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In recent years, mine conveyor belt fire accidents have occurred frequently, and an enormous amounts of toxic smoke generated during fire accidents seriously threaten the lives and safety of miners. To evaluate the smoke toxicity from mining conveyor belt fires and determine the characteristic gases for early warning of the fire, the combustion performance test and smoke density infrared spectroscopy combined test were employed to qualitatively and quantitatively analyze the change patterns of combustion products, and the index toxicity (CIT) and fractional effective dose, toxicity evaluation models, were used to evaluate the toxicity of combustion products. The results of this study showed that the heat release rate and smoke release rate of the conveyor belt had similar trends under different thermal radiation intensities, and the peak values of the heat release rate and smoke release rate increase with the increase in thermal radiation intensity. A total of 19 gas-phase substances were detected in the combustion products, among which the conventional index of toxicity of CO and HCl were 1.007 and 10.43 times the reference value, respectively, which are the leading causes of casualties in mine conveyor belt fires. In addition, the CIT of SO 2 , HCN, NO 2 , and CO 2 was 38.79%, 36.98%, 26.05%, and 9.00% of the reference value, respectively, all of which are highly toxic. Therefore, the above six types of gases can be used as indicator gases for conveyor belt fire early warning. The results of this study have vital guiding significance for the planning of escape routes and early monitoring and warning for personnel in mine conveyor belt fires.

Three sampling campaigns were performed in the Lis River (Leiria, Portugal) in February of 2018, November of 2018, and May of 2019. River water and wastewater (influent and effluent) samples of two wastewater treatment plants were target of the study. A total of 25 samples were collected and 50 pesticides were monitored, including organochlorines, triazines, pyrethroids, and organophosphorus, among others. Most of the detected pesticides were insecticides and mainly organochlorines. Concentrations between 1.29 and 2134 ng/L were found. Aldrin, γ-HCH, and cypermethrin were detected in some samples in μg/L, being γ-HCH the pesticide most frequently detected with concentration in μg/L level. The pesticides with the highest detection frequency were (i) cypermethrin, HCB, methoxychlor, and ζ-HCH in river waters; (ii) isoproturon, cypermethrin, methoxychlor, pyrimethanil, γ-HCH, dieldrin, diuron, α-HCH, and α-endosulfan in effluents; and (iii) diuron and isoproturon in influents. The detection of the organochlorides and their degradation products is a consequence of their persistence in the environment, as their usage has long been prohibited in the European Union. Pesticides were grouped by their types in herbicides, insecticides, or fungicides and the detection and concentration for each type were discussed with the climatic conditions. Pesticide toxicity index was determined in the samples collected in the river. Graphical abstract

This research focuses on examining the potential impact of charcoal briquettes and lumps on human health due to the emissions they release, and verifying their quality standards. Quality assessment was conducted using a device capable of measuring toxic gases to identify contaminants from various sources such as biomass, synthetic resins, coal, metals, and mineral matter. Toxicity assessments were carried out on five types of briquettes and two varieties of lump charcoal. All charcoal samples were subjected to elemental analysis (SEM/EDAX), including the examination of Ca, Al, Cr, V, Cu, Fe, S, Sr, Si, Ba, Pb, P, Mn, Rb, K, Ti, and Zn. The results showed that burning lump charcoal had toxicity indexes ranging from 2.5 to 5, primarily due to NO x emissions. Briquettes, on the other hand, exhibited higher toxicity indices between 3.5 and 6.0, with CO 2 being the main contributor to toxicity. The average 24-h CO content of all charcoal samples exceeded the World Health Organization’s 24-h Air Quality Guideline of 6.34 ppm, with a measurement of 37 ppm. The data indicates that most of the products tested did not meet the prevailing quality standard (EN 1860-2:2005 (E) in Appliances, solid fuels and firelighters for barbecuing—Part 2: Barbecue charcoal and barbecue charcoal briquettes—Requirements and test method, 2005), which specifies a maximum of 1% contaminants, with some products containing as much as 21% impurities. The SEM analysis revealed irregularly shaped grains with an uneven distribution of particles, and the average particle size distribution is quite broad at 5 μm. Malaysia Charcoal had the highest calorific value at 32.80 MJ/Kg, with the value being influenced by the fixed carbon content—higher carbon content resulting in a higher calorific value.

