Search Results (928)

Enteric viral infections represent a major concern for poultry production, causing growth retardation, impaired feed conversion, and increased mortality, particularly in young birds. To investigate the involvement of RNA and DNA enteric viruses in flocks exhibiting growth problems, seven poultry farms in southern Germany, including broiler, pullet, and breeder operations, were examined for the presence of chicken astrovirus (CAstV), avian reovirus (ARV), and fowl adenovirus-1 (FAdV-1) by means of RT-PCR. All farms exhibited growth retardation, diarrhea, and enteritis-associated lesions. Histopathology revealed features of runting–stunting syndrome in most of the broiler farms and depletion of lymphatic tissue in most of the pullet farms. CAstV was detected in all flocks, ARV in six, and FAdV-1 in four farms. To further characterize the viral agents, metagenomic sequencing of cecal tonsils from one severely affected broiler flock confirmed the presence of a CAstV strain identical (100%) to CAV/Belgium/4134_001/2019. In addition, the complete genome of avian Sicinivirus was assembled for the first time in Germany, showing 96.8% nucleotide identity with a Dutch strain (Chicken/NLD/2019/V_M_056_picorna_2). These findings demonstrate the widespread circulation and co-infection of enteric viruses on German poultry farms and underline the transboundary nature of these infections, emphasizing the need for enhanced surveillance and biosecurity measures to mitigate their impact on poultry health and productivity. Full article

Sunflower downy mildew, caused by Plasmopara halstedii, remains one of the most destructive diseases worldwide. The genetic diversity of P. halstedii populations continues to challenge resistance breeding efforts. This study evaluates the effectiveness of key resistance genes against P. halstedii isolates collected in Hungary. Eight isolates were tested using the sunflower differential lines HA-335, RHA-419, and RHA-340, with the resistance genes Pl6, Pl_Arg, and Pl8, respectively. Disease development was assessed by observing sporulation and symptoms including stunting, chlorosis, damping-off, and abnormal development at three time points after inoculation. Plant height was also measured to evaluate growth responses. The Pl6 resistance gene (HA-335) did not provide effective protection against any of the tested isolates, indicating that Pl6 does not confer reliable resistance against the Hungarian isolates examined in this study. The resistance conferred by Pl8 was not uniformly effective against the Hungarian isolates tested. This study provides the first report of Pl8-virulent P. halstedii isolates identified in both Hungary and Central Europe. The resistance gene Pl_Arg (RHA-419) conferred resistance to all tested P. halstedii isolates. These findings highlight the changing virulence profiles of P. halstedii populations in Hungary, emphasizing the need for ongoing pathogen monitoring and strategic use of resistance genes. Full article

‘Candidatus Phytoplasma rubi’ (elm yellows group, 16SrV-E phytoplasma subgroup) is the causal agent of rubus stunt disease, a disorder affecting economically important plants—raspberries and blackberries. Although this phytoplasma has been extensively studied in cultivated Rubus crops, its occurrence and molecular identity in wild Rubus species populations in North-Eastern Europe remain poorly documented. In this study, phytoplasmas associated with symptomatic wild Rubus idaeus L. and Rubus nessensis Hall plants were investigated in natural forest ecosystems of the Curonian Spit, Lithuania. A total of 65 symptomatic plants were surveyed, and phytoplasma infection was detected in 30 samples by nested PCR targeting the 16S rRNA gene. Positive samples were characterized using a multilocus molecular approach based on sequence analysis of the additional cpn60 and secA genes. All strains showed high nucleotide sequence similarity across the analysed loci and consistently clustered with reference strains of ‘Candidatus Phytoplasma rubi’. Virtual RFLP profiles derived from the 16S rRNA and cpn60 genes were nearly identical to those of established 16SrV-E phytoplasma subgroup reference strains and clearly distinct from other 16SrV phytoplasma subgroups. These results provide not only the first detailed multilocus molecular characterization of ‘Candidatus Phytoplasma rubi’-related strains infecting wild Rubus species in Lithuania but also represent the first report of this phytoplasma in naturally occurring R. idaeus and R. nessensis plants in the country, thereby extending the known geographical occurrence of this pathogen and documenting its presence in wild Rubus hosts from unmanaged forest habitats in the Eastern Baltic region of Northern Europe. Full article

