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Cigarette butts are the most numerically frequent form of litter in the world. In Australia alone, 24-32 billion cigarette butts are littered annually. Despite this littering, few studies have been undertaken to explore the toxicity of cigarette butts in aquatic ecosystems. The acute toxicity of 19 filtered cigarette types to Ceriodaphnia cf. dubia (48-hr EC50 (immobilization)) and Vibrio fischeri (30-min EC50 (bioluminescence)) was determined using leachates from artificially smoked cigarette butts. There was a 2.9- and 8-fold difference in toxicity between the least and most toxic cigarette butts to C. cf. dubia and V. fischeri, respectively. Overall, C. cf. dubia was more inherently sensitive than V. fischeri by a factor of approximately 15.4, and the interspecies relationship between C. cf. dubia and V. fischeri was poor (R(2) = 0.07). This poor relationship indicates that toxicity data for cigarette butts for one species could not predict or model the toxicity of cigarette butts to the other species. However, the order of the toxicity of leachates can be predicted. It was determined that organic compounds caused the majority of toxicity in the cigarette butt leachates. Of the 14 organic compounds identified, nicotine and ethylphenol were suspected to be the main causative toxicants. There was a strong relationship between toxicity and tar content and between toxicity and nicotine content for two of the three brands of cigarettes (R(2 )> 0.70) for C. cf. dubia and one brand for V. fischeri. However, when the cigarettes were pooled, the relationship was weak (R(2) < 0.40) for both test species. Brand affected the toxicity to both species but more so for V. fischeri.

The Australian and New Zealand Guidelines for Fresh and Marine Water Quality are a key document in the Australian National Water Quality Management Strategy. These guidelines released in 2000 are currently being reviewed and updated. The revision is being co-ordinated by the Australian Department of Sustainability, Environment, Water, Population and Communities, while technical matters are dealt with by a series of Working Groups. The revision will be evolutionary in nature reflecting the latest scientific developments and a range of stakeholder desires. Key changes will be: increasing the types and sources of data that can be used; working collaboratively with industry to permit the use of commercial-in-confidence data; increasing the minimum data requirements; including a measure of the uncertainty of the trigger value; improving the software used to calculate trigger values; increasing the rigour of site-specific trigger values; improving the method for assessing the reliability of the trigger values; and providing guidance of measures of toxicity and toxicological endpoints that may, in the near future, be appropriate for trigger value derivation. These changes will markedly improve the number and quality of the trigger values that can be derived and will increase end-users’ ability to understand and implement the guidelines in a scientifically rigorous manner.

Polyesters are important materials with a wide range of applications, but there has been increasing concern over their sustainability. One example is the need for safer, bio-derived solvents to replace those currently in use for the polymer's synthesis and processing. In this work, several variants of the bio-based cellulose/levoglucosenone derived solvent Cyrene, namely the ketal derivatives dioxolane Cygnet, dioxane Cygnet and dioxepane Cygnet were synthesized and tested as media for enzymatic polycondensation reactions using bio-based building blocks. Dioxolane Cygnet and dioxepane Cygnet were found to be suitable solvents for enzymatic polycondensation reactions, with dioxolane Cygnet being the preferred solvent, yielding polymers with a M n >22 kDa. In addition, these solvents were tested in the biocatalyzed synthesis of levoglucosenone-based polyesters. The alternative solvents gave superior yields to those previously observed, demonstrating the versatility of these solvents in enzymatic polycondensation reactions, representing the first synthetic polymer-solvent system fully derived from cellulose.

The inner-shell ionization of selenophene at 120 eV produces a rich array of fragmentation dynamics, including many originating from Auger-Meitner processes. In this report, three-dimensional velocity-map imaging and covariance analysis were used to identify and characterize over 50 distinct selenophene fragmentation channels. The majority resulted in two or three ‘heavy’ products containing selenium or carbon, many of which had identical mass-to-charge ratios but different chemical compositions due to the degree of hydrogenation and the selenium isotope involved. Covariance analysis was used to isolate these reaction channels and to provide estimates of their relative yields. In combination with prior similar studies on thiophene and furan, the current results indicate that the nature of the heteroatom significantly influences the charge redistribution and bond cleavage dynamics induced by the Auger-Meitner process, and demonstrate the sensitivity of inner-shell ionization dynamics to the molecular and electronic structures of heterocyclic systems.

