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AbstractObjectiveThis study examined the mechanism of the effect of childhood harsh parental discipline on the developmental trajectory of loneliness among adolescents.BackgroundMore and more adolescents experience the problem of loneliness. The effect of early parenting on the developmental change of adolescent loneliness has not been sufficiently determined.MethodA total of 1,214 Chinese high school adolescents responded to a series of questionnaires about loneliness, childhood harsh parental discipline, and core self‐evaluation three times at intervals of six months. The latent growth modeling and the structural equation model were established to investigate the developmental change of adolescent loneliness and the mechanism of childhood harsh parental discipline that affected the trajectory of adolescents' loneliness.ResultsThere was a linear growth pattern in loneliness among high school adolescents. Childhood parental psychological aggression and corporal punishment positively predicted the initial level of loneliness, and childhood parental corporal punishment negatively predicted the changing slope of loneliness. Core self‐evaluation mediated the effect of childhood parental psychological aggression on the trajectory of loneliness.ConclusionChildhood parental corporal punishment directly affected the trajectory of adolescents' loneliness while childhood parental psychological aggression indirectly affected the trajectory of adolescents' loneliness through core self‐evaluation.ImplicationsThis study further enriched the research content on the developmental change of loneliness among high school adolescents and revealed the long‐term effect and mechanism of childhood harsh parental discipline on the trajectory of adolescent loneliness, providing new ideas for preventing and alleviating loneliness among adolescents.

AbstractThis article introduces the EU Horizon 2020 research project MIX-UP, "Mixed plastics biodegradation and upcycling using microbial communities". The project focuses on changing the traditional linear value chain of plastics to a sustainable, biodegradable based one. Plastic mixtures contain five of the top six fossil-based recalcitrant plastics [polyethylene (PE), polyurethane (PUR), polypropylene (PP), polyethylene terephthalate (PET), polystyrene (PS)], along with upcoming bioplastics polyhydroxyalkanoate (PHA) and polylactate (PLA) will be used as feedstock for microbial transformations. Consecutive controlled enzymatic and microbial degradation of mechanically pre-treated plastics wastes combined with subsequent microbial conversion to polymers and value-added chemicals by mixed cultures. Known plastic-degrading enzymes will be optimised by integrated protein engineering to achieve high specific binding capacities, stability, and catalytic efficacy towards a broad spectrum of plastic polymers under high salt and temperature conditions. Another focus lies in the search and isolation of novel enzymes active on recalcitrant polymers. MIX-UP will formulate enzyme cocktails tailored to specific waste streams and strives to enhance enzyme production significantly. In vivo and in vitro application of these cocktails enable stable, self-sustaining microbiomes to convert the released plastic monomers selectively into value-added products, key building blocks, and biomass. Any remaining material recalcitrant to the enzymatic activities will be recirculated into the process by physicochemical treatment. The Chinese–European MIX-UP consortium is multidisciplinary and industry-participating to address the market need for novel sustainable routes to valorise plastic waste streams. The project's new workflow realises a circular (bio)plastic economy and adds value to present poorly recycled plastic wastes where mechanical and chemical plastic recycling show limits.

9 p.-2 fig. ; This article introduces the EU Horizon 2020 research project MIX-UP, "Mixed plastics biodegradation and upcycling using microbial communities". The project focuses on changing the traditional linear value chain of plastics to a sustainable, biodegradable based one. Plastic mixtures contain five of the top six fossil-based recalcitrant plastics [polyethylene (PE), polyurethane (PUR), polypropylene (PP), polyethylene terephthalate (PET), polystyrene (PS)], along with upcoming bioplastics polyhydroxyalkanoate (PHA) and polylactate (PLA) will be used as feedstock for microbial transformations. Consecutive controlled enzymatic and microbial degradation of mechanically pre-treated plastics wastes combined with subsequent microbial conversion to polymers and value-added chemicals by mixed cultures. Known plastic-degrading enzymes will be optimised by integrated protein engineering to achieve high specific binding capacities, stability, and catalytic efficacy towards a broad spectrum of plastic polymers under high salt and temperature conditions. Another focus lies in the search and isolation of novel enzymes active on recalcitrant polymers. MIX-UP will formulate enzyme cocktails tailored to specific waste streams and strives to enhance enzyme production significantly. In vivo and in vitro application of these cocktails enable stable, self-sustaining microbiomes to convert the released plastic monomers selectively into value-added products, key building blocks, and biomass. Any remaining material recalcitrant to the enzymatic activities will be recirculated into the process by physicochemical treatment. The Chinese–European MIX-UP consortium is multidisciplinary and industry-participating to address the market need for novel sustainable routes to valorise plastic waste streams. The project's new workflow realises a circular (bio)plastic economy and adds value to present poorly recycled plastic wastes where mechanical and chemical plastic recycling show limits. ; This project has received funding from the European Union's Horizon 2020 research and innovation programme under Grant Agreement No. 870294. In addition, this project is funded by the National Natural Science Foundation of China (Grant Numbers 31961133017, 31961133018, 31961133019). ; Peer reviewed