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The sociology of religion focuses on an individual’s social and married life. This research performed the first focalized examination of the influence of spirituality and religiosity on the marital satisfaction of Pakistani Muslim couples and how religious commitment and religious practice strengthens the relationship of married couples. This study incorporates the Kansas Marital Satisfaction scale (KMSS), the Religious Commitment Inventory (RCI-10) and the Religious Practice scale to measure marital satisfaction. Survey questionnaires, including a survey invitation letter and an informed consent form, were sent to married couples residing in five urban areas of Pakistan. The sample consisted of 508 valid responses, 254 males and 254 females, exploring the respondent’s perception of their marital satisfaction. The data received were screened and tested through SPSS version 25. The first step of the data analysis was to examine the impact of religiosity variables (religious commitment, religious practice) on marital satisfaction. Findings indicated that religious commitment and religious practice are vital for a happy married life. The findings help explain the social dynamics of marital satisfaction in Pakistani culture. The results also indicated that religious commitment and religious practice strengthened and promoted marital satisfaction. This study is novel in the context of Pakistani culture and conclusions cannot be generalized to the whole population. Other religious factors may provide further research directions. The results of this study may help practitioners and decision-makers focusing on marital satisfaction issues.

Selecting highly nutritive fodder plants in arid regions can be a key to improving the livestock productivity. This work explores the variation in nutritive value of the leaves, stem, and shoots of five potential fodder plants of the Emirates of Fujairah, Erucaria hispanica , Haplophyllum tuberculatum , Convolvulus virgatus , Teucrium stocksianum , and Cleome Ibrachycarpa . influenced by two weather conditions, winter and spring. The plant samples underwent mineral composition, proximate, phytochemical, and heavy metals and two-way ANOVA. Weather data were accessed from National Center of Meteorology (NCM). Our findings reveal significant influences of collection time and species on nutritive content. Shoots collected in March exhibited higher ash (6.167%), crude protein (11.9%), crude fiber (14.89%), dry matter (45.86%), and total digestive nutrients (TDS) (48.35%), with lower tannin (5.11%) compared to January. Conversely, January-collected shoots had greater total sugar content (1.28 g/100 g). Plant organs played a crucial role, with leaves surpassing stems in Mg, P, Ca, K, Na, Mn, Zn, and Ni. Leaves also showed higher crude protein (23.33%), dry matter (92.26%), total ash (4.8%), and TDS (87.58%) compared to stems, while stems exhibited elevated crude fiber (17.45%) and tannin (4.53%). There is a need to assess the bioactive compounds found in these fodder species for the enhancement its effective use and maximize browsing of these species.

Honey is globally recognized for its substantial nutritional and therapeutic properties. However, its high market value makes it susceptible to counterfeiting, negatively impacting consumers and beekeepers. This paper presents a blockchain-based framework to monitor the honey trade supply chain, ensuring authenticity. The framework employs an oracle component to verify honey quality and origin using IoT data. Additionally, it integrates fungible and non-fungible tokens to track honey batches. The study evaluates the economic feasibility of this approach, demonstrating that the cost of performing a trade is less than USD 1, with the oracle component achieving an average accuracy rate of 90% in detecting falsified sensor data.

Royal jelly (RJ) has various applications in cosmetics, health food, and apitherapy to treat chronic inflammation disorders. It is a milky white substance rich in proteins, carbohydrates, lipids, vitamins, and minerals. RJ acts as an antioxidant, anti-inflammatory, and antimicrobial agent, which helps in reducing inflammation and boosting immunity. This review provides an insight into the sensory and chemical analytical aspects of RJ, with a focus on water, 10-hydroxy-2-decenoic acid (10-HDA), protein, and sugar contents, as well as the national and international quality standards of major honey-producing countries. The chemical composition of RJ varies across locations due to external conditions, nectar sources, harvesting conditions, and honeybee species, which affect its quantity and quality. Despite having a consistent composition, the production of RJ per honeybee colony is influenced by environmental conditions, nectar source attributes, and mineral, vitamin, and amino acid content. Advanced analytical methods are required to accurately quantify the diverse ingredients of RJ, which are responsible for its biological and pharmacological effects. Understanding the intricacies of RJ is essential to unlock its therapeutic potential. Notably, apiculture research at the national level acts as sensitive bioindicators, emphasizing the global need for honeybee standards. This exploration contributes to understanding how external factors affect honeybee health and bee product quality.

