Increase In Concentrations Research Articles

In Situ Characterization of Dust Storms and Their Snow‐Darkening Effect Over Himalayas

AbstractIn this study, we used satellite observations to identify 10 typical dust‐loading events over the Indian Himalayas. Next, the aerosol microphysical and optical properties during these identified dust storms are characterized using cotemporal in situ measurements over Mukteshwar, a representative site in Indian Himalayas. Relative to the background values, the mass of coarse particles (size range between 2.5 and 10 μm) and the extinction coefficient were found to be enhanced by 400% (from 24 ± 15 to 98 ± 40 μg/m3) and 175% (from 89 ± 57 Mm−1 to 156 ± 79 Mm−1), respectively, during these premonsoonal dust‐loading events. Moreover, based on the air mass trajectory, these dust storms can be categorized into two categories: (a) mineral dust events (MDEs), which involve long‐range transported dust plumes traversing through the lower troposphere to reach the Himalayas and (b) polluted dust events (PDEs), which involve short‐range transported dust plumes originating from the arid western regions of the Indian subcontinent and traveling within the heavily polluted boundary layer of the Gangetic plains before reaching the Himalayas. Interestingly, compared to the background, the SSA and AAE decrease during PDEs but increase during MDEs. More importantly, we observe a twofold increase in black carbon concentrations and the aerosol absorption coefficient (relative to the background values) during the PDEs with negligible changes during MDEs. Consequently, the aerosol‐induced snow albedo reduction (SAR) also doubles during MDEs and PDEs relative to background conditions. Thus, our findings provide robust observational evidence of substantial dust‐induced snow and glacier melting over the Himalayas.

Effect of administration of nanoparticles of human chorionic gonadotropin on testicular hemodynamics, testicular volume, testicular echotexture, and circulating testosterone and nitric oxide in pubescent goat bucks under heat stress conditions

The current study investigated the effect of a single administration of human chorionic gonadotropin hormone (hCG) and its nanoparticles (NPs) on testicular hemodynamics using Doppler ultrasonography, testicular volume, testicular echotexture (PIX), and circulating testosterone and nitric oxide (NO) in pubescent goat bucks during summer months. Fifteen Baladi goats were divided into three groups (5 in each) and subjected to a single intramuscular administration of one ml of physiological saline ( control group), one ml containing 500 IU of hCG (hCG group) or one ml containing 125 IU of hCG NPs (hCG NPs group). Testicular hemodynamics assessment was done just before administration (0 h), and at 2, 4, 6, 24, and daily till 7 days after administration. Testicular volume and PIX were measured and analyzed by B-mode ultrasonography and computer analysis software. Testosterone and NO concentrations were measured using commercial kits. Results revealed significant decreases (P ˂0.05) in Doppler indices values (resistance index and pulsatility index) especially at 24 h in the hCG group (0.314 ± 0.01, 0.382 ± 0.01, respectively) compared with the hCG NPs group (0.428 ± 0.01, 0.567 ± 0.02, respectively), and the control group (0.464 ± 0.006, 0.64 ± 0.01, respectively). There were significant increases (P < 0.001) in testicular volume, PIX, testosterone, and NO concentrations in hCG NPs and hCG groups compared to the control group. There were no significant differences between the hCG NPs and hCG groups (P ˃ 0.05) in testicular volume and PIX, while testosterone significantly increased in the hCG group compared to the hCG NPs group and NO was significantly increased in the hCG NPs group compared to the hCG group. In conclusion, a single administration of hCG or its NPs improved testicular vascularization, testicular volume, and circulating testosterone and NO in pubescent goat bucks. So, hCG NPs could be recommended for improving the reproductive performance of goat bucks under heat-stress conditions.