Viticultural practices and landscape composition are the main drivers influencing biological pest control in vineyards. Predatory mites, mainly phytoseiid (Phytoseiidae) and tydeoid mites (Tydeidae), are important to control phytophagous mites (Tetranychidae and Eriophyidae) on vines. In the absence of arthropod prey, pollen is an important food source for predatory mites. In 32 paired vineyards located in Burgenland/Austria, we examined the effect of landscape composition, management type (organic/integrated), pesticide use, and cover crop diversity of the inter-row on the densities of phytoseiid, tydeoid, and phytophagous mites. In addition, we sampled pollen on vine leaves. Typhlodromus pyri Scheuten was the main phytoseiid mite species and Tydeus goetzi Schruft the main tydeoid species. Interestingly, the area-related acute pesticide toxicity loading was higher in organic than in integrated vineyards. The densities of phytoseiid and tydeoid mites was higher in integrated vineyards and in vineyards with spontaneous vegetation. Their population also profited from an increased viticultural area at the landscape scale. Eriophyoid mite densities were extremely low across all vineyards and spider mites were absent. Biological pest control of phytophagous mites benefits from less intensive pesticide use and spontaneous vegetation cover in vineyard inter-rows, which should be considered in agri-environmental schemes.

The transition toward sustainable conservation practices requires a scientifically ground approach to substituting traditional solvent systems with green alternatives. This study aims to facilitate the adoption of green solvents by restoration professionals by systematically evaluating their chemical compatibility and toxicological safety. By integrating Hansen solubility parameters (HSP), Relative Energy Difference (RED), and the Integrated Toxicity Index (ITI), we identified green solvents with high potential for replacing Cremonesi mixtures. The analysis revealed that ether-based solvents, such as 2,5-dimethyltetrahydrofuran and cyclopentyl methyl ether, exhibit high chemical affinity with Cremonesi mixtures, while esters and fatty acid methyl esters (FAMEs) offer a balanced combination of solubility and low toxicity. However, the study also underscores significant gaps in safety data (SDS) for many innovative solvents, highlighting the need for further toxicological evaluation before widespread implementation.

The toxicity index (TI) is a summary index that accounts for toxicity grades associated with cancer symptoms that is more sensitive than other toxicity systems to treatment differences. The TI can be used with patient-reported symptoms but requires that scores for different items represent equivalent severity. The purpose of this article is to provide an example of scoring patient-reported symptoms that satisfies the requirement of equivalent symptom severity. A sample of 1232 adults with rectal cancer from a Phase III clinical trial self-reported 18 symptoms on the European Organization for Research and Treatment of Cancer colorectal cancer measure using a 4-category response scale (not at all, a little bit, quite a bit, or very much). The participants were 22 to 85 years of age (mean age, 57 years), 30% were female, 85% were non-Hispanic white, 59% had stage II cancer, and 41% had stage III cancer. A recoded TI was created using item response theory category thresholds. The recoded TI had larger rank-order correlations than the original TI with Karnofsky performance status index, hemoglobin level, symptom bother, and other aspects of health-related quality of life. Recoding items based on category thresholds yielded a more valid TI score that can be used to summarize adverse events.

Background Level of symptom burden for cancer patients can be summarized using simple-summated scoring of multiple patient-reported symptoms. The Toxicity Index (TI) is an alternative that has been used primarily to summarize clinician-reported toxicities. Objective To compare the TI with simple-summated scoring of 28 patient-reported symptoms. Methods This is a secondary analysis of longitudinal data from a clinical trial of women with stage 2 or 3 breast cancer: baseline (n = 2156) and 6 months later (n = 1764). Study participants completed the 28-item Breast Cancer Prevention Trial symptom checklist assessing level of symptom bother in the past 7 days and four criterion items assessing general health and overall quality of life. Results Associations of simple-summated scoring of the 28 cancer-related symptoms with the general health and overall quality of life items tended to be larger than correlations of the TI summary scoring of the symptoms. For example, the Spearman correlation of change in quality of life was − 0.38 with change in the simple-summated score and − 0.23 with change in the TI. Conclusion The findings suggest that simple-summated scoring and differential weighting of the level of symptom bother yield similar results. Implications for Practice Clinicians can use simple-summated scoring rather than more complicated scoring algorithms to obtain an indication of overall level of symptom burden among cancer patients.

