Dieting is a global emerging trend in recent years as more people strive to adhere to food restriction plans for weight management in obese people and to achieve desired slim body. This strategy may have unforeseen repercussions in females that may affect reproductive potential. Therefore, we aimed to investigate the impact of dietary stress on reproductive hormone levels, histoarchitecture of the ovary, autophagy and apoptosis markers in the rat ovary. Data suggest that dietary stress caused due to food deprivation decreased body weight and ovary weight, luteinising hormone, follicular-stimulating hormone and estradiol-17β levels. The dietary stress reduced the number of primary follicles, altered the histoarchitecture of the ovary, increased number of fragmented and irregularly shaped oocytes. Dietary stress induced autophagy signalling by inhibiting mammalian target of rapamycin and increasing Lamp-1, LC-3 and Beclin-1 in the ovarian follicles. In addition, dietary stress induced proapoptotic signalling pathway by decreasing Bcl-2 and increasing Bax as well as cytochrome-c expressions in the ovary. Taken together, these findings suggest that dietary stress caused due to food deprivation reduced reproductive hormones levels, induced autophagy and apoptotic signalling pathways that affected histoarchitecture of the ovary, ovarian function, oocyte quality and thereby reproductive potential.

Intrinsic capacity, introduced by the WHO, represents a shift in focus from treating disease to maintaining physical and mental capacities individuals as they age. It encompasses five interrelated domains: vitality, sensory, cognition, psychology, and locomotion. Vitality refers to the body’s physiological reserve and is shaped by processes such as energy metabolism, immune function, and neuromuscular integrity. By definition, vitality is closely linked to nutritional status, which plays a central role in maintaining resilience and health in older adults. However, integrating nutritional status into the vitality domain presents several challenges due to inconsistent definitions and varied measurement approaches. This review examines these challenges and explores possibilities for integrating nutritional status in the vitality domain. The absence of standardised nutrition-related indicators limits comparability across studies and constrains the practical application of intrinsic capacity in both research and clinical contexts. To strengthen the role of intrinsic capacity in nutritional monitoring, it is essential to reach consensus on which nutritional indicators to include and how to score them consistently. Addressing these methodological challenges will support the use of intrinsic capacity in identifying early signs of nutritional decline and guiding timely interventions to promote healthy ageing.

This study aimed to investigate the effects of caffeic acid (CA) on the inflammatory response induced by hydrogen peroxide (H2O2) in porcine small intestinal epithelial cells (IPEC-J2 cells) and to elucidate the potential molecular mechanisms involved. Firstly, we treated IPEC-J2 cells with different concentrations of H2O2 to establish the inflammation model caused by oxidative stress. Subsequently, we treated IPEC-J2 cells with CA and/or H2O2 to investigate the effect of CA on the inflammatory response of IPEC-J2 cells induced by H2O2. In addition, IPEC-J2 cells were treated with a nuclear factor kappa-B (NF-κB) inhibitor and a Nucleotide-binding Oligomerization Domain (NOD)-like receptor thermal protein domain associated protein 3 (NLRP3) inhibitor, so as to investigate the molecular mechanism by which CA alleviates H2O2-induced damage in porcine intestinal epithelial cells. The changes in cell morphology, intestinal epithelial cell damage and the expression of genes related to the NF-κB/NLRP3 signalling axis were examined. The results showed that CA attenuated H2O2-induced intestinal epithelial cell injury, and the mechanism may be related to the inhibition of NF-κB-mediated NLRP3 inflammasome activation. These findings were expected to provide a theoretical basis for more reasonable and effective application of CA, and provide new ideas for nutritional regulation measures to alleviate intestinal inflammation in piglets.

The cold, low carbon dioxide (CO2) conditions of the Pleistocene epoch fundamentally structured ecosystems, profoundly influencing the evolutionary trajectory of Homo sapiens and other large mammals. Although often considered uniquely stable, the Holocene is more usefully viewed as just another Pleistocene interglacial interval that was naturally trending towards a renewed glacial phase. However, rapid anthropogenic greenhouse gas emission rates have reversed this trajectory and might have now foreclosed the prospect of returning to cyclic glacial climates for millennia. A large set of flora and fauna has benefited from low CO2 conditions, which we define as low-CO2 dependents. By elevating atmospheric CO2 concentrations beyond levels seen for millions of years, we have accelerated global warming beyond the adaptive capacities of many species and ecosystems. African savannas and grasslands are particularly relevant in this context because this was the environment in which the human species evolved. These biomes have been previously maintained by fire and carbon scarcity but are now experiencing woody encroachment driven by rising CO2. The resultant global reforestation further threatens biodiversity adapted to open ecosystems, while rewilding initiatives must therefore pair prehistoric analogues with explicit climate-fitness tests that anticipate mid-century CO2 trajectories. Addressing these complex challenges requires both targeted local interventions and systemic policy reforms, grounded in a pragmatic recognition of the transient nature of the Holocene. Recognising the transience of any single baseline allows conservation and agriculture to plan for a dynamic, overshoot-prone future.

