Leveraging a unique dataset (the English Longitudinal Study of Aging) containing polygenic scores (PGSs) — estimated using meta-analytically-derived single nucleotide polymorphisms (SNPs) for the Big Five (BF) — the General Factor of Personality’s (GFP) existence as a veritable psychometric entity was investigated. Exploratory tests involving a subsample of 200 participants revealed that while the BF PGSs were adequate for factor analysis, parallel analysis suggested the presence of zero factors, indicating no “genetic GFP” among these PGSs, but did indicate the presence of a robust latent GFP among the phenotypic BF. Confirmatory factor analysis involving an independent sample of 4,533 participants was used to compete three models: full mediation by the GFP of PGS effects on the BF (common pathway or reflective); full mediation by the BF of PGS effects on the GFP (independent pathways or formative); and a mixed model. All models exhibited good fit, with the reflective model having the greatest parsimony. Statistically significant covariances were also observed among the PGSs, potentially consistent with pleiotropy. Even though the reflective model fit best, the common paths were extremely weak (and could be set to zero in most cases), with only the (negatively signed) path from the extraversion PGS to the GFP reaching significance. This finding is (weakly) consistent with the hypothesis that the GFP is a valid entity.

The Cropping System CROPGRO-Perennial Forage Model (CROPGRO-PFM) within the Decision Support System for Agrotechnology Transfer (DSSAT) framework is among the few models that simulate and evaluate perennial forages. However, its application to systems in East Africa remains limited. To address this gap, this study aimed to assess the capability of the CROPGRO-PFM model to predict herbage yield and soil organic carbon (SOC) dynamics under Urochloa hybrid cv. Cayman and to evaluate herbage and SOC responses to varying manure application rates in Tanzania. Model calibration involved adjusting parameters related to soil water content and the fraction of SOC in the stable pool. The simulated herbage yield showed a good agreement with observed data, with the D-statistic ranging from 0.58 to 0.85, with no calibration required from previous genotype coefficients used for Urochloa’s. The model captured seasonal variations in herbage production, showing peak yields during the wet season and reduced yields during the dry season. However, accurately capturing SOC variability requires long-term data, while our study was limited to just three years.

Model application for 30 years across six sites revealed that a manure application rate of 10 t ha-1 led to SOC gains up to 0.7 Mg C ha-1 yr-1 and a 135% increase in herbage production. The results show the model’s potential application for simulating herbage yield and SOC under irrigation and manure management in East Africa.

This pioneering study examined the wound healing and regeneration abilities of the upside-down jellyfish Cassiopea at the Cnidarian Laboratory of the ICAR-Tuticorin Regional Station, Central Marine Fisheries Research Institute (CMFRI), India. A total of nine specimens (5.8 ± 0.4 cm) were studied, including six control medusae, one accidentally injured jellyfish (cut into four unequal fragments), and two amputated jellyfish (each divided into four equal fragments, totalling eight fragments). All specimens were maintained in a recirculatory aquarium system under optimal seawater conditions. Species identification of the control was confirmed through Basic Local Alingment Search Tool (BLAST) analysis of the 16S rRNA gene, showing 98.91% similarity with Cassiopea xamachana (Bigelow 1892), from the United States of America (USA) GenBank Accession No. ON545804.1, and validated through phylogenetic analysis. Microscopic and morphological observations revealed that the oral arm tissue lacked pulsing activity and could not regenerate its body structure. In contrast, fragments of umbrella tissue from both amputated and injured specimens exhibited pulsing and successfully regained symmetry within 7–15 days. The first phase of self-healing involved the reformation of umbrella symmetry, regeneration of bell tissue, and resumed functions similar to those of the normal medusa. The development of canal systems, including anastomosing vessels radiating from the centre, oral arms extending from the mouth, vesicles from the arms, and the central disc, was documented. The experimental observations revealed sequential wound healing through regeneration and morphogenesis in amputated and injured medusa. This study established Cassiopea as a promising cnidarian model organism for regeneration studies, highlighting its remarkable self-repairing and regenerative capabilities.