A flash flood is the most common natural hazard that endangers people’s lives, the economy, and infrastructure. Watershed management and planning are essential for reducing flood damages, particularly in residential areas, and mapping flash flood-sensitive zones. Flash flooding is an interface dynamic between geoterrain system factors such as geology, geomorphology, soil, drainage density, slope, and flood, rather than only water movement from higher to lower elevation. Consequently, the vulnerability to flash floods necessitates an awareness of and mapping topographical features. A flash flood vulnerable zones (FFVZ) map is essential for thorough flash flood risk assessment and management to minimize its detrimental effects, particularly in residential areas, especially in cities like Fujairah with seven wadis flowing into the city and even though it has two main dams and fifteen breaker dams. So, in this work, eight satellite image-derived parameters rainfall, elevation, slope, land use/land cover (LULC), drainage density, geology, geomorphology, and soil were combined to predict the flash flood-vulnerable zones using a weighted overlay technique based on geographic information systems (GIS). Each element of the thematic maps is ranked and weighted according to how vulnerable it is to flash floods in the study area, with 55 km2 being classified as a very highly vulnerable area, 78 km2 as a high-risk area, 9.3 km2 as a moderate risk area, 70 km2 as a low vulnerable area, and 257 km2 as a very low vulnerable area. In addition, places with a very high vulnerability level include the Fujairah Airport, Fujairah Port, some residential neighborhoods in the city’s center, oil storage areas, two hospitals, and universities. Additionally, from 1990 to the present, Landsat and Sentinel 2 data showed consistent changes in vegetation and built-up areas. Therefore, in addition to helping policy and decision-makers make the best choices about the efficacy of the study area’s protective structures against the risk of flash floods in the future, the results can also be a valuable source of information.

Arid regions are mainly characterized by extreme environmental conditions, which strongly affect crop production and therefore, could not allow to satisfy the high food demand. During the past decades, chemicals fertilizers have been intensively used to increase crop yield. However, significant applications of chemical fertilizers have showed adverse effects on the environment in many previous works. Therefore, this study attempts to convert plant parts of dates palm (leaflet, petiole, and fruits) into biochar. Furthermore, this work also aims to determine the physiochemical composition of the biomaterial and its potentialities in improving plant growth of Ocimum basilicum at different levels including 0, 1.5, and 3% hydroponically. Based on our results, physiochemical parameters of the tested biochar revealed that 3% fruit biochar had the highest water drainage (42 ml), while petiole biochar at the same concentration without Hoagland had the highest pH (8.38) and EC (3452.66 µS/cm). Electrical properties, such as voltage (2.93 V) and current (0.14 mA), and plant metrics, including shoot and root growth, showed significant improvement, particularly with 3% of leaflet biochar and Hoagland application. Strong correlations between electrochemical properties (voltage, current) and plant growth were observed, with values ranging from 0.62 to 0.98. These findings suggest that biochar derived from date palm can be a valuable amendment for improving hydroponic crop production, particularly in arid regions.

Green soybeans, or edamame (Glycine max L. Merril), serve as a superior source of phytochemicals and other nutritive substances and are commonly used as ingredients and additives in food products due to their polyphenols’ functional properties and antioxidant activity. Hence, it is very important to use a process to extract compounds with functional roles from plants as efficiently as possible. In this study, we sought to identify the optimal conditions for extracting genistein, belonging to the aglycone subgroup of isoflavones, from edamame using the cold plasma (CP) and enzyme method. Additionally, the impact of various drying techniques (spray-drying and freeze-drying) and storage conditions on the crude genistein extract powder was evaluated. The findings showed that the maximum values for the total phenolic content (TPC), total flavonoid content (TFC), and genistein (22.5 ± 0.23 mg of gallic acid equivalents (GAE)/100 g; 15.3 ± 0.13 mg of catechin equivalents (CAE)/100 g; and 12.6 ± 0.10 mg/100 g, respectively) were achieved under optimal pretreatment conditions using a CP gas flow rate of 5 L/min for 30 min, followed by enzymatic treatment at a specific enzyme concentration of 2.0% (v/v) for 240 min of incubation. Moreover, a scanning electron microscopy (SEM) analysis demonstrated that the CP and enzyme treatment induced significant structural changes, as evidenced by the presence of deeper pores on the surface of the powder granules. Spray-drying demonstrated a superior efficacy compared to freeze-drying for encapsulating the crude isoflavone extract. This study’s results also demonstrated that storage at 4 °C significantly stabilized the TPC, TFC, and genistein content and the antioxidant activity while preserving the physical properties (solubility and color) of the crude extract powder for up to 45 days. In summary, cold plasma pretreatment and enzymatic treatments offer practical solutions by enhancing the efficiency of non-thermal extraction processes, thereby increasing the yield of bioactive compounds, maintaining quality, and diminishing reliance on traditional, harsh methods. The elevated genistein content in the crude extract powder indicates its prospective application as a functional ingredient in various food and nutraceutical contexts.

