Feeding Frequency Research Articles

Bat-associated ticks as a potential link for vector-borne pathogen transmission between bats and other animals.

Potentially zoonotic pathogens have been previously detected in bat-associated ticks, but their role in disease transmission and their frequency of feeding on non-bat hosts is poorly known. We used molecular blood meal analysis to reveal feeding patterns of the bat-associated tick species Ixodes ariadnae, I. simplex, and I. vespertilionis collected from cave and mine walls in Central and Southeastern Europe. Vertebrate DNA, predominantly from bats, was detected in 43.5% of the samples (70 of 161 ticks) but in these ticks we also detected the DNA of non-chiropteran hosts, such as dog, Canis lupus familiaris, wild boar, Sus scrofa, and horse, Equus caballus, suggesting that bat-associated ticks may exhibit a much broader host range than previously thought, including domestic and wild mammals. Furthermore, we detected the zoonotic bacteria Neoehrlichia mikurensis in bat ticks for the first time, and other bacteria, such as Bartonella and Wolbachia. In the light of these findings, the role of bat ticks as disease vectors should be urgently re-evaluated in more diverse host systems, as they may contribute to pathogen transmission between bats and non-chiropteran hosts.

Description of Complementary Feeding Practice to Underweight Children Under Two Years Old in The Working Area of Puskesmas Kanor, Bojonegoro District

Children under two years of age, are in a very important developmental period often referred to as the Golden Age. Child classified as Underweight based on anthropometry, measurements if their body weight for Age (BB/U) is between -3 SD <-2 SD. According to data from the Bojonegoro District Health Service. This study aims to describe complementary feeding practice to underweight children aged 6-24 months with in the working area of the kanor community health center. Research used an interview method with a questionnare for data collectin, A total of 41 children were selected through random sampling. The result showed that the age at first complementary feeding was correct in 68.4% of cases however, frequency 75.6%, amount 63.4%, texture 75.6%, variation 53, 6%, responsiveness 58.5% and hygiene 58.5%. While most children had a story of exclusive breastfeeding, aspect such as children had a history of exclusive breasfeeding aspect such as frequency, quantity, texture, variety, and responsivenness of complementary feeding were incorrect even though cleanliness was satisfactory. Educational interventions are needed to improve knowledge and practices related to proper complementary feeding for children.

Neither increasing the frequency of sow feedings nor decreasing the interval between feedings prior to farrowing reduced piglet stillbirths

Abstract Farrowing durations that exceed 240 min cause stillborn rates to increase. Therefore, feeding strategies in late gestation have been studied to mitigate the negative consequences of extended farrowing durations. A total of 1,501 sows (PIC 1050 Camborough) were used for this study at two individual farms near Carthage, Illinois. Farm 1 (758 sows) was porcine reproductive and respiratory virus (PRRSv) stable (previously experienced a PRRSv outbreak and currently vaccinated for PRRSv) with an older parity structure (3.67). Farm 2 (743 sows) was PRRSv positive (sows with pigs demonstrating Ct values < 36 determined by pig processing fluids) and had a younger parity structure (2.96). Sows were moved into farrowing rooms at approximately d 112 of gestation and started on their respective treatment. Treatment 1 sows were fed 1 meal of 2.27 kg per day at 0600 h. Treatment 2 sows were fed 2 equal meals of 1.13 kg (2.27 kg total) at 0600 and 1400 h. Treatment 3 sows were fed 2 equal meals of 1.13 kg (2.27 kg total) at 0600 and 1800 h. Treatment 4 sows were fed 3 equal meals of 0.77 kg (2.27 kg total) at 0600, 1400, and 2200 h. Treatments were assigned to farrowing rooms in a replicated 4×4 Latin Square arrangement of treatments where each treatment was fed in each room one time at each farm. Daily feed intakes were recorded from the time sows were introduced to the farrowing room until 5 days after farrowing. The total number of pigs born, pigs born alive, stillbirths, and mummies were recorded for each litter within 24h of farrowing. Live pigs were weighed as a group to record litter birth weight. Pig mortality and morbidities were recorded until 5 days after farrowing. The number of total pigs born, and pigs born alive were not different (P ≥ 0.59) among treatments. The number of stillborn pigs were not different (P = 0.33) among treatment 1(1.15 ±1.41), treatment 2 (1.20 ±1.36), treatment 3 (1.30 ±1.46), and treatment 4 (1.14 ±1.28). Sows fed 3 times per d at 8 h intervals tended (P = 0.08) to reduce the percentage of sows farrowed under supervision compared with sows fed once a d. Sows fed twice per d at 12 h intervals reduced (P = 0.01) the percentage of sows provided assistance compared with feeding sows once per d. Feeding a sow one meal of 2.27 kg, two meals (2.27 kg total), or 3 meals (2.27 kg total) of feed a day before farrowing did not reduce the number of stillborn piglets regardless of farm health status or parity structure.

