Search Results (917)

Owned house cats negatively affect wildlife when roaming outdoors, yet it remains unclear whether their movements are determined by selection for specific land cover types. We GPS-tracked 49 neutered, owned cats with daily outdoor access in a Mediterranean habitat, monitoring each for seven days. For each cat, we created a detailed, fine-scale land cover map from near-contemporaneous aerial imagery. We delineated each cat’s home range and compared its land cover composition to that of an equal-area circle centered on the median x and y coordinates of GPS fixes, representing directionally unbiased (isotropic) roaming. Home ranges were small (mean 0.85 ± 0.06 ha; median 0.73 ha; approximately 50 m radius), and cats whose ranges included nearby natural or semi-natural open areas had larger home ranges than cats in urban environments. Home range size was not affected by sex or season and decreased with age. Despite detailed, accurate mapping, no land cover class was found to be over- or under-represented within cat home ranges relative to the null expectation. These results, although limited to harness-tolerant cats, suggest that owned cats in our study area do not preferentially select specific land covers when roaming outdoors. Full article

Thermal comfort and adequate sunlight exposure are essential for maintaining the health of older adults. Although multi-objective optimization (MOO) has been increasingly applied to improve environmental performance in spatial design, most existing studies still rely on computationally expensive physical simulations, and their optimization results often lack interpretability and operability in early design decision-making. To address these issues, this study proposes a collaborative optimization framework that integrates machine learning surrogate models with neural visualization tools to support performance-driven design of age-friendly outdoor spaces at the early stage. Based on survey data from 46 typical Beijing communities, we constructed a parametric model with three objectives: minimizing summer UTCI, maximizing winter UTCI, and maximizing sunlight duration. An XGBoost model is adopted as a surrogate to accelerate performance prediction, while a self-organizing map (SOM) was applied to cluster and visualize Pareto-optimal solutions. The results indicate that the surrogate model achieves high predictive accuracy and reduces overall computational time by approximately 45% compared with conventional physical simulations. Moreover, the SOM-based visual decision process compresses the high-dimensional solution space and reduces candidate schemes by more than 90%, enabling rapid identification of design solutions that balance environmental performance and spatial morphology. The proposed framework improves both computational efficiency and decision support capacity for performance-oriented spatial design and provides a novel methodological reference for the environmental renewal of age-friendly outdoor spaces. Full article

Well-founded animal models of maternal separation show that early postnatal separation from the mother represents a massive stress factor for the offspring, with far-reaching negative effects on their physical and behavioural development. However, studies also show that the effects of maternal separation can be at least mitigated by appropriate physical attention. In this case report, we document the successful rehabilitation of a single orphaned male harbour seal pup by attempting to substitute natural maternal attention with intensive human attention. The pup underwent excellent physical development and displayed a close bond with its carers, characterised by intensive physical contact and suckling on a carer’s hand. However, during the final rehabilitation phase in a large outdoor enclosure, the pup increasingly reduced its affiliation to its carers. After its release, long-term observations over four years documented its hunting success, corresponding optimal physical development, and successful integration into existing wild seal groups. At the age of four, the now sub-adult seal displayed socio-sexual behaviour that is typical for this age and maintained a close bond with a wild female seal for months. The report shows that the rehabilitation of orphaned seals is possible by substituting maternal care with human care, resulting in neither a fixation on humans nor modifying species-specific behaviour. Thus, the pup’s chances of survival and potential reproduction in the wild were not jeopardised by this method of rehabilitation. Full article

Given the limited knowledge of early-life behavior in the Massese dairy breed, this study investigated lamb behavior from 5 to 70 days under two rearing conditions to identify age-related behavioral phases potentially relevant to weaning. Twenty-two Massese lambs were reared either in an Indoor housing system during the winter or in an outdoor Pasture system during the spring, in accordance with traditional seasonal management practices. Lambs in both systems remained with their dams with continuous access to milk. Behavioral variables, recorded weekly during daylight and expressed as relative frequencies, were analyzed against age and rearing system, using THI as covariate. Growth influenced most behaviors, with similar age-related trends across rearing systems. Suckling behavior decreased significantly with age, tending to cease at approximately 40 days in Indoor lambs and 50 days in Pasture lambs. Grooming also declined over time, indicating reduced affiliative interactions irrespective of the rearing system. In contrast, solid feed intake and rumination increased progressively, reflecting a transition toward nutritional independence. Pasture lambs engaged in moving and grazing activities while indoor lambs spent most of their time lying. These results suggest preliminary insights into a management context-associated, behavior-based weaning window in Massese lambs. Full article