Air quality and the risk of acute atrial fibrillation (EP-PARTICLES study): A nationwide study in Poland

Abstract Aim Air pollution remains the single largest environmental health risk factor, while atrial fibrillation (AF) is the most prevalent arrhythmia globally. The study aimed to investigate the relationship between short-term exposure to air pollution and acute AF admissions. Methods Individual data on AF hospitalization in the years 2011-2020 were collected from the National Health Fund in Poland (ICD-10: I48.XX). To obtain high-resolution data on air pollution we applied a modelling method using the GEM-AQ model. Associations between air pollution exposure and acute AF admissions were estimated using generalized additive models with Poisson regression. Results Over the analysed period, we recorded 252,566 acute admissions due to AF. Each 10 µg/m3 increment of PM2.5 and NO2 concentration, 1 µg/m3 of SO2 and 10 ng/m3 of benzo(a)pyrene (BaP) concentration on the day of exposure resulted in 1.13% (0.70%−1.55%), 1.65% (1.05%−2.26%), 0.11% (0.01%−0.21%), and 0.3% (0.04%−0.55%) increases in acute AF admissions, respectively. The estimates are larger for women and older people. Stronger associations between PM2.5 and BaP concentrations and AF admissions in poorly urbanized areas were noted. Areas with high gross domestic product levels were more affected by the increase in NO2 concentrations, resulting in a 0.2% (1.001-1.003) increase in AF admissions. Exposure-response functions show steeper slopes of the pollutant-outcome associations in the lower ranges of exposures, far below World Health Organization (WHO) air quality guideline norms. For the zero-emission scenario, we estimate avoidable AF admissions - 5,873 for PM2.5 (95% CI 3,679 to 8,047) and 3,295 for NO2 (2,108-4,477). Conclusions Air pollution acts as a triggering factor and can be associated with acute AF hospitalisations. PM2.5 and NO2 have an impact on AF even at concentrations levels below WHO air quality guideline norms.

Unravelling the mechanism of transient coastal upwelling in the southeastern Arabian Sea triggered by Cyclone Michaung

Abstract This study investigates the impact of Cyclone Michaung on coastal dynamics and biological changes in the southeastern Arabian Sea (SEAS). Utilizing data from a moored autonomous buoy, the water quality nowcasting system (WQNS), and multi-satellite datasets, the research documents significant changes in sea surface temperature (SST), salinity, and dissolved oxygen (DO) concentrations were driven by cyclone-induced upwelling and downwelling processes in the SEAS. The findings revealed that the passage of Cyclone Michaung led to a transient coastal upwelling event along the southwest coast of India (SWCI), marked by a notable decrease in SST and DO and an increase in salinity and chlorophyll-a concentrations, indicating enhanced biological production. The wind stress strengthening and changing wind pattern, almost parallel to the coast, initiated this process through wind-induced Ekman pumping, which uplifted the biological activity in the region.&amp;#xD;

Assessment of bacteriological and immunological markers in urinary tract infection and the effect of antibiotics on the isolated bacteria.

Urinary tract infections (UTIs) are recognized as the second most common medical condition, following respiratory infections. Despite the availability of numerous efficacious antibiotics for the management of UTIs, the rising incidence of bacterial resistance presents significant challenges in the treatment of these infections. Bacteria are endowed with the ability to reproduce and develop resistance mechanisms against antibiotics. The current investigation aimed to evaluate the susceptibility of bacterial isolates from urinary tract infections (UTIs) to a variety of antibiotics, including ciprofloxacin, trimethoprim, amikacin, gentamicin, tetracycline, chloramphenicol, nalidixic acid, nitrofurantoin, meropenem, and novobiocin. Additionally, the study sought to quantify the levels of the inflammatory immune marker interleukin-6 (IL-6) in UTI patients. It also explored the correlation between IL-6 levels in UTI patients and healthy controls, as well as the relationship between IL-6 levels and blood parameters in both infected and healthy individuals. The present study involved the collection of 155 samples from patients diagnosed with urinary tract infections of both genders and varying age groups, ranging from 15 to 75 years, at Salah al-Din General Hospital. The findings revealed that 102 urine samples tested positive for bacterial growth, resulting in a prevalence rate of 68%. In contrast, 53 urine samples were negative for bacterial growth, reflecting a prevalence rate of 32%. The diagnostic outcomes for all isolates, following the application of laboratory diagnostic methodologies, revealed a diverse array of bacterial species, including Escherichia coli, Klebsiella pneumoniae, Proteus mirabilis, Pseudomonas aeruginosa, Staphylococcus saprophyticus, Staphylococcus aureus, and Staphylococcus epidermidis. The immunological analysis revealed a statistically significant increase (p < 0.05) in IL-6 concentrations in the positive control group compared to the levels observed in the infected cohort. Our study concluded that significant antibiotic resistance in UTI pathogens, emphasizing the need for tailored treatments.

