Search Results (3,315)

The present investigation was designed to elucidate the comparative collective diversity of bacteria in the rumen of buffalo and cattle. For this study, a total of 14,913 16S rRNA gene (rrn) sequences generated through Sanger sequencing of ruminal bacteria deposited in the GenBank database were analyzed, of which 13,432 sequences were from cattle and 1481 sequences were from buffalo. Bacterial sequences of cattle origin represented 18 existing phyla and 165 genera, and those of buffalo origin represented 12 phyla and 67 genera. According to Ribosomal Database Project (RDP) classifier, Firmicutes was the dominant phylum in cattle, representing 47.9% of all sequences. Bacteroidetes was the second most abundant phylum (32.3% of sequences), while Proteobacteria accounted for 8.6% of total sequences. In buffalo, Firmicutes was the dominant phylum with 47.2% of total sequences. Bacteroidetes and Proteobacteria phyla constituted 38.3% and 4.6% of total sequences, respectively. We identified 172 shared non-rare species-level operational taxonomic units (OTUs) between buffalo and cattle, with 17 unique to buffalo belonging to three phyla: Bacteroidetes, Firmicutes, and Fibrobacteres. In cattle, 774 OTUs of unique sequences were assigned to six phyla, namely, Firmicutes (422 OTUs), Bacteroidetes (234 OTUs), Fibrobacteres (99 OTUs), Actinobacteria (7 OTUs), Cyanobacteria (5 OTUs), and SR1 (7 OTUs). This study revealed significant differences in rumen bacterial diversity between buffaloes and cattle, supporting the development of species-specific strategies to enhance fibrous feed utilization. Full article

The addition of organic carbon sources in biofloc technology (BFT) systems promotes microbial community development, enhancing water quality, nutrient recycling, and supplemental feeding through microbial biomass. These characteristics make BFT a viable strategy for the cultivation of promising aquaculture species, such as Mugil cephalus. This study evaluated the effects of three carbon sources—unrefined cane sugar (locally known as chancaca), refined sucrose, and beet molasses—on water quality and growth performance of M. cephalus juveniles reared in a BFT system. Juvenile mullets (4.33 ± 2.09 g) were cultured for 45 days at a stocking density of 0.03 ± 0.01 kg·m⁻³, with biofloc pre-matured in ex situ tanks. Most water quality parameters showed no significant differences among treatments (p > 0.05), except for nitrite concentrations, which were significantly higher in the sucrose group (p < 0.05). The highest growth performance was observed in the sucrose treatment, with a weight gain (WG) of 4.26 ± 0.51 g, an average daily weight gain (AWG) of 0.09 ± 0.01 g, and a thermal growth coefficient (GF3) of 1.27 ± 0.15 at a constant temperature of 24 °C. Bromatological analysis of bioflocs revealed significantly higher crude protein (CP: 9.8%) and energy content (Kcal·100 g⁻¹: 3.44 ± 0.2) in the sucrose treatment compared to chancaca (CP: 5.1%). These findings confirm that M. cephalus can be effectively cultured in BFT systems using simple carbon sources. Refined sucrose, due to its high solubility and nutritional contribution to biofloc formation, is recommended for improving growth performance and system efficiency in M. cephalus production. Full article

Managing transition cows and preventing diseases related to this period is challenging due to the latter’s multifactorial nature. The aim of this applied observational case study is to illustrate and discuss the different aspects involved and provide an approach to analysis and the resulting management solutions using a real-life case within a 500-cow herd. The initial assessment, involving the collection of data on the level of production, animal health and behaviour, and metabolic indicators, as well as management and housing key indicators, revealed key risk factors, including overcrowding, suboptimal feeding strategies, inadequate water supply, and insufficient disease monitoring. These factors contributed to increased cases of metabolic disorders such as hypocalcemia (annual incidence 7.8%), excessive lipomobilisation, and displaced abomasum (annual incidence 5.2%). A holistic approach combining feeding adjustments, disease monitoring, facility improvements, and long-term management strategies was implemented to address these challenges. Short-term interventions, such as optimizing the dietary cation–anion balance and enhancing disease detection protocols, led to noticeable improvements. However, structural constraints and external factors, such as extreme weather conditions (heat stress) and economic limitations, created significant hurdles in achieving immediate and sustained success. The farm ultimately opted for infrastructural improvements, including a new transition cow facility, to provide a long-term solution to these recurring issues. This case highlights the complexity of transition cow management, demonstrating that long-term success depends on continuous monitoring, interdisciplinary collaboration, and adaptability in response to evolving challenges in dairy production. Full article