Background: To evaluate the effect of the COVID-19 pandemic on myopic progression defined in terms of refractive change and axial length elongation in Korean children with myopia using 0.01% atropine eye drops. Methods: A retrospective review was performed on the medical records of 73 children aged 4 to 15 years with a baseline myopia of −0.50 diopters (D) or more who had used 0.01% atropine eye drops for more than 12 months before the onset of the COVID-19 pandemic in South Korea. The rate of myopic progression was compared between two periods: the pre- and post-pandemic eras, the latter of which was defined by the initiation of remote schooling in March 2020. At each visit, cycloplegic autorefraction and axial length were measured using a Zeiss IOL Master. Patients answered a questionnaire regarding their time spent on near work (computer, smartphone, reading, homework, after-school workbooks, drawing, etc.) and outdoors. Results: During the pandemic, in terms of refraction, myopia progressed at an average rate of −0.45 D/y, which was significantly faster than before the pandemic of −0.22D/y (p = 0.037). In contrast, axial length elongation was 0.22 mm/y and 0.19 mm/y before and after the pandemic, respectively, which was not significantly different (p = 0.546). Time spent on using computers, smartphones, and other near work significantly increased, while outdoor time had significantly decreased after the pandemic (paired t-test, all p < 0.001). The change in annual refractive myopic progression rate during the pandemic compared to the pre-pandemic period did not significantly correlate with changes in computer time, smartphone time, or other near work time (p = 0.134, 0.210, 0.863, respectively). However, the change in outdoor time showed a negative correlation with the change in annual myopic progression rate (r = −0.239, p = 0.041). Conclusions: Among Korean children aged 4 to 15 years receiving 0.01% atropine, the rate of myopic progression increased significantly in terms of refraction during the COVID-19 pandemic compared with the pre-pandemic period, whereas axial length progression did not change significantly. Full article

Background/Objectives: The potential of outdoor physical activity as an intervention strategy to promote height growth velocity via stimulating growth hormone secretion and vitamin D synthesis has been scarcely investigated. The present study aimed to investigate the associations between outdoor physical activity duration and height growth velocity, and differences in gender, age, exposure time period (daily, school days vs. weekends), and body mass index (BMI) category. Methods: We performed a secondary analysis of longitudinal data from the 2019–2020 Chinese National Survey on Students’ Constitution and Health. The analytic sample included 5029 adolescents aged 9–18 years. High or low height growth velocity was defined as sex- and age-specific percentiles. Associations of high height growth velocity with outdoor activity duration (≥1 h, ≥2 h) on school days and weekends were investigated using multivariable logistic regression models. Analyses were stratified by sex, age group (9–12, 13–15, 16–18 years), and BMI category (normal weight, overweight, and obese). Results: Results from this cross-sectional analysis indicate that ≥1 h of daily outdoor physical activity is significantly associated with higher height growth velocity among normal-weight boys aged 9–15 years (OR range: 1.71–2.01) and girls aged 9–12 years (OR = 1.68). The positive association increased with ≥2 h (ORs up to 7.96). Consistently positive associations were found for activity during the school day compared to weekends. No significant associations were found in overweight and obese children. Conclusions: Ensuring adequate daily outdoor physical activity—especially on weekends—for at least two hours may be an important potential strategy to promote height growth in normal-weight children and adolescents. Interventions should consider differences in weight status and timing of activity. Full article