A leucine responsive small RNA AbcR200 regulates expression of the lactate utilization (lut) operon in Acinetobacter baumannii DS002.

Noncoding small RNAs are essential for modulating bacterial gene expression, especially under carbon and nutrient-limited conditions. In this study, by employing both in silico and molecular hybridization tools, we identified a carbon source responsive small RNA in A. baumannii DS002. Expression of corresponding gene, abcR200, located at the intergenic region of omt (O-methyltransferase) and orf72 genes, is under the transcriptional control of a global transcriptional factor, Leucine Responsive Regulatory Protein (Lrp). A sequence motif that serves as a target for Lrp was found overlapping the abcR200 promoter (PabcR200). Chromatin immunoprecipitation (ChIP) demonstrated that Lrp oligomers, formed under low leucine conditions, strongly interacted to the PabcR200. However, the observed interactions were disrupted in the presence of leucine, as leucine promoted dissociation of Lrp to monomers and dimers, the conformation unfavourable to interact with PabcR200. The abcR200 promoter activity increased with increase of exogenous leucine concentrations, and at 2 mM maximum promoter activity was observed. The AbcR200 target mRNAs were identified by analysing the transcriptome of abcR200 negative strain of A. baumannii. Intriguingly, in abcR200 negative background, expression of lut (lactate utilization) mRNA has increased, suggesting that lut mRNA as one of the mRNA targets for AbcR200. Consistent of this observation, there existed extensive sequence complementarity between AbcR200 and lut mRNA, especially in the regions coding LutP, LutE and LutR. In support of the observed sequence complementarity, the levels of lut mRNA encoded proteins got elevated in abcR200 negative HS002 strains suggesting a role for AbcR200 in translational inhibition of lut mRNA.

Effect of Major Impurity in the Vanadium‐Rich Solution on the Growth of NaV2O5 Crystals under Hydrothermal Conditions

NaV2O5 is a promising cathode material for ion batteries with high capacity and good cycle performance. The high concentration of vanadium and low impurity in vanadium‐rich solution makes it possible to be used as raw material for vanadium product preparation. Vanadium solution containing impurity was prepared to investigate its influence mechanism on NaV2O5 crystal precipitation. The influence of four major impurity elements on the precipitation of NaV2O5 following the order of P &gt; Al &gt; Si &gt; Fe. With the increase of impurity concentrations, vanadium conversion rate and V content of the precipitates decreased to varying degrees, while impurity content increased. When concentrations of Fe, Al and Si were high, the resulting precipitate was still NaV2O5, but the crystal structure changed. The AlOH and SiOH hider the condensation between VOH and broke the rod into irregular flakes and blocks. As P concentration gradually increased, the precipitates changed from NaV2O5 to VO2(H2O) 0.5 and then to Na3.053((V5O9)(PO4)2(OH)0.1(H2O)8, meanwhile, the morphologies changed from rod to plate, then to cross‐like, and finally to cube. Revealing the influence of impurity in vanadium‐rich solution on the growth of NaV2O5 crystal is conducive to the popularization of the process.

The Relationship of Th1/Th2 Cytokine Polarization at Parturition in Cows and SOCS3 Level With Some Postpartum Diseases.

Th1/Th2 polarisation and suppressor of cytokine signalling-3 (SOCS3) are important indicators of the humoral and cellular immune system activity in cows. The aim of this study was to determine the correlation of postpartum diseases with the levels of Th1/Th2 polarisation and SOCS3 at the time of parturition. The study examined 180 cows (90 with normal parturition [NP] and 90 with dystocia [D]). Blood samples were taken from the cows once at the time of calving. Two subgroups were created among cows with NP: those without the postpartum disease (NP [-], n = 45) and those with postpartum disease (NP [+], n = 45). Likewise, two subgroups were created among D cows: those without postpartum disease (D [-], n = 45) and those with postpartum disease (D [+], n = 45). Cytokine analyses were performed using species-specific commercial ELISA kits. In the NP (-) group, it was found that Th1/Th2 cytokine polarisation was in the Th1 direction due to the increase in the concentration of IFN-γ, TNF-α and IL-2 in four subgroups grouping with different types of parturition and diseases. It was concluded that it would be appropriate to strengthen cellular immunity. In cases of postpartum diseases, Th1/Th2 polarisation shifted towards Th2 due to the increase in IL-4 and IL-5 concentrations in cows that performed NP and developed mastitis in the postpartum period. These results suggest that it would be beneficial to support the Th2 aspect (i.e. humoral immunity) in cows that have undergone NP and develop mastitis in the postpartum period.