Malaria continues to affect millions of people around the world. Current control strategies have not been sufficient, and additional tools are required for malaria elimination. A promising approach is the use of bacteria from the mosquito microbiota, such as the Su_YN1 Serratia ureilytica bacterium, which is shown to strongly impair the development of P. falciparum and P. berghei in Anopheles mosquitoes. To evaluate the potential of using S. ureilytica Su_YN1 to block the Plasmodium parasite in South American vectors, we investigated its effects on mosquito fitness and survival. We found that this bacterium does not affect the longevity, blood feeding, fecundity and fertility of Anopheles aquasalis, an important South American vector. Overall, our results provide baseline support for the potential implementation of Su_YN1 for the control of malaria transmission in South America. Full article

The growing demand for animal products exerts pressure on the livestock sector to increase production while minimizing its impact on the environment. The paper explored the impact of ruminant production systems on the environment and opportunities for enhancing production and environmental conservation. A comprehensive review of literature on livestock production, animal nutrition, and environmental conservation was conducted. The review shows that the challenges of ruminant production on the ecosystem are centered around greenhouse gas emissions, land degradation, and water and feed resources. However, manipulation of animal feeding strategies, rotational grazing, precision farming, and integration of crop-livestock systems have the potential to enhance feed efficiency, reduce waste, improve animal health, and nutrition and reduce nitrogen and methane gas emissions. This will also improve manure management, soil health, and biodiversity, which are essential in climate resilience building and resource management by farmers. Development of effective strategies for enhancing animal nutrition and ruminant production while conserving the ecosystem is important. Full article

The development of efficient strategies for optimizing and controlling nonlinear bioprocesses remains a significant challenge due to their complex dynamics and sensitivity to operating conditions. This work addresses the problem by proposing a two-step methodology applied to a laboratory-scale fed-batch bioethanol process. The first step employs a dynamic optimization approach based on Fourier parameterization and orthonormal polynomials, which generates smooth and continuous substrate-feed profiles using only three parameters instead of the ten required by piecewise approaches. The second step introduces a controller formulated through basic linear algebra operations, which ensures accurate trajectory tracking of the optimized state variables. Simulation results demonstrate a $3.65\%$ increase in ethanol concentration at the end of the process, together with an accumulated tracking error of only $0.0189$ under nominal conditions. In addition, the closed-loop strategy outperforms open-loop implementation when the initial conditions deviate from their nominal values. These findings highlight that the proposed methodology reduces mathematical complexity and computational effort while producing continuous control profiles suitable for practical application. The combination of optimization and algebraic control thus provides a promising alternative for improving the efficiency of bioethanol-production processes. Full article

The administration of enteral nutritional therapy (ENT), combined with the use of probiotics, is considered a proactive therapeutic strategy that can modulate the intestinal microbiota, resulting in beneficial effects on intestinal integrity and function, as well as on the immune system of patients. This review aimed to find evidence on the clinical effects of probiotic administration in treating patients using ENT. An integrative search was performed to select scientific articles on the use of probiotics in ENT published in the last 10 years (2014–2025) using PubMed, ScienceDirect, Scielo, and Google Scholar databases. The descriptors used in the search were “probiotics” AND “enteral nutrition” OR “tube feeding” AND “adults” AND “critical illness”. Retrospective studies, pilot single/double-blind placebo-controlled clinical trials, and randomized trials investigating the effects of probiotic supplementation in enteral nutrition were included. A review of 21 manuscripts was conducted, in which all patients received ENT with probiotics, with 14 monitored in the ICU, 4 in the ward, and 3 at home. All 21 studies reviewed included a control group using enteral nutrition alone or a placebo, and some also included the study of other treatments. All studies demonstrated clinical benefits of some nature for patients who received enteral nutrition associated with the use of probiotics, such as reduced hospitalization time, improvement in the gastrointestinal tract, reduction in diarrhea associated with the use of antibiotics and inflammatory and immunological responses, and reduction in the incidence of pneumonia associated with mechanical ventilation. Probiotic supplementation in adult patients using enteral nutritional therapy demonstrates benefits that help promote health and improve intestinal microbiota composition. No side effects or adverse risks have been reported. Full article