Extreme environments significantly impact the metabolic profiles of plants, leading to variations in chemical composition and bioactivity. This study investigates the effects of altitude, plant part age, and light exposure on the chemical composition and antimicrobial properties of Moringa peregrina . Based on our results, mineral contents were plant location dependent; while dry matter, ash, total digestible nutrients (TDN), fibre, protein, and tannins, were greater in the samples from the mountain. Vitamin E was more concentrated in the wadi. Vitamin A, selenium, phenols, and heavy metals were undetectable in both environments. Antimicrobial assays revealed stronger activity in mountain samples than the other locations. Age-dependent analyses showed that nitrogen, protein, ash, and electrolyte leakage were higher in young plant parts, whereas chlorophyll a and b levels were elevated in mature leaves and younger branches, particularly in lower elevations. Interestingly, young leaves from mountain regions had higher chlorophyll concentrations compared to mature leaves, contrasting with trends at other elevations. Photosynthetic photon flux density (PPFD) measurements were also highest in the mountain region. These findings suggest that M. peregrina employs diverse metabolic adaptations for survival in challenging environments, potentially offering socioeconomic value to indigenous communities through its bioactive properties.

IntroductionThis study addresses the need for automated monitoring solutions to evaluate the daily activity patterns of camels, which is critical for improving animal welfare and farm management practices. By leveraging advanced deep learning techniques, this research aims to identify and analyze five key daily activities—sleeping, sitting, standing, eating, and drinking—using video recordings from a camel farm in Fujairah, United Arab Emirates.MethodsThe dataset was collected over two 7-day phases in November and December 2022. In Phase 1, video recordings were analyzed to monitor the activities of two camels and measure the duration of each activity. In Phase 2, the study expanded to include six camels, enabling an evaluation of individual behavioral variations. The YOLOv7 object detection algorithm was used to train and validate the model on images extracted from the recordings, achieving high accuracy in detecting and classifying the defined activities.ResultsThe results showed notable variations in activity patterns between Phases 1 and 2. Average standing time decreased from 9.8 hours (40.8%) to 6.0 hours (25.1%), and sleeping time dropped from 4.3 hours (18.0%) to 2.8 hours (11.7%). Conversely, sitting time increased from 6.2 hours (25.8%) to 9.9 hours (41.5%), and eating time rose from 3.1 hours (12.8%) to 4.6 hours (19.2%). Drinking time remained consistent at an average of 37 minutes (2.6%) across both phases. Activity peaks were observed during early mornings and after 16:00, with midday hours dominated by resting in shaded areas. Evening and nighttime activities primarily included sitting, minimal head movements, and occasional standing or walking.DiscussionThe established deep learning framework demonstrated reliable performance in detecting and analyzing camel activity patterns, offering a practical solution for continuous monitoring and improved farm management. However, further research is recommended to validate the model’s performance across different seasons and environmental conditions to enhance its robustness and adaptability.

Biomedical implants are the need of this era due to the increase in number of accidents and follow-up surgeries. Different types of bone diseases such as osteoarthritis, osteomalacia, bone cancer, etc., are increasing globally. Mesoporous bioactive glass nanoparticles (MBGNs) are used in biomedical devices due to their osteointegration and bioactive properties. In this study, silver (Ag)- and strontium (Sr)-doped mesoporous bioactive glass nanoparticles (Ag-Sr MBGNs) were prepared by a modified Stöber process. In this method, Ag+ and Sr2+ were co-substituted in pure MBGNs to harvest the antibacterial properties of Ag ions, as well as pro-osteogenic potential of Sr2 ions. The effect of the two-ion concentration on morphology, surface charge, composition, antibacterial ability, and in-vitro bioactivity was studied. Scanning electron microscopy (SEM), X-Ray diffraction (XRD), and Fourier transform infrared spectroscopy (FTIR) confirmed the doping of Sr and Ag in MBGNs. SEM and EDX analysis confirmed the spherical morphology and typical composition of MBGNs, respectively. The Ag-Sr MBGNs showed a strong antibacterial effect against Staphylococcus carnosus and Escherichia coli bacteria determined via turbidity and disc diffusion method. Moreover, the synthesized Ag-Sr MBGNs develop apatite-like crystals upon immersion in simulated body fluid (SBF), which suggested that the addition of Sr improved in vitro bioactivity. The Ag-Sr MBGNs synthesized in this study can be used for the preparation of scaffolds or as a filler material in the composite coatings for bone tissue engineering.