Search Results (665)

Hybridization and polyploidization are key evolutionary forces shaping fish biodiversity. But their interaction with environmental factors, such as temperature, remains poorly understood. This study examined how maternal genome composition and incubation water temperature influence the hatching success, ploidy structure, morphology and early growth of polyploid Cobitis larvae. Crosses were performed using triploid Cobitis females with three genomic compositions (EEN, EET and ETN), representing combinations of genomes from C. elongatoides (E), C. taenia (T) and C. tanaitica (N), and diploid C. taenia males as sperm donors. Fertilized eggs were incubated at 18 °C, 22 °C and 28 °C. Triploid and tetraploid offspring occurred in comparable proportions on average across all groups, but developmental abnormalities were significantly more observed in tetraploid larvae. Females with EET and ETN genomes achieved higher hatching success than those with the EEN genome. Temperature had a pronounced effect on developmental timing and success: hatching occurred earliest at 28 °C, but survival decreased and abnormalities were most frequent. These results highlight genome- and temperature-dependent trade-offs in early development of Cobitis hybrids, providing new insight into reproductive dynamics and the potential resilience of polyploid systems under climate warming. Full article

Formaldehyde (FA) is commonly used for hatchery disinfection, where it reduces microbial growth, ensures successful egg hatch and enhances healthy production, but its specific effects on embryonic development remain unclear. MicroRNAs (miRNAs) regulate gene expression post-transcriptionally and may mediate FA-induced transcriptional responses. Here, we investigated the impact of FA treatment on miRNA profiles in chicken embryo liver. Small RNA-seq libraries were constructed and sequenced using the Illumina NextSeq platform. Reads were trimmed and quantified using miRDeep2 version 2.0.0.3. Differential expression analysis was performed with DESeq2 (p-adjusted < 0.05 and |log2FC| > 1). Target genes of differentially expressed miRNAs (DEMs) were predicted with miRDB, and GO/KEGG/Reactome enrichment was conducted. Out of 662 total mature miRNAs detected, differential expression analysis identified 30 DEMs (11 up-regulated, 19 down-regulated). The highest fold increase was determined for gga-miR-3533 (log2FC = 4.45), and the most significant decrease was determined for gga-miR-133b (log2FC = −3.38). Pathway analysis revealed miRNAs affecting signaling pathways along with modules related to post-translational protein modification, immune system, and oxidative stress pathways. Our study demonstrates that FA treatment can affect critical biological processes by altering miRNA-mediated regulation in the developing embryonic liver and point to the need for functional validation of miRNA-target interactions to help determine mechanisms for FA benefits. Long term, these data may help serve as reference to identify new treatments with optimized response profiles. Full article

Eutrema japonicum is a perennial herb belonging to the Eutrema genus in the crucifer family. In recent years, numerous substances with notable pharmacological activities have been successfully isolated from E. japonicum. Despite significant advancements in related research, the efficacy of the rhizome extract of E. japonicum against root-knot nematodes remains unknown. In this study, the rhizome extract of E. japonicum was used as raw material to demonstrate the inhibitory and nematicidal effects of the extract on Meloidogyne enterolobii. The results showed that the LC₅₀ of the E. japonicum rhizome extract on second-stage juveniles (J2s) was 69.590 mg/mL and 22.336 mg/mL at 24 h and 48 h after treatment, respectively. The mortality rate of J2s reached 88.93% at 48 h post-treatment when the concentration was 200 mg/mL, and the inhibition rate of single-egg hatching reached 88.14%. This study analyzed the chemical composition of the ethanol extract of E. japonicum, and 10 organosulfur compounds and lipid compounds with insecticidal and antibacterial effects were preliminarily screened out. Among them, sec-butyl isothiocyanate and geraniol were further investigated for their nematicidal activity, demonstrating high efficacy against M. enterolobii. Moreover, we conducted network pharmacology analysis and RT-qPCR analysis to predict the potential inhibitory mechanisms of sec-butyl isothiocyanate and geraniol on M. enterolobii. These findings offer a scientific foundation and theoretical framework for utilizing E.japonicum as a potential raw material for developing novel natural plant nematicides. Full article