Background and aim: Celiac disease (CD) is a systemic autoimmune disorder triggered by gluten ingestion, and the only effective treatment is strict adherence to a gluten-free diet (GFD). Many factors, including limited dietary diversity and poor adherence, are associated with an increased risk of specific micronutrient deficiencies and malnutrition. This study aims to evaluate the relationship between adherence to GFD, celiac antibody levels, micronutrient levels, and nutritional status in children with CD. Methods: This retrospective study was conducted on 402 children aged 2–18 years with a diagnosis of CD confirmed positive by anti-tTG IgA and duodenal biopsy, all of whom had been on GFD for at least six months. Demographic, anthropometric, clinical, serological, and biochemical data (including hemogram, serum iron, ferritin, vitamin D, folate, and B12 levels), and GFD adherence were collected from medical records. Results: Most individuals are girls (64.9%), with a mean age of 10.6 ± 4.20 years. Chronic malnutrition was observed in 29.4% of patients. Acute malnutrition was identified in 27.8% of children, and wasting was observed in 6.7%. Iron deficiency anemia was the most frequently encountered micronutrient deficiency among the patients (23.9%). The prevalence of stunting was significantly higher among individuals with positive tTG-IgA levels and poor adherence to the GFD. Conclusions: Poor adherence to the GFD and positive tTG-IgA levels were associated with higher rates of stunting, underlining the need for individualized dietary follow-up and regular monitoring of both nutritional status and serological response in children with CD. Full article

Objective: This study aimed to estimate the trends, projections, and determinants of standalone and coexisting forms of malnutrition (CFM) at the global, regional, national, and individual level among children under five in low- and middle-income countries (LMICs). It also assessed the projection trajectory towards the 2030 global nutrition targets (GNTs) for child growth including stunting, wasting, obesity, and CFM. Methods: Data from 48 LMICs were analyzed using the Multiple Indicator Cluster Surveys (MICS) and Demographic and Health Surveys (DHS). Children with complete anthropometry were included for national- and individual-level descriptive analyses. Projected prevalence of each form of malnutrition, including CFM, was calculated using the Annual Rate of Change. Inferential analyses employed generalized linear regression models with two-way interaction terms to identify determinants of each malnutrition type. Findings: By 2030, 22 of 48 LMICs are projected to achieve the GNT of stunting, wasting, and obesity, that is up from 10 countries currently, while Yemen and Zimbabwe are expected to remain off-track. Stunting is the most prevalent form, affecting 42 countries, with nine nations projected to have over 50% of children affected by a form of malnutrition. Wasting, obesity, and CFM are rising in several countries. Maternal education and household wealth were the strongest determinants, with children of uneducated mothers and from poorest households at the highest risk. Inequalities are narrowing slowly by 1–2% per year, and marked regional disparities persist. Conclusions: Many LMICs are off-track to meet child-growth targets when CFM is considered alongside standalone indicators. The government and global health partners must strengthen nutrition surveillance systems and equity-focused policies and programs to routinely capture CFM and prevent as well as manage all forms of malnutrition at the national and individual levels. Full article

Organic eggplant production in the United States is challenged by flea beetles, which stunt eggplant growth and reduce yield. Across four experiments between 2019 and 2024, we compared the effects of various pest management strategies on flea beetle abundance, damage, and marketable yield in eggplant production, focusing on row covers and organic insecticides in later years of the study. Treatments included fine-mesh row covers, organic insecticides, and untreated controls (all years); reflective plastic mulch (2019); various essential oils (2019–2020); conventional insecticide control (2019–2020); and spunbonded row covers (2019–2021). Low flea beetle pressure was observed in 2019 and 2020; consequently, experiments were moved to fields under organic management with more frequent cultivation of solanaceous crops in 2021 and 2024. Samples taken near row cover removal at flowering revealed significantly more flea beetles in the control than fine-mesh row cover treatments in 2019, 2020, and 2021. However, there were never significant differences in flea beetle abundance in samples collected at transplanting or at harvesting. Flea beetle feeding damage at flowering was significantly lower in all row cover treatments than the untreated control in 2019, 2021, and 2024 and the organic insecticide treatment in 2019 and 2021; data was not collected in 2020. There was no difference between treatments in marketable yield in 2019 and 2020; however, the marketable yields of fine-mesh row cover treatments maintained over the entire growing season were 82% and 471% higher than the organic insecticide treatments in 2021 and 2024, respectively. These results indicate that fine-mesh row covers may be a viable pest management strategy in organic eggplant production. Full article