A ten-year historical analysis of urban PM10 and exceedance filters along the Northern Wasatch Front, UT, USA.

The Great Salt Lake (Utah, USA) is reducing in size, which raises several ecological concerns, including the effect of an increasing area of dry playa exposed by the retreating lake. This study focuses solely on concerns about the toxicity of metals in the dust blowing off the playa. Although considerable efforts have been made to understand aeolian dust in urban areas along the Wasatch Front, located just east and south of the Great Salt Lake, there is still a need to consolidate existing research and to conduct a compositional analysis of the dust found in these urban areas. We investigated the dust reaching urban monitoring sites around the Great Salt Lake that are managed by the Utah Division of Air Quality. By analyzing historical data, we found that the decrease in the Great Salt Lake's surface area has not led to a statistically significant increase in dust events in urban areas. Windrose plots align with prior research, indicating that heightened dust levels in urban areas coincide with winds originating from the south or west, passing over identified playas and deserts such as the Milford Flats, Sevier Dry Lake, Tule Dry Lake, Great Salt Lake Desert, Dugway Proving Grounds, and the West Desert of Utah. Metallic compositional analysis of urban dust was used to evaluate potential health risks associated with the dust using the hazard quotient, air regional screening levels, and cancer risk methods. This analysis revealed no significant increase in concentrations of toxic metals. However, this is not to preclude a risk of dust-related health concerns, especially due to pre-existing arsenic and lead levels. SYNOPSIS: This study provides insights into dust-related health risks and environmental impacts in Utah, analyzing dust exposure from shrinking Great Salt Lake.

Design, synthesis, and evaluation of benzhydrylpiperazine-based novel dual COX-2/5-LOX inhibitors with anti-inflammatory and anti-cancer activity.

Piperazine derivatives were screened using the ChEMBL database, paving the way for the design, synthesis, and evaluation of a novel series of dual COX-2/5-LOX inhibitors and identifying their role in mitigating cancer cell proliferation. Compound 9d with 4-Cl substitution at the terminal phenyl ring showed promising inhibition of COX-2 (IC50 = 0.25 ± 0.03 μM) and 5-LOX (IC50 = 7.87 ± 0.33 μM), outperforming the standards celecoxib (IC50 = 0.36 ± 0.023 μM) and zileuton (IC50 = 14.29 ± 0.173 μM), respectively. The two most active derivatives 9d and 9g indicated a significant anti-inflammatory response in a paw edema model by inhibiting PGE2, IL-6, and TNF-α and an increase in IL-10 concentrations. Interestingly, 9d effectively reduced pain by 55.78%, closely comparable to the 59.09% exhibited by the standard indomethacin, and was also devoid of GI, liver, kidney, and cardiac toxicity. Furthermore, 9d demonstrated anti-cancer potential against in vitro A549, COLO-205, and MIA-PA-CA-2 human cancer cell lines and an in vivo Drosophila cancer model. The pharmacokinetic investigations revealed that 9d has good oral absorption characteristics.

Прогностическое значение экспрессии галектина-1 опухолевыми плазматическими клетками и концентрации некоторых сывороточных цитокинов (IL-2, IL-6, TNF) у пациентов с моноклональной гаммапатией неопределенного значения и множественной миеломой