The host plant associations of the bird cherry-oat aphid, Rhopalosiphum padi (L.), a major pest of wheat, before and after wheat harvest remain poorly understood. Overlapping growth of maize and wheat may promote R. padi survival and movement between crops. We examined population dynamics and constructed life tables for R. padi reared on wheat seedlings, maize husks, and maize leaves. Field-collected R. padi survived on both maize tissues, but aphid abundance declined sharply on aging maize leaves, while aphids on maize husks developed successfully. Aphids reared on wheat exhibited the fastest development, longest lifespan (27.89 ± 1.20 days), highest fecundity (98.59 ± 5.61 nymphs), and lowest mortality (2.56%). In contrast, aphids transferred to maize leaves showed reduced longevity (19.62 ± 1.16 days), lower fecundity (33.55 ± 2.47 nymphs), and higher mortality (23.73%). No significant differences in some reproductive parameters were observed between wheat- and maize husk-reared aphids, indicating relatively good performance on maize husks. Aphids transferred from wheat to maize experienced fitness costs, while aphids moved from maize husks back to wheat exhibited improved performance. These findings suggest that maize husks offer a comparatively favourable resource microhabitat for R. padi, potentially serving as a secondary host that supports population persistence after wheat harvest.

Adverse prenatal conditions can induce intrauterine growth restriction (IUGR) and increase the risk of adulthood metabolic disease. Mechanisms underlying developmentally programmed metabolic disease remain unclear but may involve disrupted postnatal circadian rhythms and kisspeptin signalling. We investigated the impact of maternal hypoxia-induced IUGR on hypothalamic and hepatic expression of clock genes (Bmal1, Per2 and Reverbα), metabolic genes (Pparα, Pparγ and Pgc1α) and kisspeptin genes (Kiss1 and Kiss1r) in adult offspring. Pregnant BALB/c mice were housed in hypoxic conditions (10.5% oxygen) from gestational day 11 to 17.5 and then returned to normoxic conditions until term (gestational day ∼ 21). Control animals were housed in normoxic conditions throughout pregnancy. Offspring were weighed at birth. At 8 weeks of age, body, liver and brain tissues were collected and weighed. Relative clock gene, metabolic gene and kisspeptin signalling gene expression were measured using qPCR. The IUGR offspring were lighter at birth and remained lighter at 8 weeks but with higher brain relative to body weight. The IUGR offspring had decreased hypothalamic Bmal1 and Reverbα expression, but unchanged hepatic clock gene expression and no change in hypothalamic or hepatic Per2 expression, compared with Control offspring. This tissue-specific change in clock gene expression suggests circadian dysregulation. There were no IUGR-related changes to metabolic gene expression in the hypothalamus or liver, but IUGR offspring had increased hypothalamic Kiss1r expression. These results demonstrate IUGR offspring from hypoxia pregnancies show central circadian misalignment and potentially disrupted hypothalamic Kiss1/Kiss1r signalling, which may contribute to developmentally programmed metabolic disease.

Lipids are essential for child development. Nutritional recommendations are numerous, evolving over time and are often based on expert opinions more than evidence-based medicine. The objective of this review is to critically analyse the evolution of current nutritional recommendations, identify existing knowledge gaps and propose avenues for improvement to optimise infant nutrition and development. A narrative literature review on Pubmed, EMBASE and Cochrane databases (2001–22) was conducted with the keywords: ‘alpha-linolenic acid, arachidonic acid, children, cholesterol, docosahexaenoic acid, eicosapentaenoic acid, guidelines, infant, long-chain (LC) PUFA, linoleic acid, lipids and dietary intakes, newborn, palmitic acid and toddler’. Among 861 articles identified, 133 were selected. The main current recommendations are issued by the French Agency for Food Safety (AFSSA), French Agency for Food, Environmental and Occupational Health and Safety (ANSES) and the Food and Agriculture Organization and World Health Organization (FAO-WHO). In infants from 0 to 3 years of age the main challenge is to increase lipid intake while maintaining an optimal omega 6/omega 3 ratio. Current recommendations are focused on polyunsaturated fatty acids, emphasising the intake of linoleic, eicosapentaenoic and docosahexaenoic acids without any specific recommendation for arachidonic acid before the age of 6 months. Points of interest, but without any recommendation, are the incorporation of milk fat, cholesterol, monounsaturated fatty acids, and saturated fatty acids for infants under 6 months. In conclusion, this article identifies knowledge gaps regarding the structural aspect of lipids and the integration of new categories of lipids in future recommendations to promote the quality of infant formulas.