Gas flaring, the burning off gas coming out of oil wells is a common practice in oil-producing developing countries. This practice is harmful to human health, especially because of pollutants. This research focuses on Nigeria, where over 10 percent of all gas produced is flared and about 2 million people are estimated to live within 4 kilometres of a flare site. This paper uses child health data from Demographic Health Surveys and satellite-detected data on gas flaring to examine associations between flaring exposure and child morbidity, nutritional outcomes, and mortality among children under 5 years of age. The findings show a positive association between flaring and the incidence of respiratory diseases and fever among children under 5 years of age but no robust association with mortality. The study contributes to the literature measuring the wider cost to society of oil and gas production and adds to the body of work using satellite data to understand well-being in places where conventional data sources are unavailable. Full article

This study develops an integrated mathematical model to investigate the interaction between tuberculosis (TB) transmission and childhood stunting, which is aligned with the United Nations Sustainable Development Goals (SDG 3). The population is structured into two age groups (0–5 years and ≥5 years), with stunting explicitly incorporated into the pediatric population to capture its potential influence on TB dynamics. The model is formulated as a system of ordinary differential equations and analyzed using equilibrium and stability analysis, with the basic reproduction number, $R_0$. The disease-free equilibrium is locally asymptotically stable when $R_0<1$, while an endemic equilibrium exists when $R_0>1$. Sensitivity analysis indicates that the transmission rate ($\beta$), progression rate from latent to active infection ($\sigma$), and recovery rate ($\gamma$) are the most influential parameters affecting $R_0$. These parameters are therefore selected as control variables in an optimal control framework to design effective intervention strategies. Numerical simulations show that the combined control strategy significantly reduces TB transmission, resulting in a reduction of more than $80\%$ in active TB cases within a relatively short intervention period. The results suggest that integrated interventions targeting transmission, disease progression, and recovery are substantially more effective than single-measure strategies. This study provides a quantitative framework to support integrated public health policies addressing TB and childhood stunting simultaneously. Full article

Childhood stunting remains a major public health challenge in India and is influenced by multiple socioeconomic and environmental factors. This ecological study examined district-level correlates of childhood stunting, including Crimes Against Women (CAW), the Multidimensional Poverty Index (MPI), and drought severity, using data from NFHS-5, the National Crime Records Bureau, NITI Aayog’s MPI reports, and the Drought Atlas of India. Spatial autocorrelation and Spatial regression models were applied alongside machine learning approaches and SHAP-based Explainable AI (XAI) interpretation. Childhood stunting exhibited significant spatial clustering (Moran’s I = 0.520, p < 0.001), with hotspots in northern, central, and eastern India. Higher stunting was associated with higher birth order, low maternal BMI, child anaemia, and MPI, and negative associations with iodised salt usage, electricity access, and timely postnatal care. A significant spatial lag parameter (ρ = 0.348) indicated substantial spillover effects. Machine learning models consistently identified MPI, drought severity, and CAW as key predictors. The integrated spatial and machine learning framework identifies key correlates and spatial dependencies of childhood stunting, highlighting the need for region-specific, multisectoral interventions. Full article

Background/Objective: Child health serves as a foundational part of human development. Inequities in access to key health services remain high in Sub-Saharan Africa (SSA), most notably among children from disadvantaged, racially, or ethnically marginalized groups. The objective of this structured narrative review is to evaluate and aggregate the available evidence on racial/ethnic disparities in childhood healthcare access in SSA. Methods: A comprehensive search on African Index Medicus (AIM), Web of Science and PubMed for studies published between 2010 and 2025 was executed using relevant MeSH terms and Boolean operators. Studies on healthcare access inequalities among racial or ethnic groups in SSA were included. This study was conducted following Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Results: Ten articles were included. Ethnicity was an independent contributor to inequities in childhood healthcare across four domains: vaccination coverage (lower for Hausa/Fulani in Nigeria and Somali/Luhya in Kenya compared to dominant groups), timeliness of vaccination, child mortality (higher in economically and ethnically marginalized groups), and nutritional status (elevated stunting and underweight odds in certain ethnic minorities). Conclusions: Racial and ethnic inequalities in child healthcare access across SSA are driven by multi-factor structural, geographical, and cultural barriers. Although socioeconomic improvement reduces some disparities, it does not eradicate them, highlighting that ethnic identity continues to shape health outcomes independently. Addressing these disparities requires strengthening culturally inclusive healthcare delivery, improving access in underserved regions, and integrating ethnicity-disaggregated monitoring into national health systems. Full article

