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Which Young children Utilize School-Based Wellbeing Services like a Principal Supply of Treatment?
Water systems in Southeast Asia accumulate antibiotics and antibiotic resistance genes (ARGs) from multiple origins, notably including human clinics and animal farms. To ascertain the fate of antibiotics and ARGs in natural water environments, we monitored the concentrations of these items in Thailand. Here, we show high concentrations of tetracyclines (72,156.9 ng/L) and lincomycin (23,968.0 ng/L) in pig farms, followed by nalidixic acid in city canals. The city canals and rivers contained diverse distributions of antibiotics and ARGs. Assessments of targeted ARGs, including sul1, sul2, sul3, and tet(M), showed that freshwater (pig farm wastewater, rivers, and canals) consistently contained these ARGs, but these genes were less abundant in seawater. Although sulfonamides were low concentrations ( less then 170 ng/mL), sul1 and sul2 genes were abundant in freshwater (minimum 4.4 × 10-3-maximum 1.0 × 100 copies/16S), suggesting that sul genes have disseminated over a long period, despite cessation of use of this class of antibiotics. Ubiquitous distribution of sul genes in freshwater appeared to be independent of selection pressure. In contrast, water of the coastal sea in the monitored area was not contaminated by these antibiotics or ARGs. The density of Enterobacteriales was lower in seawater than in freshwater, suggesting that the number of ARG-possessing Enterobacteriales falls after entering seawater. From the pig farms, through rivers/canals, to the coastal sea, the occurrence of tetracyclines and tet(M) exhibited some correlation, although not a strong one. However, no correlations were found between concentrations of total antibiotics and ARGs, nor between sulfonamides and sul genes. This is the first comprehensive study showing Thai features of antibiotics and ARGs contaminations. The pig farm is hot spot of antibiotics and ARGs, and sul genes ubiquitously distribute in freshwater environments, which become less abundant in seawater.The present study was conducted to comprehensively evaluate watershed sustainability with the help of an initiative barometer developed based on different dimensions of social, economic, environmental, and policy. The newly developed barometer was then applied to assess the temporal variation of sustainability for the Shazand Watershed, Iran, for four-node years of 1986, 1998, 2008, and 2016. The appropriate criteria were then adapted to calculate the study dimensions. The effect sizes of selected criteria on each dimension were also determined. Consequently, the status of each dimension and integrated watershed sustainability status were mapped for four-node years. The results indicated that study dimensions were unevenly distributed over the Shazand Watershed. So that, the social dimension had high effectiveness across different sub-watersheds, and the policy dimension had a poor situation in all study years. In addition, the respective sustainability index of 0.32, 0.32, 0.35, and 0.35 for node years of 1986, 1998, 2008, and 2016 verified a slight improvement. Overall, the proposed barometer of sustainability facilitated understanding the dimensional sustainability and comprehensive watershed sustainability and provided references for policy formulations and watershed management. Besides, the developed barometer has a high potential for evaluating sustainability for other watersheds worldwide.The interaction between the Anthroposphere and the Biosphere has resulted in increasingly rapid biodiversity loss. This negative interaction is influenced by attitudes (feelings, actions, and perceptions) of humans towards certain species. Despite the importance of reptiles in food chains and ecosystem services, they are often negatively perceived, resulting in fear and persecution. In this scenario, Education for Sustainable Development (ESD) may contribute for students to develop positive attitudes towards nature and, in particular, towards reptile conservation. Some studies showed that watching wildlife movies improves attitudes of people towards wildlife. However, few information is available on the impact of engaging people in movie production in their attitudes on biodiversity. Here we present an exploratory case study and describe a project-based learning activity (PBL) implemented with Cabo Verdean high-school students and planned to improve their perceptions, feelings and actions towards reptiles in general, and the threatened endemic species C. vaillanti in particular. We asked students to write a script, shoot and produce a short film that could improve the attitudes of their community towards this endemic species. This movie was then presented to the community in a public event and subjected to a content analysis. To evaluate the impact of the activity on students, they were asked to fill in two questionnaires, before and after the activity. Our results showed significant increase of positive feelings of students about the reptiles, and increased perception of their importance, and of positive actions towards C. vaillanti from pre to post test. The movie content analyses and interviews showed that students learned about species biology, threats and reasons for its conservation, of which endemicity was the most frequently cited. Our findings support the value of engaging the public in PBL for EDS and the positive impacts of this engagement in public attitudes towards species conservation.Multifunctional crops can simultaneously contribute to multiple societal objectives. As a result, they represent an attractive means for improving rural livelihoods. Moringa oleifera is an example of a multifunctional crop that produces nutritious leaves with uses as food, fodder, and a biostimulant to enhance crop growth. It yields seeds containing a water purifying coagulant and oil with cosmetic uses and possible biofuel feedstock. Despite Moringa oleifera's (and other multifunctional crops') various Food-Energy-Water uses, optimizing the benefits of its