Urban public spaces are an essential component of everyday life in urban communities, and micro public spaces have become an important vehicle for improving living environment quality and enhancing ecological benefits in community renewal within built-up areas. From an economic perspective, this study focuses on the quantification of carbon value generated through the renewal of micro public spaces. Four micro public spaces of comparable size but differing locational and functional characteristics, completed in Wuhan in 2023, were selected as case studies. Plant carbon sequestration was estimated using the biomass expansion factor method combined with field-based forestry surveys, while indirect emission reduction associated with residents’ outdoor activities was assessed through spatiotemporal observations of user behavior. These results were further translated into carbon value based on China’s carbon trading standards to support comparative analysis and design-oriented recommendations. The results indicate that direct sequestration significantly outweighs indirect reduction: the carbon storage density of trees ranges from 0.40 to 1.97 kg/m², with the total storage of HRP reaching 11,587.36 kg; in contrast, annual indirect reduction from resident activities is only 1.34–141.19 kg. Carbon sequestration performance is strongly influenced by the presence of large trees, while micro public spaces located in newly developed and commercial areas exhibit substantially lower emission reduction efficiency than those in older and densely populated residential neighborhoods. In addition, the functional attributes of micro public spaces shape age-specific use patterns, thereby significantly affecting emission reduction outcomes. Based on these findings, targeted optimization strategies for micro public space renewal are proposed to support people-oriented, sustainable, and systematic low-carbon urban regeneration. Full article

Dementia is an increasing public health challenge, yet scalable methods for early risk detection using non-clinical data remain limited. This study develops and evaluates interpretable machine learning models to predict dementia risk among older adults using nationally representative longitudinal data. Data were sourced from the National Health and Aging Trends Study (NHATS, 2011–2022) and included 5984 community-dwelling U.S. adults aged 65 and older who were dementia-free at baseline. Dementia onset was identified using the validated NHATS classification algorithm based on cognitive assessments, proxy reports, and physician diagnoses. After data preprocessing and feature engineering, missing values in continuous variables were imputed with k-nearest neighbors, while categorical variables were handled via one-hot encoding and mode-based imputation. Five supervised machine learning algorithms were trained and evaluated through stratified cross-validation, using performance metrics that account for class imbalance. Among these models, XGBoost showed the strongest overall performance, achieving the highest classification accuracy (0.881 ± 0.004), the lowest Brier score (0.094 ± 0.002), and the highest ROC–AUC (0.823 ± 0.005), with RF showing comparable results. Explainable AI analyses with SHapley Additive exPlanations (SHAP) consistently identified digital technology use, outdoor activity frequency, and social network size as the most influential predictors across models. These findings indicate that interpretable machine learning based on non-clinical, modifiable behavioral and social factors can support scalable, prevention-focused dementia risk assessment and inform prevention-oriented strategies that promote digital inclusion and social engagement among older adults. Full article

Myopia has emerged as a global public health crisis, with prevalence exceeding 80% in East Asian urban populations and rising rapidly worldwide. High myopia substantially increases the lifetime risk of sight-threatening complications, including myopic macular degeneration, retinal detachment, and glaucoma. Multiple interventions have been investigated to slow myopia progression in children. Behavioral strategies, particularly increased outdoor exposure, demonstrate protective effects against myopia onset and may modestly slow progression, whereas several historically used approaches show no clinically meaningful benefit. Spectacle lens interventions include simultaneous defocus designs (e.g., DIMS, HALT, CARE) and contrast-modulating diffusion optics (DOT) lenses; collectively, these technologies have demonstrated consistent and clinically meaningful reductions in axial elongation across randomized clinical trials. Contact lens modalities, including dual-focus soft lenses and orthokeratology, have also demonstrated substantial efficacy in slowing progression in controlled studies. Low-dose atropine remains a cornerstone pharmacological therapy, particularly at concentrations between 0.01% and 0.05%, offering significant efficacy with minimal side effects. Repeated low-level red-light therapy has shown promising short-term reductions in axial elongation, although long-term safety and rebound effects remain uncertain. Combination therapy targeting complementary optical and pharmacological pathways shows additive benefits, particularly in children inadequately controlled with monotherapy. Contemporary clinical management emphasizes risk stratification based on axial length, age-specific growth targets, and structured longitudinal monitoring. The goal of modern myopia management is not merely to slow progression, but to prevent high myopia and reduce the lifetime burden of vision-threatening complications through a proactive, individualized approach increasingly regarded as the standard of care. Full article