This article examines the parallel yet divergent histories of Indiaʼs and Chinaʼs Antarctic programmes, exploring their geopolitical, scientific, and cultural dimensions. Both nations, initially excluded from the Western-dominated Antarctic Treaty System (ATS), joined in the 1980s, marking a shift in their approach to the southern polar region. India, driven by post-colonial solidarity and environmental concerns, has focused on scientific research and conservation, while China has expanded its activities to include resource extraction and satellite surveillance, aligning with Russia to influence ATS policies. Both countries have leveraged their Antarctic presence to reinforce civilisational narratives—Indiaʼs Akhand Bharat and Chinaʼs tian xia—extending their cultural and geopolitical spheres. This article highlights their shared ambivalence towards ATS governance, their evolving strategies, and the role of Antarctica in their broader worldmaking projects. It argues that understanding these intertwined histories is crucial for addressing the conceptual clash between Global North-led environmental restrictions and Global South approaches to common resources, with implications for global climate and environmental governance.

Genus Citrus L. (Family: Rutaceae), thrives best in tropical/sub-tropical climates, finds a perfect ecosystem in Meghalaya (home for National Citrus Gene Sanctuary), a North-Eastern Indian State. This state harbors rich diversity of Citrus species; however, they are under severe threat due to anthropogenic activities. Hence, present study was undertaken during 2021–22 to explore, collect, characterize and document Citrus species diversity for their conservation and posterity use. Total of 57 accessions belonging to 13 different Citrus species were collected and 48 traits (16 quantitative and 32 qualitative) were recorded for each accession, using IPGRI descriptors (1999). Garo and Khasi hills are hotspots for Citrus diversity, harboring a significant number of citrus species. Notably, South Garo Hills and West Khasi Hills emerged as critical regions for the conservation of wild Citrus species, particularly C. indica in South Garo Hills. Most species exhibited large leaf length (>75 mm), whereas, wild species C. latipes had smaller leaves (29.7 mm). Cluster analysis formed the dendrogram by using jaccard’s similarity index based UPGMA method with six clusters and showed higher levels of complexity between Citrus species at inter and intra-cluster levels. PCA analysis explained about 73.3% cumulative genetic variation present among them and the first three PCs as 37.7, 20.5 and 15.1%, respectively. Fruit-related traits (size, shape, colour, apex shape, surface texture, rind thickness, axis, pulp colour and firmness) were identified as diagnostic character for distinguishing different Citrus species or major Citrus fruit groups and also useful for field identification during exploration trips and curators in Genebank management.

In large public health jurisdictions, only a small proportion of people infected with Salmonella are interviewed due to resource constraints. As such, sources of illness are rarely found, and preventative action not implemented. We trialled alternative methods to contact notified salmonellosis cases to collect information on exposures and risks, focusing particularly on the feasibility of SMS (short message service)-based surveillance. Over five-years period we sequentially mailed letters, sent online surveys, and then text messages. The SMS approach was designed to assess the efficiency of a two-way personalized messaging model in gathering actionable public health data. The personalized SMS-follow-up model demonstrated the highest success: 56% of cases responded, enabling the identification and intervention of 10 distinct point-source outbreaks of Salmonella. SMS-based surveillance offers a novel, efficient, and acceptable method for collecting critical food exposure data in Salmonella cases. In settings where resources are constrained, SMS can complement traditional case follow-up methods, enhancing both the timeliness and effectiveness of outbreak detection. Integrating this follow-up with routine clinical care could further enhance the acceptance and success of this method. This study highlights the promise of SMS in streamlining surveillance efforts and warrants further exploration for application to other infectious diseases.

