging Contaminants," and their Persian equivalents in electronic databases, including PubMed, ScienceDirect, Scopus, Magiran, and SID.
Results: The effects of microplastics on human health include the absorption of aromatic hydrocarbons, dioxins, and other pollutants, leading to neurological and respiratory disorders such as asthma, pulmonary fibrosis, lung cancer, dizziness, gastrointestinal disorders, and genotoxic and cytotoxic effects. Furthermore, microplastics have detrimental effects on plants, microbial populations, soil structure, and the health of animals and humans.
Conclusion: Microplastics represent a significant environmental challenge, threatening human health and biodiversity. These particles enter the food chain and can cause hormonal imbalances and chronic diseases. Raising public awareness and reforming policies on plastic production and consumption are essential steps to mitigate this pollution.
Yeganeh Mazaheri, Farangis Marboutian, Saeed Aghebat-Bekheir, Alireza Bakhtiari, Behrouz Tajdar-Oranj, Behrouz Akbari-Adergani,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Objective: Benzoate and sorbate are utilized to prevent the growth of microorganisms and to extend the shelf life of most food products. However, according to national hygienic regulations, the use of these two preservatives in kefir is not permitted. In this study, the concentration of these preservatives in kefir was determined using high-performance liquid chromatography. Additionally, due to the importance of this issue and compliance with national regulations—which specify a maximum ethanol limit of 0.5% in kefir—the ethanol content of this product was also determined using the gas chromatography method.
Materials and Methods: In this descriptive-cross-sectional study, 88 samples of industrially produced kefir from different brands were randomly collected from various regions of Iran and sent to the laboratory at 4 °C. Statistical analysis of the data was performed using SPSS software, and one-way ANOVA was applied to compare the mean values. In all tests, a significance level of 0.05 was considered.
Results: Sorbate was not detected in any of the samples, while benzoate was observed in only 11 samples, with an average concentration of 0.6763 mg/L. The average concentration of ethanol was 0.2997%, and in 10 samples, the ethanol content exceeded 0.5%, which is in violation of national regulations.
Conclusion: The presence of trace amounts of sorbate in the product may be attributed to the activity of lactic acid bacteria. The increase in alcohol percentage could also be due to insufficient control over the fermentation process during production. To improve nutritional quality and safeguard consumer health, it is recommended that limits be established for preservatives in this product.
Khadijeh Darabi, Navid Alinejad, Ghasem Hassani, Ahmad Badeenezhad,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Objective: Littered waste is one of the most common forms of pollution in urban environments, primarily caused by citizens’ behavior in waste disposal. This study aimed to investigate the density and composition of littered waste in Behbahan, Iran, in 2023 and assess the pollution status using a specific environmental index.
Materials and Methods: This descriptive cross-sectional study evaluated the density and composition of littered waste in Behbahan's urban environment using visual surveys. The findings on the density and composition of abandoned waste were interpreted using the Clean Environment Index, an environmental ranking method that assesses the severity of litter pollution.
Results: The study revealed that the density of littered waste in the surveyed areas ranged from 0.011/m² to 0.954/m². The average density of littered waste in commercial, residential, and recreational land uses was 0.809/m², 0.196/m², and 0.011/m², respectively. Cigarette butts were the most common type of litter, constituting 61% of the total waste on average. The Clean Environment Index values for the surveyed locations ranged from 0.39 to 32.56, indicating that 63.6% of the sites were categorized as clean or moderately polluted, while 36.3% were classified as extremely polluted.
Conclusion: Given the significant proportion of cigarette butts in the composition of littered waste in Behbahan and their impact on the pollution index, efficient management strategies for this type of waste are crucial. The finding that over one-third of the surveyed locations fell into the "extremely dirty" category highlights the need to enhance the efficiency of the urban cleaning system.
Abdolrahman Gharanjic, Ramazan Ali Dianati Tilaki, Samaneh Dehghan, Abutaleb Bay, Fathollah Gholami-Borujeni,
Volume 18, Issue 2 (9-2025)
Abstract
Background and Objective: Proper operation and maintenance of hospital waste sterilization devices are crucial for preventing the spread of infections and hazardous diseases, as well as for safeguarding public health and the environment. This study aims to assess the operational and maintenance status of medical waste sterilization devices in public and private hospitals in Golestan Province.
