The demand for sustainable, biodegradable alternatives in the food industry has increased globally due to the growing environmental impact of plastic packaging. Due to their outstanding film-forming qualities, safety, affordability, and renewability, starch-based edible coatings have become a promising solution. This article offers a thorough overview of starch-based edible coatings, including formulation strategies, coating application techniques, chemical modification methods, and sources of starch. A critical review is conducted of the functional aspects of starch coatings, such as barrier qualities, mechanical behavior, biodegradability, and compatibility with active additives like antimicrobials, antioxidants, and nanoparticles. Applications across a variety of food systems, including fruits, vegetables, meat, seafood, dairy, bakery, and confectionery products, demonstrate the ability of starch coatings to reduce moisture loss, delay oxidative and microbial spoilage, and extend shelf life. Advancements in nanocomposite films, intelligent pH-sensitive systems, and starch-polymer blends highlight emerging opportunities for next-generation active and smart packaging. Despite their potential, commercial adoption is hindered by factors like moisture sensitivity, limited mechanical strength, and scale-up barriers. The review also emphasizes the need for optimized modification methods, green processing technologies, and improved cost-effectiveness to enhance industrial applicability.
Three new synthetic algal culture media are described that have been used to cultivate ~12,000 diverse strains of (micro)algae, one culture medium for marine and brackish-water algae (ASP-MEL (Artificial Seawater Provasoli-MELKONIAN)), and two culture media for freshwater/terrestrial algae (SFM (Synthetic Freshwater Medium) and W-MEL (Waris-MELKONIAN)). The genesis of the three media since their original formulation and the rationale for modifications of these media over the past 50 years are outlined. A complex trace element mix derived from an enriched natural seawater culture medium (L1) is used in all three media, and allows the omission of soil water extract from one freshwater culture medium (W-MEL). It is suggested that the inclusion of selenite renders soil extract in algal culture media superfluous. Prospects and limitations of the three synthetic algal culture media as general-purpose media for large collections are discussed.
Attitudes to aging exert impacts on emotional well-being, yet the underlying psychological mechanisms and their stability across middle and older adulthood remain insufficiently understood. Based on the dual-factor model of mental health and the constructivist theory of emotional aging, this study aimed to: (1) examine the mediating role of emotion regulation in the relationship between aging attitudes and emotional well-being during the COVID-19 pandemic; (2) test the cross-age consistency of this mediating mechanism between middle-aged and older adults. Middle-aged and older residents (N = 653) participated in this study from 22 April to 24 April 2020. Participants completed questionnaires to assess their attitudes to aging, the use of emotion regulation strategies, and their levels of emotional well-being. Mediation roles and confidence intervals (CIs) were calculated using a bootstrap resampling method. Results showed that (1) Older adults exhibited slightly higher negative attitudes to aging, calmness, and boredom than the middle-aged group. They also used rumination, distraction, and social sharing strategies a little more frequently than middle-aged adults. (2) Full-sample mediation analyses indicated that positive aging attitudes were positively associated with positive affect through adaptive emotion regulation, and negative aging attitudes were positively associated with negative affect through maladaptive emotion regulation. (3) Moderated mediation analyses revealed that age group or age did not significantly moderate either mediating pathway. The mediating effect of emotion regulation on the relationship between aging attitudes and emotional well-being appeared stable across the two age groups. These findings support the constructionist approach to emotional aging. Interventions for successful aging should consider cultivating positive aging attitudes and adaptive emotion regulation, as these approaches are potentially both valuable for middle-aged and older adults.
This study was conducted to establish an efficient in vitro mass-propagation system for the Korean native bulbous plant Lilium leichtlinii var. maximowiczii and to lay the foundation for supplying the produced bulbs for use in flowerbeds. Although this species is a promising native bulbous lily for urban flowerbeds, its use has been limited by the lack of an efficient system for large-scale propagation. L. leichtlinii var. maximowiczii is distributed in the northern part of Gyeonggi-do, Gangwon-do, and the eastern region of Gyeongsangbuk-do in South Korea, and is a native lily species with very high ornamental value. Among the tested disinfection protocols, a 0.1% (w/v) benomyl solution pretreatment for 1 h, followed by 70% (v/v) ethanol (EtOH) for 30 s and sequential surface sterilization in 1% (v/v) sodium hypochlorite (NaOCl) for 20 min and 2% (v/v) NaOCl for 10 min, was the most effective for in vitro introduction of bulb scales. As a result of bulblet induction using combinations of plant growth regulators, the medium containing 2.2 µM BAP + 5.7 µM IAA produced the highest number of bulblets (2.5 ± 0.12 per survived explant; total 38), followed by 4.4 µM BAP + 2.7 µM NAA (2.0 ± 0.00 per survived explant; total 24). Following a total culture period consisting of introduction (3 weeks), formation (3 weeks), and expansion (7 weeks), the regenerated plantlets were acclimatized for 1 week without mortality. These results revealed distinct roles for different plant growth regulators (PGRs) combinations in the regeneration process. The medium supplemented with BAP + IAA was optimal for initial bulblet induction, yielding the highest proliferation efficiency. The in vitro propagation technique established in this study is expected to provide a practical technical basis for the nursery production of uniform L. leichtlinii var. maximowiczii plantlets and to promote their wider use as native flowerbed plants.