Numerous oligochaete cocoons, previously interpreted as cladoceran crustaceans, are described from the upper Permian (Lopingian) freshwater Karaungir Lagerstätte in eastern Kazakhstan. The cocoons appear as small, wrinkled, ovoid capsules, prolonged into a neck at one pole and a long slender stalk at the other; both extensions are covered with minute ridges forming a striated pattern. By their size range and distinct (although limited) morphological features, the cocoons are identical to those of the extant freshwater genus Rhynchelmis Hoffmeister, 1843 (Oligochaeta: Lumbriculidae) and thus represent the oldest undoubted record of the Clitellata. We interpret Archedaphnia Smirnov, 1970 (= Propleuroxus Smirnov, 1970, n. syn.) as a genus for fossil microdrile oligochaete cocoons similar to those of Rhynchelmis, and synonymize all five species described in Archedaphnia and Propleuroxus under Archedaphnia kazakhstanica Smirnov, 1970 sensu lato.

This study investigated intestinal retraction and regeneration in the Japanese sea cucumber (Apostichopus japonicus) during high water temperature periods and compared these morphological changes with those during low water temperature conditions in the subarctic. We examined the intestinal morphology of A. japonicus during the aestivation and winter low-activity periods under natural-like environmental conditions, including the water temperature, photoperiod, and seawater quality. Water temperatures ranged from −1.1°C to 29.2°C. Aestivating individuals were observed from July to September when water temperatures were high. During this period, intestinal length, weight, and thickness decreased, with signs of recovery by November. The mucosal layer height also decreased, with partial loss or disappearance. In contrast, no intestinal retraction occurred from January to March at low temperatures. Additionally, under high temperatures, the muscle layer thinned significantly, and lipofuscin-like granules, thought to be residual material from intracellular digestion by lysosomes, appeared in the submucosal layer. A common feature in both temperature periods was the presence of haemolymph-like cells in the submucosal layer near the mucosa. These findings suggest that intestinal retraction and degeneration in A. japonicus under high temperatures may result from energy conservation mechanisms, fasting, or reduced food intake during aestivation and winter dormancy.

Natural enemies serve a crucial role in crop protection through the regulation of pest population dynamics. Cyrtorhinus lividipennis is an important natural enemy of rice planthoppers. Fatty acid synthase (FAS), a multifunctional enzyme crucial for fatty acid biosynthesis, serves as a vital energy source for insect reproduction. However, the function of FAS in the reproductive processes of C. lividipennis remains incompletely understood. In this study, the ClFAS gene was successfully cloned from C. lividipennis. The open reading frame of ClFAS was 7224 bp, encoding a putative protein of 2407 amino acids. The expression levels of ClFAS were notably elevated in the fifth-instar nymphs, adults, as well as in the fat body and ovaries of female individuals. Silencing of ClFAS resulted in a reduction of 58.4%, 34.6%, and 49.0% in the expression levels of ClVg at 1-, 2-, and 3-days post-dsRNA injection, respectively. Furthermore, RNA interference (RNAi)-mediated depletion of ClFAS not only suppressed the Vg protein expression but also significantly impaired oocyte maturation and ovarian development. The fecundity of dsFAS-treated C. lividipennis females was markedly reduced by 49.5%, accompanied by significant decreases of 32.7% in oviposition duration and 26.3% in female adult lifespan. Our findings showed that ClFAS positively regulates the reproduction of C. lividipennis by promoting vitellogenesis and ovarian development, which provides valuable insights into how lipid metabolism governs fecundity in predatory insects.