Materials and Methods: This descriptive-analytical study was conducted in 17 public and 6 private hospitals in Golestan Province, all of which were equipped with vacuum steam autoclaves (without shredders) for medical waste sterilization. Monthly microbiological sampling was performed by an accredited environmental laboratory. Data were collected using standardized questionnaires and personal interviews, with results analyzed using frequency distributions, percentages, and central tendency measures.
Results: The overall microbial sterilization performance of the devices was 97.07%, indicating high efficacy in waste treatment. When comparing hospital types, public hospitals demonstrated a 96.93% satisfactory sterilization rate, while private hospitals performed slightly better at 97.22%. Regarding preventive maintenance, compliance was suboptimal, with public hospitals adhering to maintenance protocols 68.62% of the time, compared to 77.77% in private hospitals. Additionally, the sanitary conditions of sterilization device locations met required standards in 94.11% of public hospitals but only 69.05% of private hospitals, suggesting variability in facility upkeep.
Conclusion: To ensure device effectiveness and minimize risks in hospital waste management, implementing preventive maintenance programs and providing continuous staff training on proper device use are essential.
Farzaneh Borzabadi Farahani, Mahmood Alimohammadi, Jamshid Rahimi, Sanaz Khoramipour, Emad Dehghanifard,
Volume 18, Issue 2 (9-2025)
Abstract
Background and Objective: People spend over 90% of their time indoors, where air pollutant concentrations—including volatile organic compounds (VOCs)—are significantly higher than outdoors. Among these VOCs, benzene is particularly critical due to its carcinogenic properties. Phytoremediation offers a sustainable solution for removing such pollutants from indoor environments. This study evaluates the benzene-reduction efficiency of two ornamental plant species, Aglaonema ‘Silver’ and Chlorophytum comosum, under controlled temperature and humidity conditions.
Materials and Methods: The plants were exposed to two temperature levels (18°C and 24°C) and two relative humidity conditions (35% and 50%). Benzene was introduced into sealed chambers at concentrations of 1, 0.5, 0.25, and 0.125 µL/mL. After 12 hours of exposure, benzene reduction was quantified using gas chromatography.
Results: At 20°C and 35% RH, Aglaonema 'Silver' removed 96% of benzene, outperforming Chlorophytum comosum (38%). Removal efficiency depended on species, environmental conditions, and initial concentration. Predictive models (Eq. 2–3) correlated strongly with experimental data (R² > 0.9).
Conclusion: Aglaonema 'Silver' demonstrated superior benzene removal compared to Chlorophytum comosum under lower temperature and humidity conditions. Our findings highlight that selecting plant species adapted to specific environmental parameters can significantly improve phytoremediation effectiveness. Furthermore, the proposed model indicates that elevated temperature and humidity levels may enhance benzene removal efficiency by indoor plants.
Kiandokht Ghanati, Amirali Aghamohammadi, Nader Akbari, Gazal Mirzaei, Mahsa Karimi-Sarzameleh, Mohammad Hadi Dehghani, Parisa Sadighara,
Volume 18, Issue 2 (9-2025)
Abstract
Background and Objective: A large amount of waste is generated from shrimp farming, primarily consisting of shrimp heads and shells. These wastes are often discharged into aquatic environments, where they act as pollutants and threaten the survival of other aquatic organisms. Therefore, reusing shrimp waste can help reduce water pollution and mitigate its environmental impact.
Material and Methods: In this study, carotenoids from shrimp waste were extracted using three methods: acidic, enzymatic, and alkaline. The amount of carotenoids was quantified for each extraction method. Their antioxidant effects on crude sunflower oil, in the presence of copper sulfate, were then evaluated using the TBARS assay. In this method, malondialdehyde levels are measured as an indicator of lipid oxidation. For this purpose, equal amounts of the extracted carotenoids were added to crude sunflower oil along with copper sulfate and placed on a shaker for 24 hours. Subsequently, the malondialdehyde content was measured.
Results: The highest carotenoid yield was obtained using the alkaline extraction method. In the TBARS assay, the alkaline method also demonstrated the greatest inhibition of lipid peroxidation in the presence of copper sulfate.
Conclusion: It can be concluded that the alkaline method is a simple and cost-effective approach for extracting carotenoids from shrimp waste. These carotenoids are bioactive and valuable compounds with potential applications in the pharmaceutical and food industries.