AIM. To study the prognostic value of the galectin-1 expression by bone marrow (BM) tumor plasma cells (PCs) and the concentration of serum cytokines (interleukins [IL-2, IL-6] and tumor necrosis factor [TNF]) in patients with monoclonal gammopathy of undetermined significance (MGUS) and multiple myeloma (ММ). MATERIALS &amp; METHODS. The trial enrolled 129 patients: 77 patients with newly diagnosed MM (median age 64 years) and 52 patients with MGUS (median age 62.5 years) followed-up at the Republican Scientific and Practical Center for Radiation Medicine and Human Ecology from 2018 to 2023. All patients underwent general clinical examination as well as BM aspirate cytology with myelogram and iliac BM core biopsy with immunohistochemical (IHC) analysis of BM biopsy. RESULTS. In the BM biopsy, the IHC analysis revealed a significant increase of galectin-1 expression (measured by expressing tumor PC count) in MM vs. MGUS patients (p &lt; 0.001). Galectin-1 expression defined as expressing tumor PC count was significantly higher in patients with progressing MGUS compared to progression-free MM patients (p &lt; 0.001). The median galectin-1 expression level was 8.5 % (Q25 0.2 %; Q75 15.7 %) in progression-free MGUS patients and 37.4 % (Q25 24.7 %; Q75 64.0 %) in progressing MGUS patients. Among MM patients, no significant differences were identified either in those with and without tumor progression. The IHC analysis of BM core biopsies in MM patients showed that high galectin-1 expression level is associated with pronounced vasculature but not with fibrotic changes, it also identified an increase in serum concentrations of IL-2 and TNF as well as a direct correlation with β2-microglobulin level. With MGUS progression into ММ, there was a direct correlation between galectin-1 expression level and serum M-protein. An increase of IL-2 concentration was registered only when MGUS progressed into ММ. CONCLUSION. The results of this study indicate the evidence of a high level of galectin-1 expression by tumor PCs in MM. In MGUS, an increase of galectin-1 expression by clonal BM PCs was associated with the disease progression. Galectin-1 expression by clonal BM PCs can well be clinically used as a marker for MGUS progression into MM.

Innovative engineering of superoxide dismutase for enhanced cardioprotective biocatalysis in myocardial ischemia-reperfusion injury

The present research compares the stability, catalytic activity, and cardioprotective benefits of the designed superoxide dismutase (SOD) variation SOD-M3 to those of the naturally occurring enzyme, along with additional alternatives. SOD-M3 exhibited a 51.5 % increase in expression yield, reaching 50 mg/L, compared to the wild-type's 33 mg/L. In structural biology, the average distance between atoms of stacked proteins or molecules is measured by RMSD. Testing the precision of protein-ligand docking models is a typical application. The projected structure closely resembles the reference or native structure when the RMSD is low. The enzyme's durability improved significantly, resulting in negligible aggregation in the Size Exclusion Chromatography (SEC) and root mean square deviation (RMSD) of 2.1 Å. SOD-M3 catalytically increased superoxide radical scavenging capability by 40 % and inhibited nitroblue tetrazolium (NBT) reduction by 90 % at 1 μg/mL concentration. The material exhibited increased stability, as seen by its decomposition temperature (Tm) of about 80 °C, as opposed to 65 °C in the wild-type strains. In cardiomyocyte protection experiments, SOD-M3 reduced lactate dehydrogenase (LDH) production by 55 % while decreasing reactive oxygen species (ROS) concentrations by 60 %. Since a 51.5 % increase in expression yield for SOD-M3 indicates improved production efficiency, which makes large-scale manufacturing more viable for clinical applications, it is therapeutically essential. Higher expression yields mean more cost-effective manufacture for enzyme-based therapy research and commercialization. In vivo, SOD-M3 decreased myocardial infarction diameter by 44 % while improving cardiac function, including increased ejection percentage and fractional contraction. The histopathological investigation revealed undamaged heart tissue and less necrotic areas. The results reported here demonstrate SOD-M3's superior activity of enzymes, cardioprotective perspective, and stability, making it a promising therapeutic alternative for illnesses related to cellular oxidation & ischemic cardiac diseases. An increase in enzyme concentrations can enhance the obtaining of reactive oxygen species (ROS), which build up during ischaemia episodes; therefore, this increase is essential. Improving the enzyme's solubility and stability by site-directed modifications makes SOD-M3 more stable and effective in physiological circumstances where its activity is crucial for therapeutic efficacy maximization. A further benefit of increased expression yield is that it can lower manufacturing costs, which will help get SOD-M3 into clinical settings. These modifications raise SOD-M3's cardioprotective potential, making it a strong contender for novel therapies against cardiac ischemia-reperfusion impacts.

Summer profiles: Tracing currently used organophosphorus pollutants in the surface seawater of the Arctic Ocean.