There is an energy deficiency during the later stage of embryonic development, as the metabolic demands show an “explosive increase”. Vegetable oils are already used for in ovo feeding in poultry to provide energy for the embryos. What would be the effectiveness of animal oils used as alternative energy sources for the chicken embryo? To find out more, BSF larvae oil was used for in ovo feeding of the chicken embryo in this study. A total of 2300 Arbor Acres chicken eggs were used for incubation. On the tenth day of incubation, 2268 eggs were selected after candling and then divided into three groups for in ovo feeding in the yolk sac on the 11th, 14th, and 17th days of incubation. Each group was divided into seven lots, such as CON−, CON+, L0.1, L0.2, L0.3, L0.4, and L0.5. The CON− and CON+ were not injected. L0.1, L0.2, L0.3, L0.4, and L0.5 were pierced and then received the injection of 0.1 mL, 0.2 mL, 0.3 mL, 0.4 mL, and 0.5 mL of BSF maggot oil per egg, respectively. After hatching, 48 chicks from each lot of each group were housed in cages and then fed the same diet for six weeks. A better hatch rate and growth performance were observed for lots L0.1 and L0.2 compared to the other lots on the 14th and 17th days of incubation (p < 0.05). The injected lots showed reduced levels of low-density lipoprotein (LDL) cholesterol (p < 0.05). The injection of 0.1 mL BSF maggot oil on the 17th day of incubation had 0% embryonic mortality and 100% hatching success. In conclusion, BSF larvae oil can be used as an energy source for in ovo injection, with a dose of 0.1 mL on the 17th day of incubation being most effective and recommended. Full article

Background/Objectives: Making sustainable choices and transforming guidelines into effective bacterial control practices for viable and safe hatching eggs is a challenge for many researchers. Gradually, scientific findings are strengthening the case for using antibacterial protocols with essential oils (EOs) for hatching eggs, which could lead to changes in traditional egg sanitization management and stimulate new research. The present study aimed to measure the contamination levels and incubation outcomes of hatching eggs sanitized with Zingiber officinale (ZOEO), Cymbopogon flexuosus (CFEO), and Rosmarinus officinalis (ROEO) essential oils. Methods: Hatching eggs from commercial broiler breeders were sanitized with solutions of ZOEO, CFEO, and ROEO prepared in grain alcohol and compared with formaldehyde and non-sanitized eggs. Bacterial contamination, eggshell integrity, incubation parameters, embryonic trachea histology, genotoxicity, and irritation potential were evaluated under commercial conditions. Results: It has been demonstrated that these EOs significantly reduce eggshell and yolk sac contamination, promote hatchability rates above 93% with good-quality chicks, and do not cause alterations in the embryonic trachea or potential genetic damage to the chicks. Conclusions: ZOEO, CFEO, and ROEO can be recommended as sanitizers for hatching eggs. Full article

The apodid sea cucumber Chiridota laevis has been a documented member of endobenthic marine communities in northern waters for over a century and the rare studies available on its biology identify it as distinctive species and promising model for research. The present study sought to elucidate fundamental aspects of its life history that remained unresolved. Adults were determined to be protandric, with individuals primarily demonstrating solely male or female gametes from winter (close to spawning) to the spring and summer months before undergoing a sex change in the fall months. Additionally, gametes of both sexes reached maturity synchronously in late winter (February to March). In mesocosms, free spawning occurred in February, as the temperature reached ~2.0 °C. The negatively buoyant eggs were encased in a sticky casing and fell to the sediment where they adhered to each other to form a mat on the muddy substratum. The realized fecundity was ~15,000 offspring. Development was lecithotrophic, demersal, and abbreviated, characterized by the absence of a pelagic larval stage. Embryos reached the gastrula stage after about 7 days post fertilization; the calcareous ring appeared at 6 weeks, and juveniles hatched from the sticky casing at 7 weeks, immediately becoming endobenthic. The size of late embryos and juveniles remained similar (~350 μm) until they began actively feeding at about 10 weeks of age. Feeding juveniles more than doubled in size in the first week (740 μm), reached 3.5 mm by year one, and measured up to 11 mm by year two. This growth rate suggests that it may take this species up to 7 years to reach adult size at ~24 mm contracted length. Full article