Landscape quality significantly impacts residents’ well-being through visual perception, particularly among the elderly who exhibit heightened sensitivity to environmental stimuli. Therefore, this study investigates how landscape configurations influence emotional and physiological responses in older adults under controlled visual conditions. This study selected representative outdoor activity sites in northern Chinese cities and designed five landscape scenarios by adjusting the green coverage ratio (GCR) and landscape composition. Participants (mean age 64.8) reported feelings of pleasure, relaxation, and fatigue while viewing screen-based landscape images, with simultaneous recording of attention-to-interest area (AOIA), pupil diameter range (PD), and electroencephalogram (EEG) data. Research findings reveal a non-linear relationship between the GCR and emotional and physiological responses among elderly populations: when the GCR increased from 18.4% to 38.1%, participants reported significantly heightened feelings of pleasure and relaxation, alongside marked reductions in fatigue-related physiological indicators. However, when the GCR further rose to 48.5%, both reported subjective measures and physiological indicators deteriorated among elderly participants. Under equivalent green coverage conditions, water features within natural settings enhance visual focus on natural elements more effectively than purely green landscapes. Women demonstrated greater sensitivity to changes in the GCR. Correlation analysis further indicated that visual attention among the elderly positively correlated with positive emotions and negatively correlated with fatigue-related physiological responses. This research provides valuable guidance for green space design. Full article

Bamboo, a fast-growing biomass material with excellent mechanical properties, is widely used in furniture and construction. However, its susceptibility to moisture, cracking, and aging limits its durability. While acrylic resins offer good weather and water resistance, the relationship between resin formulation and the performance of bamboo remains unclear. This study developed a novel water-based styrene–acrylic resin tailored for bamboo, systematically investigating the relationships between resin formulation, coating structure, and performance. Results show that vinyltriethoxysilane-modified styrene–acrylic resin outperforms hydroxypropyl-acrylate-modified and unmodified styrene–acrylic. At a 10% dosage of vinyltriethoxysilane, the Zeta potential reached −24.2 mV, indicating enhanced emulsion stability. The coated bamboo exhibited a water contact angle of 100.56 ± 1.11°, a pencil hardness of 4H, and an adhesion grade of 1, significantly improving its waterproofing, hardness, and bonding strength. UV aging tests confirmed improved anti-aging performance, with optimal results at 10% dosage: color difference (ΔE) of 3.00 ± 1.81, dimensional change rate of 0.76 ± 0.22%, and gloss retention of 78%. This study also pioneers research on contact angle hysteresis for coated bamboo. The findings provide theoretical and technical support for developing high-performance bamboo coatings and durable outdoor bamboo products. Full article

Bisphenol A (BPA) is a synthetic organic compound commonly used as a plasticiser in the industry. It pollutes the environment, harms human and animal organisms, and exhibits endocrine-disrupting properties. Companion animals, living in proximity to humans, are highly exposed to BPA. However, knowledge of cat exposure to this compound is extremely scarce. In the present study, BPA levels were analysed for the first time in cat hair using liquid chromatography–triple quadrupole mass spectrometry. BPA concentrations ranged from below the limit of detection to 955.4 pg/mg, with a mean (±standard deviation) of 67.98 ± 145.2 pg/mg and a median of 27.3 pg/mg. Higher levels of BPA have been found in the strictly indoor cats (mean 79.45 ± 162.2 pg/mg, median 35.3 pg/mg) than in cats with outdoor access (mean 25.93 ± 8.07 pg/mg, median 24.4 pg/mg). Some differences in BPA levels have also been noted depending on age and body condition scores. The results show that cats are exposed to BPA to a considerable extent, and the levels of this compound in hair may depend on many factors. It can be assumed that BPA may negatively affect cat health, but due to limited knowledge of BPA metabolism in cats and its harmful effects in this species, many aspects of these issues require further comprehensive studies. Full article