Multiple bloodmeals enhance dissemination of arboviruses in three medically relevant mosquito genera

BackgroundMosquitoes in nature may acquire multiple bloodmeals (BMs) over the course of their lifetime; however, incorporation of frequent feeding behavior in laboratory vector competence studies is rarely done. We have previously shown that acquisition of a second non-infectious BM can enhance early dissemination of Zika virus (ZIKV), dengue virus, and chikungunya virus in Aedes aegypti and ZIKV in Aedes albopictus mosquitoes, yet it is unknown if other taxonomically-diverse virus-vector pairings show a similar trend under a sequential feeding regimen.MethodsTo test this, we evaluated the impact of a second noninfectious BM on the vector competence of Aedes aegypti and Anopheles quadrimaculatus for Mayaro virus, Culex quinquefasciatus for West Nile virus, Aedes triseriatus for La Crosse virus, and Aedes aegypti for Oropouche virus (OROV). Female mosquitoes were fed BMs containing these viruses and half of them were given a second noninfectious BM at 3 or 4-days post infection. Mosquitoes were harvested at various time points and assayed for virus infection in bodies and disseminated infection in legs by performing reverse transcription-quantitative polymerase chain reaction (RT-qPCR) assays.ResultsWe found that a second noninfectious BM had no impact on midgut infection rates but increased virus dissemination for all but one of the virus-vector pairings- Ae. aegypti and OROV. Unlike the other arboviruses under consideration, which are strictly mosquito-borne, biting midges (Culicoides spp.) serve as the main vector of OROV and this virus rarely disseminated to the mosquito leg tissue in our study.ConclusionsTaken together, our findings show that sequential blood feeding enhances virus dissemination across diverse arbovirus-vector pairings, representing three mosquito genera and virus families, but a second BM was insufficient to overcome a strong midgut virus escape barrier in a nonnatural virus–vector pairing.Graphical

The Periodic Feeding Frequency of the Juvenile Tropical Rock Lobster (Panulirus ornatus) in the Examination of Chemo-Attract Diet Performance and Colour-Contrast Preference.

Significant research investment into tropical rock lobster (TRL) aquaculture production methods has led to a rapidly developing industry in Vietnam and, more recently, in Australia. The need for an effective formulated feed has been highlighted for both industries; however, feed intake has been a consistent limitation. Visual and chemical cues regulating feed recognition and consumption are expected to yield valuable data, leading to increased feed intake. Lobsters were placed in white- and grey-coloured enclosures to examine the effect of background colour on their feeding behaviour in terms of feeding occurrence and response time. The impact of background colour on TRL feeding behaviour found no statistically significant differences between TRL in white and grey enclosures, suggesting grayscale contrast does not directly affect feeding behaviour. Experiment 2 studied the effects of coloured feeding zones on feeding response in white enclosures. Yellow feeding zones led to a decreased feeding time (473 ± 443 s) and increased time spent feeding (168 ± 1832 s) compared to other colours, possibly due to the yellow-blue chromaticity (b*) contrast. Experiment 3 examined chemo-attractants (glycine, taurine and inositol) and their influence on the feeding behaviour of TRL, but no increased responses were observed. Experiments two and three assessed TRL feeding activity in morning and evening periods, highlighting their nocturnal behaviour, with more feeding occurring in the evening. This project enhances our understanding of photoreceptive and chemoreceptive factors affecting TRL feeding behaviour with formulated feed. It also reveals the potential for background colour changes to enhance marketable colours in commercial settings. Additionally, the study confirmed the effective use of animal tracking software (EthoVision XT) for lobster species tracking in future behavioural trials.