Secondary succession in tropical forests is traditionally described as a linear process driven by time since disturbance. However, growing evidence suggests that recovery pathways depend strongly on historical and environmental contexts. We evaluated how disturbance legacies and edaphic constraints interact to shape successional trajectories in a tropical karst landscape of the Maya Forest, Mexico. We sampled 100 plots along a chronosequence, quantifying vegetation structure, floristic diversity, biomass (NDVI), disturbance legacies, and soil properties. Using unsupervised clustering (K-means) and multivariate ordination, we identified four contrasting ecological typologies that represent distinct successional states rather than transient stages. Our results show a pronounced dichotomy in vegetation dynamics following the abandonment of land-use practices: while some sites are experiencing diverse development due to positive forest legacies (Typology B), others remain stalled (Typology C), dominated by lianas, where biotic barriers inhibit tree regeneration despite decades of abandonment. Additionally, we documented an asynchronous recovery between floristic recovery and vertical development; in sites with edaphic constraints, forests reach high diversity and biomass but exhibit stunted growth (Typology D). This suggests that severe abiotic constraints—specifically high rockiness and shallow soils—limit the dominance of highly competitive species, thereby acting as a filter that maintains high levels of diversity despite structural limitations. Edaphic analysis confirmed that chemical fertility and physical constraints (rockiness and shallow depth) act as orthogonal filters. This explains the persistence of structurally constrained yet functionally mature forests as stable, edaphically determined outcomes. Overall, secondary succession in tropical karst is nonlinear and path-dependent, governed by a hierarchical filtering model where historical land use dictates community identity and physical substrate limits structural architecture. These findings highlight the need for trajectory-specific management and the abandonment of uniform expectations of forest recovery in karst landscapes. Full article

Stunting remains a major public health challenge in Indonesia, with a national prevalence of 21.6% in 2022. Rural regions such as Madura face heightened vulnerability due to cultural dietary taboos, gendered caregiving structures, intergenerational authority, and digital disparities that shape household nutrition decision-making. This formative qualitative study explores stakeholders’ perceptions to inform the conceptual development of gender-sensitive serious games for nutrition communication in rural Indonesia. Using an exploratory design, 42 informants, including mothers of children under five, brides-to-be, health cadres, midwives, religious and community leaders, and local digital actors, were recruited across rural Madura. Thematic analysis examined trust-based communication patterns, gender dynamics, perceptions of artificial intelligence (AI), and contextual conditions influencing digital health acceptance. Findings indicate that acceptance of gender-sensitive serious games depends on cultural alignment, institutional endorsement, perceived credibility, and usability in low-resource settings. Participants consistently positioned serious games and AI-supported features as complementary communication layers rather than replacements for health workers. Game-based tools were considered potentially relevant when designed to support intergenerational co-play, integrate local narratives and religious values, and function in low-connectivity environments. Rather than evaluating an implemented intervention, this study proposes a conceptual design framework grounded in feminist communication perspectives, serious games scholarship, and technology acceptance theory. The findings provide context-sensitive insights to guide future prototype development and pilot testing within hybrid, community-based nutrition communication systems. Full article

Plant viruses can cause substantial yield losses, yet disease severity often varies between seasons because plants frequently experience heat or cold episodes before infection. In this study, we tested whether such temperature conditions affect the plant’s redox balance and alter its response to Tomato bushy stunt virus (TBSV) infection in Nicotiana benthamiana. Plants were exposed to short-term heat and cold stress, after which they recovered before virus inoculation. Following this, we assessed the reactive oxygen species (ROS) content, lipid peroxidation (LPO), oxidative DNA damage, stress-related proteins, redox-associated enzymes, and antioxidant metabolites. TBSV led to non-parallel ROS responses during infection, with consistently elevated hydrogen peroxide in infected plants but reduced superoxide relative to corresponding mock controls. Heat pre-exposure caused pronounced LPO that decreased further after infection, whereas cold pre-exposure stabilized malondialdehyde near levels observed at 25 °C. Both thermal stress and infection increased 8-oxo-dG and were associated with distinct changes in 8-oxoguanine glycosylase abundance. Infection strongly induced heat shock protein 90 (and moderately heat shock protein 70), while prior heat limited further chaperone induction by TBSV. These results indicate that viral infection develops within and is limited by the host’s oxidative state, where redox homeostasis may restrict infection-related processes, and infection leads to changes in this redox environment that are favorable for its development. Full article