Early life nutrition is a critical factor influencing subsequent performance and quality, including skeletal development, in farmed Atlantic cod (Gadus morhua). This study investigated the effects of a novel start-feed protocol utilizing barnacle nauplii and plankton eggs and two experimental microdiets on larval survival, growth, skeletal anomalies, and organ ontogeny. Atlantic cod larvae were reared using three feeding protocols (COM, D1, and D2): COM used enriched rotifers and a commercial microdiet, while D1 and D2 protocols incorporated blue mussel eggs (Cryo-µ) and barnacle nauplii (Cryo-S, Cryo-L), followed by inert microdiets that differed in their phospholipid (PL) source (D1 richer in vegetable PL; D2 richer in marine PL). Larvae were sampled up to 66 days post hatching (dph) for morphometric, skeletal anomaly, and histological analyses. Survival averaged 21.3% and was unaffected by the diets. The control group had slightly higher standard length and dry weight at 66 dph compared to the experimental groups. However, larvae fed the D1 protocol exhibited a significantly lower overall prevalence of skeletal anomalies (52%) compared to the control group (91%). Moreover, D1 showed a lower occurrence of severe anomalies and a significantly reduced prevalence of scoliosis compared to both D2 and COM groups. Histology showed that group D1 achieved an overall accelerated organ ontogeny, with greater villi length and goblet cell abundance in the anterior intestine at 66 dph. In conclusion, the novel D1 feeding protocol, incorporating barnacle nauplii and a microdiet richer in vegetable phospholipids, enhanced larval quality by effectively reducing skeletal anomalies and accelerating internal organ development. Full article

Previous studies have linked formaldehyde (FA) fumigation to significant risks to animal health, highlighting, among other effects, its cytotoxic and genotoxic potential. Literature includes several studies on the use of FA for fumigating hatching eggs, but studies employing in-depth methodological approaches are scarce. As a result, the effects of practices involving this chemical remain insufficiently characterized. The present study aimed to investigate the antibacterial effects and potential toxicity resulting from the fumigation of hatching eggs with FA. The three FA concentrations (2.5, 5, and 10 g/m³) exhibit effective antibacterial activity, but this effect does not translate into long-term benefits. FA affected hatchability and demonstrated embryotoxic effects, with repercussions on chicks depending on the concentration used. The overall quality of poultry and the losses from eggs fumigated with FA remain questionable. Despite its efficacy as an egg fumigant, the observed toxicity suggests that its use violates safety standards and should be reconsidered. If its use cannot be avoided, the lowest possible concentrations should be prioritized to minimize toxic effects. Full article

Hexaflumuron, a benzoylurea insecticide, exhibits high toxicity against various insect pests. Sublethal doses of hexaflumuron significantly impair nymphal development and subsequent fecundity in the resulting Apolygus lucorum (Meyer-Dür) adults. However, the effects on adults of A. lucorum that are exposed to sublethal concentrations of hexaflumuron are not known. In this study, we evaluated the toxicity of hexaflumuron to 1st- and 3rd-instar nymphs, as well as one-day-old adults, of A. lucorum using an artificial diet with hexaflumuron incorporated. Acute toxicity bioassays determined the median lethal concentration (LC₅₀) for 1st- and 3rd-instar nymphs of A. lucorum to be 0.311 and 0.337 mg/L. In contrast, the LC₅₀ level for one-day-old adults of A. lucorum was 13.193 mg/L. To evaluate the sublethal effects of hexaflumuron on 3rd-instar nymphs, we used LC₁₀, LC₂₀, and LC₅₀ concentrations (0.018, 0.127, and 0.337 mg/L), fed for 48 h. The exposure of 3rd-instar nymphs to the LC₅₀ concentration significantly reduced the fecundity of adults. We also exposed one-day-old adults to LC₁₀, LC₂₀, and LC₅₀ dietary concentrations (0.089, 4.587, and 13.193 mg/L) for 48 h. Exposure to the LC₁₀ and LC₂₀ concentrations caused significant reductions in longevity and fecundity in adult females. The LC₅₀ concentration also caused a significant reduction in the longevity of adult males and the egg hatching rate. An understanding of these sublethal impacts can facilitate the development of effective control strategies targeting A. lucorum. Full article