We investigate the spatial distribution and potential ecological impact of Currently Used Organophosphorus Pollutants (CUOPPs) in the Arctic Ocean, focusing on the East Siberian Sea, Laptev Sea, and high Arctic regions. Analyzing surface water samples collected during a scientific expedition aboard the "Xuelong 2" in August and September 2021, we detected 38 out of 83 targeted CUOPPs, including Phorate, Paraoxon, and Azinphos-ethyl, with concentrations exhibiting significant geographical variance. The results reveal a pronounced increase in CUOPP concentrations towards the Arctic poles, diverging markedly from the patterns observed in the East China Sea, thereby highlighting distinct regional pollution profiles and environmental interactions. Our findings suggest various potential sources and transport mechanisms for CUOPPs, indicating complex pollutant dynamics. Furthermore, the study delves into the influence of Arctic sea ice dynamics on the distribution patterns of CUOPPs, underscoring the pivotal role of environmental factors such as surface currents. Ecological risk assessments conducted for essential Arctic species pose a high ecological risk in the Arctic Ocean, with a "Summer Alert" effect. This investigation elucidates the intricate relationship between CUOPPs dispersal in the Arctic and the broader implications of climate change, offering critical insights into the emerging environmental challenges in polar ecosystems.

Test With Oral Administration of Clomiphene May Add to Differential Diagnosis of Severe Hyperandrogenism in Postmenopausal Women - A Case Report

A 62-year-old female patient, in menopause since the age of 47, presented with severe and virilizing hyperandrogenism condition that had been progressing for 10 years, with plasma testosterone levels above 500 ng/dL. Medical history included Cushing 's disease in remission since hypophysectomy in 2014 and obesity. On imaging tests, there was an adenoma in the left adrenal gland with normal ovaries. Serum DHEA-sulfate concentrations, however, were normal and pelvic ultrasound and magnetic resonance imaging showed no ovarian lesions. Given the etiological doubt of hyperandrogenism, ovarian or adrenal, an additional test was necessary. However, serum gonadotropin concentrations were low, preventing testing with a GnRH analogue. A test was carried out with Clomiphene - a selective estrogen receptor modulator that stimulates the secretion of gonadotropins - at a dose of 50 mg/day orally for 5 days. Serum testosterone concentrations increased from 670 ng/dL, pre-use, to 893 ng/dL post-use, suggesting ovarian origin. The patient underwent bilateral oophorectomy and a Leydig cell tumor was confirmed. Therefore, we suggest that in women with hyperandrogenism of undefined origin, with suppressed concentrations of plasma gonadotropins, a clomiphene administration test be performed. The significant increase in plasma testosterone concentrations is indicative of the ovarian origin of the condition.

Lactobacillus plantarum TWK10 relieves loperamide-induced constipation in rats fed a high-fat diet via modulating enteric neurotransmitters, short-chain fatty acids and gut microbiota.

Obesity and constipation can alter the intestinal microbiota composition, affecting intestinal barrier integrity, immune function, and metabolic processes. Numerous studies have suggested that Lactobacillus and Bifidobacterium could increase short-chain fatty acid (SCFA) production, thus improving the intestinal microbiota composition, mitigating obesity, and protecting the gastrointestinal tract. Therefore, in this study, we aimed to investigate the impact of Lactobacillus plantarum TWK10 (TWK10) on gut dysbiosis, obesity, and constipation induced by a high-fat diet and loperamide. Over a 5-week experimental period, rats were fed a high-fat diet and subsequently induced with gut dysbiosis and constipation using loperamide. Concurrently, rats were administered different doses of TWK10 or TWK10-fermented soy milk. Following administration of TWK10 or its fermented soy milk, the expression of adipocyte transcription factors such as PPARγ, C/EBPα, and C/EBPβ proteins and adipocyte size were significantly downregulated (p < 0.05). Regarding intestinal motility, compared to the high-fat diet-induced obesity and loperamide-induced constipation group (L), rats receiving TWK10 or its fermented soy milk exhibited regulation of gastrointestinal hormone levels such as gastrin (GT), somatostatin (Sst), calcitonin gene-related peptide (CGRP), and acetylcholinesterase (Ache) in serum. Additionally, there was a notable increase in the intestinal transit ratio, particularly in the 1X TWK10 group, in which it increased by 10.29% (p < 0.05). Furthermore, the consumption of TWK10 or its fermented soy milk significantly increased the number of goblet cells, as well as the thickness of the muscle and mucosal layers in the colon (p < 0.05). Analysis of SCFA content in fecal samples revealed a significant increase in SCFA concentrations, particularly acetic acid, following administration of both TWK10 and its fermented soy milk. Finally, TWK10 was found to modulate the composition of the intestinal microbiota and increase microbial diversity. In conclusion, TWK10 and its fermented soy milk effectively alleviated loperamide-induced constipation in rats fed a high-fat diet. These findings suggest that TWK10 and its fermented soy milk may potentially be functional foods for promoting intestinal health.