Motor insurance can use telematics data not only to understand individual driving style but also to implement innovative coaching strategies that feed back to the drivers, through an app, the aggregated information extracted from the data. The purpose is to encourage an improvement in their driving style. A precondition for this improvement is that drivers are digitally engaged, that is, they interact with the app. This paper proposes a narrow understanding of the term engagement, referring to users’ interactions with the app. This interaction is also a behavior producing specific data that can be tracked and used by insurance companies. Based on the empirical investigation of the dataset of a company selling a telematics motor insurance policy, our research investigates if there is a correlation between engagement with the app and improvement of driving style. The analysis distinguishes different groups of users with different driving abilities, and takes into account time differences. Our findings contribute to clarifying the methodological challenges that must be addressed when exploring engagement and coaching effectiveness in proactive insurance policies. We conclude by discussing the possibility and difficulties of tracking and using second-order behavioral data related to policyholder engagement with the app. Full article

A major cause of lameness in turkeys is reoviral arthritis, driven by turkey reovirus (TRV) infection. In the U.S., TRV was first isolated in the 1980s but re-emerged as a significant pathogen causing arthritis in 2011. Since then, TRV outbreaks have spread nationwide across turkey-producing regions and have occasionally resulted in hepatitis-associated pathotypes. The absence of a consistently effective commercial vaccine continues to hinder disease control efforts. To better understand TRV’s evolutionary trajectory and transmission dynamics, we analyzed 211 complete TRV genome sequences collected across the U.S. from 2007 to 2021. Bayesian time-scaled phylogenetic and phylogeographic analyses were conducted for all ten genome segments to estimate gene flow among geographic regions, client groups, and pathotypes. The results reconstructed a coherent, decades-long history of TRV evolution, which revealed segment-specific differences in the evolutionary rates—particularly in S1c (σC protein coding region of S1) and M2—suggesting reassortment with other avian reoviruses during the 2011 emergence. Nationwide spread patterns indicated dominant transmission routes from the Eastern U.S. to Minnesota and from breeder to smallholder flocks, likely driven by inter-regional animal or feed movement via the multi-stage turkey production cycle. Pathotype transitions were more frequently observed from arthritis-associated strains to those causing hepatitis or cardiac lesions. These findings provide crucial insights to support national TRV control strategies and long-term monitoring by industry stakeholders. Full article

Weaning stress in piglets severely restricts swine production efficiency due to growth retardation, immune suppression, and intestinal dysfunction. This study investigated the effects of dietary pyrroloquinoline quinone (PQQ) on 36 weaned piglets (22 ± 1 days old) allocated to six groups (0, 1, 2, 4, 8 and 16 mg/kg PQQ) for 28 days. Results showed that 4–8 mg/kg PQQ improved average daily gain and feed conversion ratio (p < 0.05), enhanced serum immunoglobulin (IgA, IgG) and antioxidant enzyme (T-AOC, SOD, GSH-Px) levels, and reduced inflammatory cytokines (TNF-α, IL-1β, IL-6) (p < 0.05). PQQ modulated gut microbiota, increasing Lactobacillus and Bifidobacterium, and elevated short-chain fatty acid production (p < 0.05). Metabolomic analysis revealed upregulated tricarboxylic acid (TCA) cycle intermediates (citric acid, isocitric acid and malic acid), indicating improved mitochondrial function (p < 0.05). Overall, 4 mg/kg PQQ optimally alleviates weaning stress by enhancing immunity, gut health, and energy metabolism, offering a promising strategy for piglet nutrition. Full article