Mahdi Elyasi Kojabad, Ali Aghdami,
Volume 18, Issue 2 (9-2025)
Abstract
Background and Objective: The paper industry is one of the most water-intensive sectors, generating a large volume of wastewater. Proper management of this waste—including its treatment, recycling, and reuse—can help prevent environmental pollution and conserve the country's water resources. In this study, a three-step process consisting of coagulation, ozonation, and membrane filtration was employed to treat papermaking wastewater.
Materials and Methods: A three-step process involving coagulation, ozonation, and membrane filtration was employed to treat the wastewater. In the first stage, polyaluminum chloride (PAC) was used to remove larger particles. This was followed by ozonation to degrade complex organic compounds. The final stage involved membrane filtration to further purify the water. At each stage, the chemical oxygen demand (COD) of the wastewater was measured and analyzed for comparative evaluation.
Results: Each stage played a critical role in the treatment process. Coagulation effectively removed a substantial amount of suspended particles, while ozonation addressed issues related to color and the breakdown of complex compounds. The final stage, membrane filtration, was instrumental in eliminating extremely fine suspended particles. Despite these efforts, the treated effluent exhibited a higher COD than the initial sample, possibly due to the release of intermediate compounds during treatment. However, the process successfully reduced the concentration of crude oil by 66%.
Conclusion: The membrane flux analysis revealed that at pH levels of 11 and 14, the effluent’s membrane flux closely approached that of pure water. This finding highlights the potential effectiveness of the proposed purification method for the treatment and recycling of papermaking wastewater.
Bahram Kamarehie, Majid Irvani Mofard, Nahid Khoshnamvand, Mohammadreza Samaei, Faramarz Azimi, Ali Tolabi,
Volume 18, Issue 2 (9-2025)
Abstract
Background and Objective: Although hygiene standards are often not fully observed in the preparation of many foods, the demand for ready-made meals has increased due to urbanization and time constraints. This study aimed to investigate and compare the microbial load on surfaces, equipment, and restaurant workers' hands before and after disinfection with savory extract, and to compare its effectiveness with ethanol in restaurants across Shiraz.
Materials and Methods: Ten restaurants in Shiraz were selected through simple random sampling for this study. A total of 180 culture media were prepared to identify Staphylococcus aureus and Escherichia coli contamination. Microbial load was quantified using luminometry. Data were analyzed using descriptive statistics, including measures of central tendency and dispersion.
Results: Following intervention with savory extract, microbial analysis revealed maximum Staphylococcus aureus contamination (33 CFU) on workers' hands in Restaurant C, while Restaurant J showed the lowest contamination level (16 CFU). Notably, alcohol-based intervention completely eliminated both S. aureus and E. coli contamination (0 CFU) across all sampled restaurants.
Conclusion: The findings demonstrate significant deficiencies in both food contact surface sanitation and worker hand hygiene across the studied restaurants, posing substantial public health risks. These results underscore the critical need for: (1) enhanced food safety training programs for food handlers, (2) strict personal hygiene protocols, and (3) rigorous regulatory inspections to mitigate potential health hazards.
Ali Salimifard, Kamyar Yaghmaeian, Mina Aghaei, Nazanin Dastjerdi, Fazlollah Changani Khorasgani,
Volume 18, Issue 2 (9-2025)
Abstract
Background and Objective: This descriptive-analytical study examined 21 years of data from Iran’s sugar industry. Waste production data were extracted from the Iranian Sugar Factories Association, and statistical analyses, including normality tests and Spearman correlation, were conducted using R software. Additionally, ArcGIS software was used to create a distribution map of active sugar beet industries in the country.
Materials and Methods: This descriptive-analytical study analyzed 21 years of data from Iran’s sugar industry. Waste production data were obtained from the Iranian Sugar Factories Association. Statistical analyses, including normality testing and Spearman correlation, were performed using R software. In addition, ArcGIS software was used to generate a distribution map of active sugar beet industries across the country.
Results: The results indicated a positive correlation between sugar beet consumption and the production of sugar beet pulp and filter mud. The estimated production coefficients were 0.29 and 0.08 tons per ton of raw material, respectively.
Conclusion: Efficient management of these wastes allows for their beneficial use in animal feed, biogas production, and soil amendment. Developing comprehensive waste management strategies is essential to minimize environmental impacts and improve the overall efficiency of the sugar industry.