multiple uses and livelihood improvements remains challenging. There is a need for holistic approaches capable of assessing the multifunctionality of agriculture and livelihood impacts. Therefore, this paper critically evaluates Moringa oleifera's Food-Energy-Water-Livelihood nexus applications to gain insight into the tradeoffs and synergies among its various applications using a systems thinking approach. A systems approach is proposed as a holistic thinifunctional crops.Red gypsum is a type of iron-rich gypsum residue originated from industrial titanium dioxide process using Ilmenite. Currently, it has a low rate of comprehensive utilization about 20%, and deep removal of iron impurity is the crucial factor that directly limits its multipurpose utilization. In this study, the iron was efficiently removed from red gypsum residue by synergistic controlling the phase transformation of gypsum and the iron speciation under hydrothermal conditions. The iron removal efficiency was more than 99% under the optimized treatment condition (i.e. liquid-solid ratio of 10, with 1.5 M HCl as mineralizer, heating at 140 °C for 6 h). The X-ray powder diffraction (XRD) and scanning electron microscopy (SEM) analyses showed that the phase transformation and crystal growth of gypsum accelerated by H+ was the essential reasons to fully remove iron. Moreover, H+ also provided acidic conditions (pH less then 1) to change the iron speciation from amorphous oxide or hydroxide fine particles into soluble Fe3+ which release into the solution and easy to be removed by solid-liquid separation. In this work, based on the synergistic regulation of gypsum phase transformation and iron speciation, a feasible method for deep removal of iron from red gypsum was proposed, which is conducive to broadening the comprehensive utilization range of red gypsum. This work would inspire the treatment and resource utilization of industrial gypsum residues containing other contaminants or impurities, including heavy metals and organic matters.To better manage pesticide pollution in surface soils, we introduced a first-order-kinetics-based screening model to evaluate the steady-state concentrations of pesticides in surface soils while considering degradation, volatilization, plant uptake, and precipitation processes. For each process, we developed a spatiotemporal-pattern-based model using spatiotemporal variables, including air temperature (TA), relative humidity (RHA), and rainfall intensity (IRA), to characterize the overall dissipation rates (kT) of pesticides in the soil. These dissipation rates were converted to fate factors (FFs), which are commonly used in life cycle analyses. The results indicate that, in general, the kT values increase with increasing TA and IRA and decrease with increasing RHA. This is because increased TA boosts the degradation, volatilization, and plant uptake processes, whereas increased RHA lowers the plant transpiration rate. Also, the simulation for over 700 pesticides indicated that the degradation process dominatedicting pesticide concentrations in surface soil worldwide to improve soil and ecological health risk management.Rapid urbanization has seriously disturbed the structure and function of ecosystems and caused many eco-environmental problems, in turn, these problems also reduce the quality of urbanization and threaten the sustainable development of urban. Currently, most studies only focus on the impact of urbanization on ecosystem components (i.e., structure, functions or services), few studies have explored the coordination and spatiotemporal heterogeneity between urbanization and ecosystem health from a systematic view. Therefore, in viewing of this, this study integrated coupling coordination degree model (CCDM) and geographically and temporally weighted regression (GTWR) to measure the interaction relationship and spatiotemporal heterogeneity between urbanization and ecosystem health (UAEH) in Chongqing at the county scale from 1997 to 2015. Results showed that 1) the degree of coordination between UAEH in Chongqing increased gradually from 1997 to 2015, developed from the moderately unbalance stage to moderately balance stage, and experienced a transition from urbanization lag to ecosystem health lag. Moreover, the coupling coordination degree showed a decreased spatial trend from the western to the eastern of Chongqing. 2) The restriction effect between UAEH gradually weakened from 1997 to 2015, and the synergistic effect between them gradually strengthened. Additionally, the interaction between UAEH tended to converge, and the negative effects between UAEH were mainly distributed in the central and western of Chongqing. In these area, population urbanization aggravated the deterioration of the natural ecosystem, in turn, the decline of ecosystem vigor and resilience also restricted the sustainable development of urbanization. Finally, this study also puts forward some corresponding policy recommendations based on each region's coupling type.Vanadium (V) can have toxic effects on human organs and physiological systems, yet tracing V sources remains challenging. Here, two methods were used for V source tracing in soil based on speciation characteristics and isotope compositions. selleck inhibitor According to the sequential extraction method of the European Communities Bureau of Reference (BCR), the analysis of speciation distributions offers a possible means of distinguishing V sources. Here, the isotope compositions of polluted soils around a coal-fired power plant and smelter in China were used to identify the sources of V. Significant V isotope variation (δ51V range = -0.74 ± 0.07; mean ± 2SD = -0.52 ± 0.05‰) was observed in the soil samples, attributed to coal-burning (Δ51VCoal-Fly ash 1 = -0.31 ± 0.05‰; mean ± 2SD; n = 1) and smelting processes (Δ51VSlag-Fly ash 2 = -0.31 ± 0.07‰; mean ± 2SD; n = 1). All of the soil V isotope ratios plotted within the range of end-member components corresponding to potential V contributors in the environment. Among these, δ51V ranged from -0.
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