In small-scale livestock production systems, low-quality diets constrain animal performance and increase enteric emissions, but both these impacts can be remediated using optimized feeding strategies. An experiment was conducted with lambs fed at two levels—maintenance (MN) and growth (GR)—using multi-nutrient blocks formulated with different concentrations of polyherbal nutraceuticals to compare the lambs’ reactions in terms of their productive performance and estimated enteric methane emissions. Thirty-two lambs were fed at two feeding levels—(a) maintenance (MN) at 9% CP and 1.85 Mcal ME/kg DM and (b) growth (GR) at 13.24% CP and 2.15 Mcal ME/kg DM)—and did or did not have access to MBs with different polyherbal percentages (BioCholine^®, OptiLysine^®, and OptiMethione^® (0:0:0, 3:0:0, 3:0.75:0.25)). No interactions between the feeding level and supplementation were detected. Lambs fed at the MN level showed lower productive indicators (p < 0.001) than those fed at the GR level, with a lower dry matter intake (DMI, 512 vs. 1009 g/d), MB consumption (61 vs. 84 g/d), and daily weight gain (26 vs. 187 g/d), resulting in lower enteric methane emissions (8.74 vs. 18.18 g CH₄ /d) and a lower emission intensity (15.25 vs. 16.55 CH₄ g/kg DM). Supplementation with MBs improved the average daily weight gain (ADG) (p < 0.001) at the GR level, but no differences were detected at the MN level. However, lambs in the control group lost weight (−20 g/d) and those supplemented gained weight (g/d), with increases of 49 (0:0:0), 25 (3:0:0), and 52 (3:0.75:0.25). The highest ADG for lambs in the GR group was observed with MBs containing all three polyherbals (215a, 3:0.75:0.25), an intermediate ADG was seen with MBs without herbals or with Biocholine (200.75ab, 0:0:0; 198ab, 3:0:0), and the lowest ADG was observed with no MBs (134c g/d). The use of MBs reduces the time to reach market weight by 265 days, resulting in a 50% reduction in the enteric methane emissions per product (animal by animal), making multi-nutrient blocks a viable option to improve production indicators and reduce enteric methane emissions. Full article

The growing global demand for alternative, sustainable protein sources has increased interest in edible insects, of which the domestic cricket (Acheta domesticus Linnaeus) is one of the most studied and exploited species. Crickets offer a rich source of protein, essential amino acids, and micronutrients, and provide significant benefits for environmental sustainability. This in-depth review, based on recent literature, examines the nutritional composition, developmental stages, and optimal housing conditions of crickets, with a focus on their use in the food industry. It also examines the technological challenges and legal frameworks of cricket farming, including feeding strategies and climate control, as well as the regulations governing insect-based foods. It also addresses potential risks, such as allergenic reactions and concerns related to chitin, as well as the role of crickets in the circular economy. The study outlines key challenges and prospects in insect production for food and feed and identifies priorities for future research. Our research discusses the legal background and highlights current findings related to entomophagy. This article presents an in-depth review of the nutritional value, farming conditions, food applications, and regulatory landscape for crickets as food. It also explores the technological challenges and the role of crickets in sustainability. Full article

A soybean meal is a key protein source in human foods and animal feed, yet its digestibility is constrained by endogenous trypsin inhibitors (TIs). Thermal processing is the mainstream tool for TI inactivation, but high-intensity heat treatments increase energy consumption and can potentially denature proteins, diminishing nutritional quality. Reducing the thermal input while maintaining nutritional quality is, therefore, a critical challenge. One promising strategy is the use of soybean cultivars bred for low-TI expression, which may allow for milder processing. However, the performance of these low-TI cultivars under reduced heat conditions remains unstudied. This study treated soybean samples under four different temperatures (60, 80, 100, and 121 °C) for 10 min and investigated the impact of heat treatment on TI concentration, in vitro protein digestibility, and nutritional properties of meals from a conventional high-TI variety (Glenn) and a novel low-TI variety (VT Barrack). Results showed that heat treatment at 100 °C significantly improved protein digestibility and lower TI concentrations in both varieties. A negative correlation was observed between protein digestibility and TI concentration in both soybean varieties. At 100 °C, the low-TI variety achieved 81.4% protein digestibility with only 0.6 mg/g TIs, whereas the high-TI variety required 121 °C to achieve comparable protein digestibility and a TI reduction. These findings highlight that low-TI soybeans can lower the necessary thermal treatment to 100 °C to minimize TIs while simultaneously preserving protein quality and cutting energy demand, offering a practical, cost-effective approach to producing higher-quality soybean meals. Full article