Shortages of kerosene, used to cook food and melt ice for drinking water on the Terra Nova Expedition of 1910–13, hastened the death of Captain Robert Falcon Scott and his three remaining companions in March 1912. Various explanations for the losses have been proposed, but no definitive account has been published. This article aims to provide a reliable, authoritative and complete history of Scott’s kerosene shortages.

A review of primary expedition records (personal journals in particular) has been undertaken, assembling information about fuel shortages and related matters, and identifying and evaluating seven potential explanations for shortages. The evidence indicates that many of the potential explanations are inconsistent with trusted historical evidence, and that one appears to be based upon a widespread misinterpretation of Scott’s diary. The prevalent explanation is a complex interplay of facts, omissions, distractions and fiction, traceable to an Editor’s Note in the expedition’s official book “Scott’s Last Expedition.”

This article identifies four significant factors that contributed to fuel shortages: an intentional reduction of their fuel allowance in some depots by one third, their reduced speed of travel on later barrier stages, unseasonably cold weather and the unplanned use of fuel to cook pony meat.

Schwartzitrema Vigueras, 1941, is a small, rarely reported genus of diplostomoideans that parasitize avian definitive hosts, predominantly anhingas, on several continents. No DNA sequences were previously available for any Schwartzitrema spp. In the present study, we describe adults of 2 new Schwartzitrema spp. from anhingas in Brazil. We also provide description of metacercaria of one of the new species from Argentina. Schwartzitrema macrotesticulata n. sp. lacks a clear separation between its testes, appearing almost as a contiguous, irregularly shaped, lobular mass. A highly characteristic feature of Schwartzitrema macroholdfastus n. sp. is a strongly enlarged lobe of the holdfast organ. These features, along with distribution of vitellarium and nature of the preputial folds surrounding the genital cones, separate the new species from their congeners. We generated partial sequences of the large ribosomal subunit (28S) rDNA and cytochrome c oxidase subunit I (cox1) mtDNA genes from adult forms of both species and cox1 of metacercarial stages. The 28S sequences were used for phylogenetic inference. The pairwise sequence divergence between the 2 species is 4.0–4.6% in cox1 gene. Intraspecific variability in the same cox1 region did not exceed 0.8% despite the long geographic distance between collecting sites in Brazil and Argentina.

Polyamines putrescine, spermidine and spermine are small, positively charged metabolites indispensable for DNA stabilization, chromatin remodelling, RNA translation and redox balance, with dynamic distribution across the nucleus, mitochondria and endoplasmic reticulum. In cancer, polyamine homeostasis becomes profoundly dysregulated through altered biosynthesis, degradation and transport, driving malignant phenotypes and therapy resistance. Therefore, there is an urgent need to develop precision techniques that combine polyamine metabolism with immunotherapeutic and redox-based therapies, identify biomarkers to predict therapy response and create logical combination regimens to overcome resistance. The existing literature lacks in providing a holistic view of how polyamine dynamics intersect with diverse cancer hallmarks. Thus, this review consolidates emerging evidence on the multifaceted roles of polyamines in cancer hallmarks, with a particular focus on their impact on efferocytosis, ferroptosis and the dynamics of polyploid giant cancer cells (PGCCs). Furthermore, a comprehensive evaluation of contemporary treatment approaches that focus on polyamine metabolism, including transport blockers, biosynthesis inhibitors and various polyamine analogues, was discussed. While addressing context-dependent effects of polyamines that impede therapeutic progress, our discussion also incorporates important findings from pre-clinical and clinical investigations. Going forward, this review aims to enlighten and direct future translational research by situating polyamine biology within the broader context of cancer evolution and treatment adaptation.

One of the 84 plant species endemic to Jeju Island, South Korea, is Salix blinii H. Lév. We surveyed its habitat to obtain quantitative information on the population demographics of S. blini, and thus to re-evaluate its conservation status and recommend in situ conservation strategies. We recorded 365 individuals in three valleys, above 1,200 m, on Mt Halla, of which 34 were flowering individuals capable of sexual reproduction. Although the population size is limited, the high proportion of small individuals suggests ongoing recruitment. Vegetative reproduction is presumed to play an important role, as it does for other Salix species that grow in valleys or along intermittent streams. Salix blinii is currently categorized as Vulnerable, based on criterion D2, on the IUCN Red List, but we reassess it as Vulnerable based on criteria D1+2 based on the number of mature individuals recorded. Although Mt Halla is designated as multiple large protected areas, small-scale protected areas within these larger areas need to be designated for more effective in situ conservation of S. blinii.