Local honey reflects environmental changes in metal concentrations and lead isotope ratios during COVID-19 restrictions in Brussels, Belgium, and Vancouver, Canada.

Effective methods for measuring sudden environmental changes are crucial for understanding how cities respond to shifts in human activity. This study examines atmospheric metal outputs during the COVID-19 restrictions using honey samples collected from three land use types in Brussels Capital Region (BCR), Belgium, and Metro Vancouver Regional District (MVRD), Canada to study changes as the result of restrictions. By comparing these cities with distinct sizes, ages, and structures, we assess how urban environments responded to pandemic-induced restrictions. We present honey samples, analyzed for metal concentration and Pb isotope ratios, to provide insights into the impacts of reduced human activity in different land use types. In BCR, significant increases of Al, Cd, Cr, Cu, Fe, Ni, Pb, Ti, and V were observed in suburban sites, while in MVRD, significant decreases of Cr, Pb, Sb, Ti, and V were observed in suburban sites. The increase in metal concentrations in BCR suburban sites indicates a shift in metal emission patterns due to changes in human activity during the restrictions. Conversely, the decrease in metal concentrations in MVRD suburban areas aligns with expectations of reduced pollution during restrictions. Pb isotope ratios of BCR vary more widely and do not show any spatial trends by land use, suggesting that Pb concentrations in BCR may be more homogenized. In MVRD, significant differences in 208Pb/206Pb were observed during the restrictions, wherein honey sampled from rural sites had more radiogenic (lower 208Pb/206Pb) Pb isotope ratios. This difference suggests that honey may be more sensitive to Pb isotope ratio changes in environments with a less extensive history of metal use, such as rural British Columbia. This research demonstrates the potential of honey as a biomonitor for sudden environmental shifts. This study contributes to a global geochemical honey database, enabling tracking of environmental trends across diverse urban settings worldwide.

Effects of Nanopolystyrene on the Chlorophyll pigment content of Chlorella vulgaris

This study used a long-term toxicity test to investigate how the microalga Chlorella vulgaris responded to nanopolysteren exposure under different light spectrums. Our experiment involved subjecting algae to polystyrene doses of 0, 0.5, 5, and 10 mg/L. We design an incubator consisting of three sections, each offering a distinct red, blue, and white light spectrum, for the purpose of cultivating algal colonies. Chlorophyll-a and b were estimated at consistent time intervals (1, 4, and 10 days) during the 29-day incubation period, using three replicate samples for each treatment. Experimental results have demonstrated a reduction in both algal cell viability and chlorophyll concentration when exposed to (5 and 10 mg/l) of nanopolysterene. The findings of our study indicate that the growth and chlorophyll content of C. vulgaris are significantly affected by the red-light spectrum and with the increase of nanopolyesterne concentrations.

The influence of winter road maintenance on the presence of chlorides in wastewater entering small treatment plants

During the appearance of the first snowfall, there is a revival of discussion on effective methods of protecting road surfaces and sidewalks against icing. In Poland and many other countries, so-called road salt, mainly sodium chloride (NaCl) with additives, is often used to lower the melting point of snow and ice. Using chemicals to protect road surfaces brings many negative side effects reported in the literature. Less frequently published research results indicate, and also alarm, that increased chloride concentrations can appear in wastewater flowing into sanitary (separate) sewers. In the case of small wastewater treatment plants, increased chloride concentrations can have a negative impact primarily on the biological processes of wastewater treatment and, after discharge from the wastewater treatment plant, on the biological life in the waters and the nearest recipient environment of the treated wastewater. The study aimed to determine the concentrations and loads of chlorides in wastewater flowing through the distribution sewer system to 4 small wastewater treatment plants located in Poland, in the Lesser Poland Province, during snowmelt and heavy rainfall in 2019–2023. The study showed a significant increase in concentrations and loads of chlorides in wastewater in February. Unit chloride load in raw sewage during snowmelt varied from 7 to 12 kg∙d–1 per 1 km length of separate sewer network. There was also a repeated, but much lower, increase in chloride con-centrations during summer and autumn precipitation. This is when the leaching of residual salt accumulated around the road surface occurred.