Runting and stunting syndrome (RSS) has been reported worldwide in commercial aquaculture and is frequently observed in juvenile-rearing ponds of Apostichopus japonicus. The objective of this study was to use commercially cultured A. japonicus naturally affected by RSS under high-density culture conditions as the study subjects. Different nutritional additive treatments, including marine mud, effective microorganisms (EM; photosynthetic bacteria, lactic acid bacteria, yeasts, and actinomycetes), yeast, kelp powder, and fermented kelp powder, were applied, and growth performance during recovery, the activities of intestinal digestive enzymes (protease, alginate lyase and cellulase), and heterotrophic bacterial counts were systematically evaluated. The results showed that the recovery rate of RSS in A. japonicus decreased in the following order: the EM group (90.91 ± 1.15%), the fermented kelp group (90.91 ± 4.96%), the yeast group (81.82 ± 5.99%), the kelp group (72.73 ± 1.35%), the marine mud group (63.64 ± 1.41%), and the control group (54.55 ± 1.47%). Moreover, increased intestinal digestive enzyme activities, elevated heterotrophic bacterial counts, and a reduced relative abundance of Vibrio were identified as key factors associated with RSS recovery in A. japonicus, with the EM and fermented kelp groups showing the most pronounced effects. High-throughput sequencing further revealed that nutritional additive treatments differed in their effects on the intestinal microbial community structure of RSS-affected A. japonicus. At the phylum level, Bacillota (26.45–48.08%), Actinomycetota (13.96–44.99%), and Pseudomonadota (9.15–56.46%) were the dominant phyla in the intestine of A. japonicus. At the genus level, a lower relative abundance of Vibrio was associated with improved recovery, and groups with lower Vibrio levels generally exhibited better recovery outcomes; notably, the EM group showed the lowest relative abundance of Vibrio (1.37%). Overall, these community shifts may contribute to recovery by supporting potential energy supply, immune regulation, and functional restoration. Therefore, these findings provide new insights into the treatment of RSS in A. japonicus through the development of beneficial microbes and the targeted suppression of potential pathogens. Full article

Desmodium styracifolium (Osb.) Merr., a member of the Leguminosae family, is an important medicinal plant widely used in traditional Chinese medicine. In September 2024, D. styracifolium plants exhibiting symptoms of little leaf and stunted growth were observed in a field of Zhanjiang, Guangdong province, China. Since the symptoms resembled those associated with phytoplasma infections, total DNA was extracted from the leaves of four symptomatic plants and one healthy plant for molecular identification. Universal primer pairs (P1/P7, R16mF2/mR1) for phytoplasma detection were used to amplify the 16S rDNA fragments (~1.8 kb and ~1.4 kb), while a specific primer pair secY-F/secY-R was employed to amplify a ~1.4 kb segment of the secY gene. Target fragments were successfully amplified from all symptomatic samples but not from the healthy control. These amplicons were cloned and sequenced. The obtained 16S rDNA sequence of D. styracifolium little leaf phytoplasma (DsLFP-GDZJ) showed the highest identity (99.67–100%) with strains of ‘Ca. Phytoplasma australasiaticum’ (subgroup 16SrII-A and 16SrII-D). Phylogenetic analysis also indicated that DsLFP-GDZJ formed a small evolutionary branch with strains of ‘Ca. Phytoplasma australasiaticum’ (subgroup 16SrII-A and 16SrII-D). Virtual RFLP (restriction fragment length polymorphism) analysis of the 16S rDNA sequence demonstrated DsLFP-GDZJ belongs to the 16SrII-A subgroup (GenBank accession number L33765). The secY gene sequence of DsLFP-GDZJ also showed the highest similarity and the closest relationship with those of the 16SrII-A subgroup phytoplasma strains. These results showed that DsLFP-GDZJ is a strain of ‘Ca. Phytoplasma australasiaticum’ (16SrII-A subgroup). To our knowledge, this is the first report of ‘Ca. Phytoplasma australasiaticum’—related phytoplasma associated with D. styracifolium little leaf disease in China, thereby establishing D. styracifolium (Osb.) Merr. as a new host plant of phytoplasma. Full article