Growth, biochemical indexes, and intestinal microbiota response of red tilapia (Oreochromis spp.) under different densities and feeding frequencies in the land-based aquaculture tank

Red tilapia (Oreochromis spp.) has been favored by farmers in recent years because of its superior growth performance and competitive market price, but there is a lack of experimental data related to growth and health of red tilapia in land-based aquaculture tanks. In this study, red tilapia (initial weight 27.62 ± 2.43 g) was cultured with three stocking densities (30, 40, or 50 fish/m3, named 30F,40F and 50F) in the culture mode for 60 days, including two feeding frequencies (2 or 3 times/day, named 2 T and 3 T), and various growth and metabolic parameters were assessed along with the intestinal microbiome analysis. The 30 fish/m3 groups achieved the better weigh gain rate and specific growth rate (p < 0.05). The growth rate and condition factor of 40F groups were close to those of 30F groups, the yield of 40F groups were not significantly different from that of 50F groups (p > 0.05), and it had the highest survival rate (p < 0.05). The 3 T groups has a higher growth rate and yield but also has a higher rate of feed conversion (p < 0.05). The 30F groups had higher lipase levels, but a higher fat content in this group, more lipids were observed in the liver, and resulted in higher blood glucose levels (p < 0.05). The 40F groups showed healthier physiological and biochemical indicators, as its total cholesterol, lysozyme and antioxidant enzymes levels were similar to those of the 30F groups (p > 0.05), alkaline phosphatase, amylase and trypsin levels were higher than those of the other groups, and aspartate transaminase levels were the lowest (p < 0.05). The 50F groups had higher cortisol, alanine transaminase and malondialdehyde levels, lower lysozyme and digestive enzyme activities, and blood cell infiltration in the liver (p < 0.05). In terms of different feeding frequencies, the 3 T groups had higher crude protein content, catalase and total superoxide dismutase levels, wider villus width and lower blood glucose level, while the 2 T groups had higher triglyceride, total cholesterol, lysozyme, alkaline phosphatase and some digestive enzymes activities (p < 0.05). From the perspective of intestinal microbiota. The 40F groups had a better intestinal flora, and 40F-3T groups observed a better balance of flora, while 40F-2T groups had more digestion-related flora. Considering the growth rate, health status, and yield, the optimum culture condition was determined to be stocking density of 40 fish/m3, and feedings 3 times/day were recommended. The experiment provided theoretical basis and experimental data for red tilapia culture in land-based aquaculture tank mode.

Impact of the method of delivery and feeding practice on the gut microbiome of infants in the postnatal period