The main challenge to producing a nutritionally improved milk fat composition is to increase monounsaturated fatty acids (MUFA) and decrease saturated fatty acids (SFA) without detriment to dairy product characteristics. Our aim was to determine the optimal amount of intestinally available oleic acid (via abomasal infusion) to produce higher-MUFA milk fat with satisfactory functional characteristics for ice cream. One control and four increasing doses of free fatty acids (FA) from high oleic sunflower oil (HOSFA) were infused into the abomasa of four lactating dairy cows in a changeover design with periods of 7 d. Treatments were (1) control (no FA infused), (2) HOSFA (250 g/d), (3) HOSFA (500 g/d), (4) HOSFA (750 g/d), and (5) HOSFA (1000 g/d). All treatments included meat solubles and Tween 80 as emulsifiers. Ice cream mixes were prepared with butter oil from all treatments. Samples prepared from control and 500 g/d HOSFA infusion were evaluated by a judging panel in a triangle test. Statistical analysis of results showed linear changes in most of the variables analysed as HOSFA infusion increased. For ice cream under freezing temperatures, the 500 g/d level was optimal. Sensory evaluation analysis indicated no statistical difference between ice creams prepared from the control and 500 g/d HOSFA infusion. Changes in 23 triacylglycerol fractions were statistically correlated to functional properties at 10 min of freezing. The decrease in fractions with SFA (butyrin-caprylin-palmitin, butyrin-laurin-olein, butyrin-myristin-palmitin, butyrin-palmitin-palmitin, caproin-myristin-palmitin, butyrin-palmitin-stearin, caproin-palmitin-palmitin) and the increase in dioleyl triglycerides (with butyric, lauric, myristic and palmitic acids) and triolein were some of the most highly correlated with ice cream functional properties as the result of increasing HOSFA infusion. We were able to produce an ice cream with desirable physical and organoleptic qualities, yet containing twice as much oleic acid and two-thirds as much palmitate as a control ice cream.

Ophiuroids have been major components of marine seafloor communities since the early Paleozoic. Past paleontological studies, especially those dealing with Paleozoic specimens, have based taxonomic descriptions on whole-skeleton morphology while mostly overlooking disarticulated ossicles, causing a large gap in our knowledge of Paleozoic ophiuroids. Recent studies of Mesozoic and Cenozoic ophiuroids, however, have examined the fine-scale morphological details of ophiuroid arm plates and have documented useful characters for taxonomic assignment. Here, we use similar methods for examining disarticulated ophiuroids to describe a Late Mississippian (Serpukhovian) ophiuroid fauna based solely on dissociated ossicles, preserved as microfossils and sieved from shale samples collected from the Indian Springs Shale Member of the Big Clifty Formation in Sulphur, Indiana, USA. We describe 11 species in total, 10 of which are new to science: Umerophiura daki n. sp., Strataster lisae n. sp., Schoenaster limbeckae n. sp., Vandelooaster douglasi n. sp., Furcaster wardi n. sp., Furcaster mccantae n. sp., Furcaster coulombeae n. sp., Sulphaster odellettorum n. gen. n. sp., Covidaster medicus n. gen. n. sp., and Suchaster granulosus n. gen. n. sp. Also present are ossicles of Cholaster sp. indet. The assemblage described in this paper significantly increases the known ophiuroid diversity in the Mississippian, yielding more species than all previous reports on Mississippian ophiuroids combined. Furthermore, our study shows that the evolution of the modern ophiuroid clade began much earlier than expected. Our results imply that the microfossil record of ophiuroids is paramount to unveiling the true paleobiodiversity of this evolutionarily important echinoderm clade.

UUID: http://zoobank.org/21fc0302-5a9f-41de-b1e3-6972de4b57bc

Catch-neuter-vaccinate-release (CNVR) programmes for free-roaming dogs (FRD) are humane and effective in controlling dog populations in developing countries. However, each component, from capture to release, can impact an individual animal’s welfare. This study aimed to develop a standardised welfare assessment scoring system for evaluating the welfare of dogs undergoing routine CNVR procedures at a veterinary training facility in Goa, India and to assess the impact of a targeted staff training intervention by comparing welfare assessment scores before and after its implementation. A score-based protocol was designed, incorporating 22 animal-, resource-, and management-based parameters covering six key steps of the CNVR procedure: catching/transport; cage/holding area; pre-operative period; surgery; post-operative period; and release. Eighty-two dogs were assessed initially. Areas for improvement were identified and informed the design of a targeted staff training intervention involving theory-based lectures and interactive sessions. Knowledge was assessed before and after receiving the intervention, with total scores on the assessment improving. The welfare assessment was repeated on another 81 dogs. Total welfare scores for individual dogs improved significantly after the staff intervention compared with before. This study demonstrates that a welfare assessment tool can be used to assess the welfare of individual dogs in a busy CNVR programme; furthermore, it can inform the compilation and delivery of a targeted staff training intervention and demonstrate improvements in dog welfare after such an intervention.