Backcrossing serves as an effective tool for interspecific gene introgression, facilitating germplasm improvement. To develop superior grouper aquaculture varieties, in this study, a backcrossed breed was constructed by crossing a male hybrid grouper, KGGG (Epinephelus moara ♀ × E. lanceolatus ♂), with a female parent kelp grouper (KG; E. moara). Here, we observed embryonic, larval development, and morphological changes in KG × KGGG. Additionally, the total length and body weight of the backcrossed breed and maternal parent were compared at 160 d post hatching (dph). The results showed that fertilization and the hatching rate were 73.23 ± 4.23% and 51.74 ± 3.67%, respectively, and the egg size was 0.89 ± 0.03 mm. Hatching occurred 23:19 h after fertilization at 25 ± 1 °C, and the newly hatched larvae were 1.94 ± 0.13 mm in length. Furthermore, at 160 dph, the total length and body weight of the backcrossed breed were 1.2-fold and 1.9-fold greater, respectively, when compared with those of the maternal parent. Importantly, it is possible that backcrossed KG × KGGG could become a dominant strain in grouper aquaculture practices. Full article

Poultry companies must implement measures to sanitize hatching eggs and reduce the risk of bacterial infections associated with poultry management. Many of them use formaldehyde (FA) fumigation in their egg sanitization protocols, but its toxicity has led to recommendations for reducing its use. However, studies employing this approach with liquid FA solutions in poultry operations, particularly during the hatching egg sanitization stage, remain scarce. Our objective was to evaluate whether sprayable FA reduces bacterial contamination on eggshells and whether it causes changes in their physical properties based on the analysis of microstructure, percentage relative to egg weight, and thickness. FA solutions at 0.5, 1, and 2% inhibited bacterial growth in vitro and reduced the bacterial load on the eggshell surface while also causing severe damage to the shell structure. Our results suggest that companies using FA should be aware of the associated risks, as significant production losses may be linked to the shell damage caused by this compound. Full article

This study evaluated the effects of replacing inorganic trace minerals with organic glycinate forms at two inclusion levels in layer breeders during the late laying cycle over 6 weeks (66 to 72 weeks of age). For this, a total of 180 layer breeders (162 hens and 18 males; Lohmann LSL Ultralite) were randomly divided into three treatment groups having six replicates of nine hens each and one male for each replicate following a completely randomized design (CRD). The dietary treatments included: (1) Basal diet + inorganic trace minerals at breed recommended levels (ITM100), (2) Basal diet + organic trace minerals at recommended levels (OTM100), (3) Basal diet + organic trace minerals at half dose of recommended levels (OTM50). The trace mineral contents in the samples (feed, bone, and excreta) were determined through inductively coupled plasma optical emission spectroscopy. The results indicated that glycinate minerals supplementation at half dose enhanced (p ≤ 0.05) tibial breaking strength compared to the inorganic minerals (38.97 vs. 29.55 MPa). Similarly, egg quality (egg geometry, yolk index, eggshell properties), and hatching traits (hatchability and fertility) were enhanced (p ≤ 0.05) following the use of glycinate organic minerals as compared to inorganic minerals. Copper deposition was higher (p ≤ 0.05) in the OTM100 as compared to other groups. Excreta levels of zinc (Zn) and manganese (Mn) were higher (p ≤ 0.05) in the ITM100 group compared to OTM100 and OTM50. In conclusion, supplementation of glycinate trace organic minerals to layer breeder hens during the late laying cycle had enhanced the bone and eggshell breaking strength, hatching traits, and absorption of certain trace minerals. Full article