A multi‐proxy reconstruction of Lateglacial and Holocene mountain vegetation dynamics in Uri, Central Switzerland

In the context of climate change, a long‐term perspective is essential to understand future trajectories of mountain vegetation. We analysed the sediment record of Golzerensee (1411 m a.s.l.), a mountain lake in the transitional zone between the montane and subalpine vegetation belt in Uri, Central Switzerland. We reconstructed past vegetation responses to anthropogenic impact, fire activity and climatic changes dating back to c. 14 550 cal. a BP using pollen, stomata, macrofossil and microcharcoal analyses. The tree line, composed of Betula and Pinus sylvestris, reached Golzerensee during the Allerød c. 13 200 years ago, but tundra vegetation re‐expanded during the Younger Dryas cooling (12 800–11 700 cal. a BP). With the rapid temperature increase at the onset of the Holocene, a closed forest established within a few decades around the study site. Concurrently, temperate taxa (Ulmus, Tilia, Acer, Corylus avellana) increased in the lowlands, likely reaching the elevation of the lake. Abies alba established locally during the Holocene Thermal Maximum (HTM) at 9600 cal. a BP and dominated closed, montane forests, delaying the westward expansion of Picea abies that established only from c. 7700 cal. a BP onwards. The concomitant occurrence of cultural indicator taxa, as well as an increase in charcoal influx and fungal dung spore concentrations suggest that human impact has facilitated the expansion of Picea abies by negatively affecting important competitors such as Abies alba through fire and browsing disturbance. With rising temperatures due to current climate change, Abies alba and other temperate species may regain their former relevance, leading to diverse mixed forests that were abundant during the HTM c. 10 000–5000 cal. a BP. However, future forest composition and landscape diversity will also be influenced by browsing disturbance and land use management.

Characteristics of Air Toxics from Multiple Sources in the Kaohsiung Coastal Industrial Complex and Port Area

This study focuses on understanding the health impacts of hazardous air pollutant (HAP) emissions from the Kaohsiung Coastal Industrial Park and port areas in southern Taiwan on neighboring communities. Six important HAPs (formaldehyde, benzene, arsenic, vinyl chloride, 1,3-butadiene, and diesel particulate matter (DPM)) were identified in this area. By considering the impact of emissions from stationary sources, mobile sources, and port activities, the relative importance of each emission source was assessed. In addition, the AERMOD (AMS (American Meteorological Society)/EPA (U.S. Environmental Protection Agency)) diffusion model was employed to simulate the increases in target pollutant concentrations and to analyze the influence and spatial distribution of various emission sources on atmospheric HAP concentrations in nearby communities. This study further evaluated the exposure risks of composite HAP sources, to understand their impacts and to determine their control priorities. The findings revealed that emissions and carcinogenic weighting from composite sources, particularly DPM emissions from port activities, including from ocean-going vessels and heavy-duty vehicles, had a significant impact. The maximum incremental concentration for DPM in the study area occurred around the port area, whereas the maxima for formaldehyde, benzene, arsenic, vinyl chloride, and 1,3-butadiene were all observed within the industrial complex. DPM emissions from port activities, 1,3-butadiene emissions from mobile sources, and benzene emissions from stationary sources were the composite sources with the greatest potential impacts. Over 90% of health risks were due to DPM, and the remaining health risks were due to 1,3-butadiene (6%), benzene (2%), arsenic (1%), and other species (less than 1%). DPM emissions were primarily influenced by port activities (77%), 1,3-butadiene emissions by mobile sources (45%), and benzene emissions by stationary sources (41%). A total of 25% of the area had risk values greater than 10−3, and 75% of the area had risk values between 10−3 and 10−4. The risk values in the densely populated areas were all greater than 10−4. The potential risk hotspots with risk values greater than 10−3 were located on the northwest side of the port and downwind of the industrial park. The key pollutants contributing to these hotspots were, in order, DPM (up to 80% cancer risk), formaldehyde, and 1,3-butadiene, all of which were significantly influenced by port activities. This indicates that the control of, and reduction in, HAP emissions from port activities should be prioritized.