Introduction: Children and adolescents with autism spectrum disorder (ASD) often present sleep and eating problems. However, the relationship between these two factors has seldom been studied. Objective: This paper aimed to examine the association between sleep disturbances and feeding problems in children and adolescents with ASD. Methods: This cross-sectional observational study assessed feeding behaviors using the Behavioral Pediatrics Feeding Assessment Scale (BPFAS) and assessed sleep problems with the Sleep Disturbance Scale for Children (Bruni scale). Bivariate analyses and multivariate logistic and linear regression analyses were performed. Results: Sleep disturbances were significantly associated with autism severity (p = 0.003), but not with BPFAS subscale scores. Multivariate logistic regression indicated that sleep disturbances were independently associated with autism severity (p = 0.01; OR = 0.23; 95% CI: 0.06–0.77) and the BPFAS frequency subscale score (p = 0.01; OR = 1.04; 95% CI: 1.01–1.07). A secondary logistic regression identified five BPFAS items significantly associated with sleep disturbances: difficulty chewing (p = 0.02, OR = 0.12, 95% CI 0.02–0.74), voluntary attendance at meals (p = 0.01, OR = 0.60, 95% CI 0.39–0.90), tantrums during meals (p < 0.001; OR = 2.08, 95% CI 1.21–3.56), poor appetite (p < 0.001; OR = 2.63, 95% CI 1.43–4.82), and the caregiver’s perception that the child’s eating habits negatively affected their health (p = 0.03; OR = 1.53, 95% CI 1.03–2.40). No significant associations were found with age, sex, medical comorbidities, behavioral disorders or genetic factors. Conclusions: The findings suggest that greater autism severity and more pronounced feeding behaviors are independently associated with an increased risk of sleep disturbances in children and adolescents with ASD. Specific maladaptive mealtime behaviors, such as poor appetite, tantrums, and chewing difficulties, may serve as predictors of sleep problems, highlighting the need for integrated screening and early intervention strategies. Full article

The separation of butadiene 1,3 from pyrolysis products is a critical step in the petrochemical industry, as butadiene is a key raw material for producing synthetic rubber and other polymers. This study presents a detailed model-based analysis of the separation process, focusing on optimizing operational parameters to maximize butadiene recovery, enhance product purity, and reduce energy consumption. The simulation was conducted using Aspen Plus, evaluating critical variables such as the solvent-to-feed ratio, reflux ratio, number of column stages, and energy integration between distillation units. The simulation results indicated that an optimal solvent-to-feed ratio of 1.5:1 and a reflux ratio of 4.2:1 in the extractive distillation column provided the highest separation efficiency. Under these conditions, the recovery rate of butadiene 1,3 reached 98%, with a final product purity of 99.5%. Furthermore, this study revealed that increasing the number of theoretical stages in the distillation column improved the separation process without significantly increasing energy demand. Energy integration, specifically through heat recovery between the primary distillation and extractive distillation columns, led to a 12% reduction in total energy consumption. These findings demonstrate the importance of fine-tuning operational parameters to achieve high separation efficiency and product quality while minimizing energy use. This model-based analysis provides valuable insights into the design and optimization of industrial-scale butadiene separation processes, offering strategies to reduce operational costs and improve sustainability in production. The methodology and results can serve as a basis for further improvements in similar separation processes across the petrochemical industry. Full article