Abstract Background The Sámi and Greenlandic Inuit, the indigenous peoples of the Nordic region, face a range of challenges that threaten their cultural survival, political autonomy, economic prosperity, and well-being. Rooted in nature-based livelihoods, their identities and well-being are deeply tied to tradition. Global shifts and policy changes challenge their way of life, making it vital to support their rights, languages, and role in shaping relevant policy decisions that affect their lives. Aim This study analyzes policy documents concerning the Sámi and Greenlandic Inuit people to examine their representation from an empowerment perspective. Methods Using Fairclough's discourse analysis, the study investigates how empowerment is framed in national strategies and identifies gaps in Indigenous representation and participation. Researchers reflect on their positionality, drawing from reflexive and reconciliation-based methodologies to engage respectfully with Indigenous knowledge systems. Results The study reveals ongoing challenges in health access, social equity, and cultural preservation, emphasizing the importance of bottom-up approaches and cross-border collaboration to support Indigenous self-determination and influence in policymaking. The Greenlandic policy document separates itself from previous arctic policies by focusing on Inuit identity, with Denmark as a future collaboration partner. Its main focus is on autonomy in relation to globalization. Finland recognizes Sámi rights in principle but struggles with implementation and political will. Sweden frames Sámi issues within broader equality goals, yet lacks mechanisms for real influence or land rights. Norway leads in legal recognition, including the Finnmark Act, yet challenges remain in balancing state and Sámi interests. Conclusions Across all countries, empowerment discourse often centers on inclusion, but real power-sharing and Indigenous epistemologies are inconsistently reflected in policies. Key messages • Indigenous empowerment in Nordic policies often emphasizes inclusion but lacks consistent power-sharing and respect for Indigenous worldviews. • National approaches vary: Norway leads legally, while Finland, Sweden, and Denmark face gaps in Indigenous representation and influence.

Interest is mounting in developing and utilizing soil-specific soil quality guidelines. This requires quantifying the effects that soil physicochemical properties have on various ecotoxicological endpoints, including phytotoxicity. To this end, 14 agricultural soils from Australia with differing soil properties were spiked with copper (Cu) and zinc (Zn) salts and used to conduct 21-d plant growth inhibition tests using wheat (Triticum aestivum L.) in pot trials. The toxicity of Cu and Zn was similar with 10% effect concentration (EC10) values ranging from 110 to 945 and from 235 to 965 mg/kg, respectively, while the corresponding median effect concentration (EC50) values ranged from 240 to 1,405 and 470 to 1,745 mg/kg, respectively. Copper toxicity values (EC10, EC20, and EC50) were best modeled by the logarithm of cation exchange capacity (CEC) and either soil pH or electrical conductivity. Zinc EC50 and EC20 values were best modeled using the logarithm of CEC, while the EC10 data were best modeled using soil pH and the logarithm of organic carbon. These models generally estimated toxicity within a factor of two of the measured values.

It has been highlighted that youth empowerment and participation are important principles for school health promotion. Despite this fact, children and youth are rarely given instruments to participate or to influence their situations and the environments in their schools. Photovoice is a method to increased empowerment and participation. Originally it was created as a community action research method based on Freire's critical pedagogy and feminist theory. The purpose of this study was to explore challenges and opportunities for applying photovoice in a school setting to support genuine participation. Together with teachers and students in an upper secondary school in Östersund's municipality in the north of Sweden, the photovoice method was field tested and modified to a classroom situation. The teachers and the students were interviewed about their experiences with the method. The results were interpreted by content analysis and showed that the teachers' capability to be facilitators and the students' possibility to make a difference for the school or the municipality were the most important factors to succeed with photovoice. The conclusions were that photovoice challenges schools and society to have a better structure for genuine participation if youth participation is seen as valuable.