The Santiago-Guadalajara River Basin (SGRB), located in western Mexico, is one of the most polluted rivers in the country. A pesticide monitoring program was carried out from January 2022 to September 2022, during which time water samples collected at 25 sites in the main stem and tributaries revealed the presence of 13 of the 24 pesticides analyzed, including α-BHC, β-BHC, γ-BHC (Lindane), γ-Chlordane, Hexachlorobenzene, Heptachlor, Aldrin, α-Endosulfan, DDT, -4,4, Methoxychlor, Chlorpyrifos-methyl, Endosulfan sulfate, and Dicofol. A high level of correlation was found between the identified pesticides, which could mean that several of these pesticides reached a stable level within the monitored water bodies. Most of the identified pesticides are classified as high environmental risk according to the Stockholm Convention because of their persistence and high degree of toxicity to the environment and human health. A Pesticide Toxicity Index (PTI) was applied to identify the streams considered to be of concern due to the presence of pesticides exceeding the threshold limits established by national and international guidelines. Performing a calculation for the entire Santiago-Guadalajara River Basin, the PTI reached a value of 0.833, which, according to the criteria of this method, classifies it as a “Moderate” level of risk for aquatic life. Increased regulatory and surveillance measures by state and federal authorities are required to prevent the use of these pesticides, which have been restricted globally.

Air pollution in Port Harcourt metropolis exacerbated by ambient air-borne black soot particles in the past 4 years has become a great concern especially for children who indulge in recreational pools’ activities. This study was therefore carried out to evaluate the toxicities of recreational pools in Port Harcourt City and hence perform preliminary health risk assessment. Five recreational pools (4 outdoor and 1 indoor) were used out of the randomly selected 8, from 30 that were identified. Toxicity assessment was carried out using “Ostracods-linked mathematical model” while risk assessment was by analysing protein oxidation and hepatotoxicity in the hepatocytes of exposed rats. Questionnaire-based approach was used to elicit relevant information from children (10–13 years) who consistently engaged in recreational pool activities. The pH and temperature and bacteriological examination of the pools were also carried out. Results show that all the pools were in fairly good sanitary conditions based on the highest mean bacterial counts (2.33±0.57/100 ml), while all were slightly acidic and with normal temperature range. The toxicity indices of outdoor pools (SP 1) and (SP 5) are respectively 20.8 and 49.0 units, while that of outdoor pools (SP 2) and (SP 3) are the same (42.5 units). “No-observed-effect-toxicity” (NOET) was observed for the indoor pool (SP 4). Analysis of the structured questionnaires inferred that none of the children traced has or has had any of the recreational water illnesses. However, results of protein oxidation in rats and hepatotoxicity of rats’ hepatocytes suggest that the exposed children may be at oxidative stress-related risks in future especially if the children continue, without adequate precaution, in the use of these pools. It is recommended that further monitoring of these children be continued while measures such as frequent changes of the pool water are ensured.

River water-column and bottom-sediments samples were screened for 160 pesticide compounds to compare the types of pesticides present in the water-column versus bottom-sediments, and between segments of rivers flowing through intensively-managed versus semi-natural habitats. Of the 35 pesticide compounds detected, current-use pesticides accounted for 96% (water) and 76% (bottom sediments). Pesticide mixtures were present in 72% (water) and 51% (sediment) of the total samples. Only the river flowing through the most intensively managed habitat showed a wide range of pesticides in sediments, and many of these pesticides were also present in the water-column of that river. Current-use fungicides were detected in both the water-column and bottom-sediments but not in samples taken from rivers flowing predominantly through semi-natural habitats. The study period (May to August) corresponds to the peak time of regional pesticide applications and hence the time period that is most likely to show elevated concentrations of current-use pesticides in the water-column. The environmental concentrations of pesticide mixtures detected in the water-column were used to calculate Pesticide Toxicity Index (PTI) values as it applies to non-vascular or vascular plants, invertebrates, and fish. The PTI values were largest for non-vascular and vascular plants, reflecting that the pesticide mixtures in water-column were dominated by herbicides.