Pine wilt disease, which is induced by pine wood nematode (PWN, Bursaphelenchus xylophilus), has caused huge economic and ecological losses. To overcome the drawbacks of chemical control against PWN, twenty compounds were screened, and a synergistic botanical–chemical combination was identified. A proportion of abamectin to rotenone of 7:3 (5.73 and 1.78 mg/L, respectively) achieved the highest co-toxicity coefficient of 231.09 with a median lethal concentration of 3.18 mg/L. It revealed 0% mortality in Pinus massoniana seedlings at 60 days post-treatment when applied at 400 times the synergistic concentration (2.29 g/L abamectin + 0.71 g/L rotenone) at 7 days after PWN inoculation. Furthermore, the synergistic combination significantly affected the physiological activity and population dynamics of PWN. Female oviposition was reduced by 71.92%, the egg hatching rates declined to 13.09 ± 0.02%, and head thrashing frequency was inhibited by 99.23 ± 0.01%. The enzymatic activities of peroxidase, acetylcholinesterase, succinate dehydrogenase, and glutathione S-transferase were significantly increased, while the population size declined by 96.17%. Transcriptomic and gene expression analyses suggested a potential “Na⁺/Ca²⁺/Cl⁻ ionic storm,” since the synergistic combination significantly activated genes associated with voltage-gated calcium channels, glutamate-gated chloride channels, and amiloride-sensitive sodium channels. These findings provide an eco-friendly strategy for PWN management via chemical control. Full article

Small ruminant production under grazing conditions plays a crucial role in the global primary sector economy. However, these animals are highly susceptible to gastrointestinal nematodes (GINs), which significantly impact their health and welfare. Given the increasing resistance to conventional anthelmintics, there is a pressing need to explore sustainable alternatives, such as plant secondary metabolites. This study aimed to identify phenolic compounds with anthelmintic activity from Tithonia diversifolia aerial parts, using Haemonchus contortus as a biological model. Egg hatching inhibition (EHI) and larval mortality assays were used to evaluate the anthelmintic activity of a hydroalcoholic extract (HA-E), an aqueous (Aq-F) and ethyl acetate fraction (EtOAc-F), and eight bioactive subfractions (TdR1-TdR8) obtained from EtOAc-F. The identification of major compounds was performed using HPLC-PDA. The E-HA and EtOAc-F achieved 100% EHI at 40 and 4 mg/mL, respectively. The subfractions TdR2 (EC₉₀ = 0.55 mg/mL), TdR3 (EC₉₀ = 0.12 mg/mL), and TdR4 (EC₉₀ = 0.26 mg/mL) exhibited the highest ovicidal activity. In the larval mortality test, EtOAc-F showed an LC₈₅ of 56.74 mg/mL. The major identified compounds included cinnamates, hydroxycinnamic acids (e.g., caffeic acid and chlorogenic acid), gallates, flavonoids (flavones and flavanones), and coumarins. These findings support the potential of T. diversifolia as a promising natural source for the control of GINs in small ruminants. Full article

Hydrogen peroxide (H₂O₂) occurs in the environment, including in aquatic environments where mosquitoes might lay eggs. However, little is known about the compound’s impact on mosquitoes. We conducted an experiment to determine the effect of H₂O₂ on Ae. aegypti oviposition behavior and egg hatching using H₂O₂ concentrations similar to those in natural aquatic environments. Oviposition behavior was evaluated by dual-choice and multi-choice bioassays. Gravid Ae. aegypti mosquitoes were placed in cages with containers with different H₂O₂ concentrations (5, 25, 50, and 100 μM). After 72 h, the number of eggs laid was compared between oviposition sites with and without H₂O₂. Additionally, egg hatching was assessed under long-period exposure (48 h) and short-period exposure (2, 4, and 6 h and then in deionized water for up to 48 h). Results showed no significant difference in oviposition preference scores in the multi-choice assay (OAI = −0.135 ± 0.06) (p = 0.138), but a significant difference in the dual-choice assay (0.195 ± 0.01) (p = 0.001). Long-period exposure to H₂O₂ did not significantly affect hatch rates (11.34%) (p = 0.363), but short-period exposure significantly impacted hatch rates (17%) (p = 0.0001), with period of exposure alone playing a significant role (p < 0.0044). Eggs exposed to 100 μM H₂O₂ for 2 h (p = 0.0070) and 4 h (p = 0.0036) had significantly higher hatch rates compared to the control. This study demonstrates that low concentrations of H₂O₂ can influence oviposition site characteristics and egg hatch rates. Combined with other environmental factors, H₂O₂ can shape the reproductive success of Ae. aegypti, offering potential strategies for mosquito control. Full article