The majority of ecotoxicological data are generated from standard laboratory-based experiments with organisms exposed in nonflowing systems using highly purified water, which contains very low amounts of dissolved organic matter and suspended particulates. However, such experimental conditions are not ecologically relevant. Thus, there is a need to develop more realistic approaches to determining toxicity, including both lethal and sublethal effects. This research provides information on the effect of natural water constituents, such as suspended particulates and dissolved organic matter, in river water (RW) on the chronic toxicity (7-day reproductive impairment) of the pesticides atrazine, chlorothalonil, and permethrin to the freshwater cladoceran Ceriodaphnia cf. dubia . Standard bioassays were conducted under standard laboratory and more environmentally realistic conditions (using RW). The 7-day IC 25 (reproduction impairment) values of atrazine, chlorothalonil, and permethrin to C. cf. dubia ranged from 862.4 to >1000, 51.3 to 66.4, and 0.19 to 0.23 μg/L, respectively. Using the Globally Harmonized System of Classification and Labelling of Chemicals, atrazine is classified as moderately to highly toxic, whereas permethrin and chlorothalonil were both highly toxic. The presence of dissolved organic matter and suspended particles in natural RW did not significantly ( p  > 0.05) change the toxicity of any of the pesticides to C. cf. dubia compared with that tested in laboratory water (LW). For the tested pesticides, toxicity testing in LW provided an adequate estimate of the hazard posed.

Atrazine and molinate are widely used herbicides and concern has been raised about their potential deleterious impacts on aquatic ecosystems. Although there have been some studies on the toxicity of herbicides to aquatic organisms using laboratory or natural water, information on the effect of sediments, suspended particulates, and dissolved organic matter on their bioavailability is quite limited. This study aims to provide toxicity data that considers these factors and the effect that these factors have on bioavailability. In this study, the toxicity of the test chemicals was calculated following the Organisation for Economic Co-operation and Development (OECD) methods, whereas change in bioavailability was measured using EC50 values based on measured initial concentrations of the test chemicals. The acute (48-h) static toxicity of atrazine and molinate to the freshwater cladoceran Daphnia carinata was determined in cladoceran water and river water in the absence and presence of sediment. The 48-h EC50 (immobilization) values of atrazine to D. carinata ranged from 22.4 to 26.7 mg/L, while the corresponding values for molinate ranged from 18.3 to 33.6 mg/L, respectively. Both chemicals were classed as having low acute toxicity to D. carinata. The presence of dissolved organic matter and suspended particles in river water did not significantly (p > 0.05) reduce the bioavailability (measured as toxicity) of atrazine to D. carinata compared to that tested in cladoceran water. The presence of sediment, however, significantly (p < 0.05) reduced the bioavailability (48-h EC50) of atrazine in cladoceran water, from 24.6 to 30.7 mg/L, and in river water, from 22.4 to 31.0 mg/L. Similarly, the presence of sediment in cladoceran water, significantly (p < 0.05) reduced the bioavailability (48-h EC50) of molinate, from 26.6 to 46.4 mg/L, and in river water, from 22.5 to 45.6 mg/L.

Abstract Introduction: This study was designed to test the hypothesis that coronary artery adaptations during the postpartum period are related to underlying reductions in endothelium-dependent relaxation and/or augmented smooth muscle vasoconstrictor responsiveness. Methods: In vivo experiments were performed in control (nonpregnant) and postpartum swine 35–45 days of postdelivery, with isometric tension experiments performed in isolated coronary arteries from those animals. Results: Coronary artery rings demonstrated increases in active tension generation following incremental increases in passive stretch with no differences between groups. Endothelium-dependent relaxation to bradykinin was attenuated in arteries from postpartum swine versus control (p < 0.005). Concentration-dependent contractions to the thromboxane A2 mimetic U46619 (0.1 nm–1 µm) were shifted rightward (EC50 27 ± 10 nm vs. 238 ± 66 nm; p < 0.01) in arteries from postpartum swine, with no changes in maximum contractile responses (p = 0.68). Intracoronary administration of U46619 (1 nm–1 µm) in open-chest swine decreased coronary blood flow ∼45 ± 3% in nonpregnant controls but had no effect on coronary blood flow in postpartum swine. Concentration-dependent contractions to KCl (5–90 mm) showed a rightward shift in arteries from postpartum swine (15.6 ± 1.4 mm vs. 21.8 ± 1.9 mm; p = 0.03), with no change in maximum response. Taken together, the postpartum period is associated with reduced endothelium-dependent relaxation and responsiveness to receptor-dependent and -independent vasoconstrictor stimuli. Conclusion: These findings indicate that chronic exposure of the coronary circulation to the pregnancy/postpartum milieu results in functional adaptations in sensitivity to paracrine/hormonal compounds that should be further explored.