Climate change is altering the use of public open spaces in historical urban environments, compounded by urban heat island effects. Especially considering urban squares, rising temperatures increase health risks for outdoor users, particularly for vulnerable individuals (by, e.g., age and fragility). Rapid risk assessment under current and future climate scenarios can exploit integrated simulations to support the process, considering both real-world environments and Built Environment Typologies (BETs), which represent the recurring morphological, constructive, and material features of such urban squares. Simulation-based approaches can also support the assessment of mitigation strategies considering sustainability, reversibility, visual integration, and compatibility with the heritage. This work proposes a framework for simulation-based heat risk assessment of outdoor users under current and future (2050 and 2080) overheating scenarios and considers pre- and post-mitigation conditions of urban squares. Outdoor temperature conditions are simulated using ENVI-met, enabling the multiscale assessment of users’ heat stress and thresholds in exposure timings before critical dehydration. The approach is applied to two Italian historical urban squares in Bari and Naples, and to their associated BETs. The results highlight the framework’s capabilities in addressing the impact of climate scenarios and pre-/post-mitigation conditions, considering the local and global conditions of the urban squares. Moreover, the observed similarities between POSs and their corresponding BETs demonstrate that these archetypes can support preliminary risk assessments, providing decision makers with a rapid overview before adapting analyses and mitigation strategies to the specific characteristics of each urban square. Full article

This study evaluated the effect of rearing conditions with outdoor access on carcass traits, technological meat quality, and muscle fibre morphology in broiler chickens. Hubbard JA757 broilers were reared until 81 days of age under either control or experimental conditions. Both groups were housed indoors under identical management until day 35; thereafter, the experimental group had access to an outdoor paddock, while the control group remained indoors. At 81 days of age, birds were slaughtered, carcass composition was recorded, and breast (pectoralis major) and thigh (biceps femoris) muscles were analyzed for pH, colour, cooking loss, and shear force. Muscle fibre characteristics were assessed histochemically. Control birds showed higher slaughter and chilled carcass weights, whereas experimentally reared birds exhibited higher carcass yield, lower breast proportion, higher thigh proportion, and reduced abdominal fat. Experimental rearing was associated with higher L* values, higher shear force, and lower cooking loss in both muscles. In the pectoralis major, fibre density was higher in controls, while fibre diameter was higher in the experimental group. In the biceps femoris, the experimental group showed a higher proportion of oxidative βR fibres and larger fibre cross-sectional areas. These results demonstrate that the rearing system influences carcass composition, technological meat properties, and muscle fibre characteristics, leading to distinct phenotypic and technological differences between the groups. Full article

To address poor wear resistance of surface metal grids for optical windows and low efficiency and poor uniformity of traditional embedded technologies, this study fabricates ultra-wear-resistant embedded metal grids on 180 mm × 180 mm × 8 mm sapphire via photolithography and large-area plasma etching. Etching grooves (depth about 300 nm) and depositing 135 nm silver (Ag) + 170 nm alumina (Al₂O₃) films, the grids exhibit transmittance 80.2%~80.9% (2~5 μm), wear resistance without damage, and reliable EMI shielding (Electromagnetic Interference Shielding) (3~18 GHz), offering a scalable solution for harsh-environment optoelectronic windows. The embedded structure integrates high transmittance, ultra-wear resistance, and reliable EMI shielding, addressing the core demands of optoelectronic windows in aerospace, outdoor monitoring, and other harsh environments where durability and stability are critical. The key innovation lies in the optimized integration of large-area plasma etching and low-temperature electron beam deposition, achieving precise control of groove depth uniformity (<4%) and transmittance uniformity (<1%) on high-hardness sapphire substrates, which overcomes the trade-off between efficiency and uniformity in traditional embedded technologies. Future applications include high-performance optical windows for airborne surveillance systems, space-borne optoelectronic devices, and harsh-environment industrial monitoring equipment, with potential extension to other high-hardness dielectric substrates. Full article