BACKGROUND: The increasing frequency of cesarean sections and artificial feeding creates a predisposition to allergic diseases, obesity, and diabetes mellitus. Pathogenesis of these involves changes in the gut microbiome of infants. AIM: The aim of this study was to evaluate the impact of the method of delivery and feeding practice on the gut microbiome of infants. MATERIALS AND METHODS: This study included 103 infants aged 4-6 weeks (group 1: 39 infants born vaginally and breastfed; group 2: 10 infants born vaginally and formula-fed; group 3: 31 infants born by caesarean section and breastfed; group 4: 23 infants born by caesarean section and formula-fed), each of whom had stool collected for 16S ribosomal RNA gene sequencing. RESULTS: We found differences in the relative abundance of Akkermansia spp. [34.07 (29.29–38.85)% in group 4 and 0.01 (0.01–0.02)% in group 1; p = 0.011], Bifidobacterium spp. [30.68 (21.65–39.41)% in group 1 and 17.08 (9.86–21.68)% in group 4, (p = 0.002); 31.46 (24,30–52.97)% in group 3 and 17.08 (9.86–21.68)% in group 4 (p = 0.001)], and Enterococcus spp. [4.69 (1.01–8.59)% in group 3 and 0.58 (0.12–1.87)% in group 1 (p = 0.003); 4.29 (2.07–6.96)% in group 4 and 0.58 (0.12–1.87)% in group 1 (p = 0.001)]. The coefficient of correlation adaptometry was maximum for groups of infants who were breastfed. Analysis of the morbidity of infants in the first year of life revealed differences in the incidence of acute respiratory viral infections between infants in groups 1 and 4 (17.9 and 78.3%, respectively; p = 0.0064), as well as groups 3 and 4 (32.2 and 78.3%, respectively; p = 0.018). CONCLUSIONS: The relative abundance of Bifidobacterium spp. depends on feeding practice to a greater extent than on the method of delivery. The method of delivery affects the relative abundance of opportunistic bacteria such as Enterococcus spp. Correlation analysis demonstrated the role of breastfeeding as a mechanism for “learning” and maturing the immune system of children.

7354 A Case of Continuous Glucose Monitoring in Children with Glutamate Dehydrogenase Hyperinsulinism

Abstract Disclosure: K. Kim: None. E. Mun: None. C. Jung Eun: None. R. Lee: None. K. Hae Soon: None. A Case of Continuous Glucose Monitoring in Children with Glutamate Dehydrogenase(GLUD1) Hyperinsulinism Background: Continuous glucose monitoring (CGM) is increasingly being used in pediatric patients with diabetes. CGM can help prevent hypoglycemia and support the management of hypoglycemic problems. Congenital hyperinsulinism is a rare condition in which hypoglycemia occurs due to hyperinsulinemia caused by the dysregulation of insulin secretion, and it can lead to complications such as developmental delay and seizures. Case presentation: A 14 months years old, male infant was referred to the pediatric emergency room representing symptoms of GTC type seizure during 2-3 minutes and hypoglycemia. He had no perinatal problems with no significant family history. During seizure, He was found to have a blood glucose of 39mg/dL, ammonia of 183μmol/L, insulin of 28.3 mcg/mL and ketone 203.4μmol/L. C-peptide was 1.4 ng/mL (≥ 0.5ng/mL) and free fatty acid was 0.492mmol/L (&amp;lt;1.7mmol/L) for evaluation. He was thought to have GDH hyperinsulinism. Blood glucose level was followed up with feeding frequency and protein restricted diet. Congenital hyperinsulinism genetic test was requested. Brain CT showed normal. EEG revealed no focal abnormalities, no persistent asymmetries. CGM was used in patient. Diazoxide was started with 5mg/kg/day in 2 divided doses and then blood glucose level was observed below 60mg/dL 3-4 times for day. Complete blood counts and uric acid levels were measured at baseline and 5 days after starting diazoxide therapy, and thereafter increase to 6.25mg/kg/day Conclusions: In children with GDH hyperinsulinism, the utilization of CGM can serve as a tool to assess the impact of treatment before and after medication therapy, as well as also aiding in hypoglycemia prevention. Presentation: 6/2/2024

Effects of Feeding Frequency on Liver Transcriptome: Unveiling Appetite-Regulating Peptides in Mexican Pike Silverside (Chirostoma estor)

The Mexican pike silverside (Chirostoma estor) is a zooplanktivorous, agastric short-intestined species, and it has been found that increased-frequency feeding (twelve feedings a day) improved feed efficiency and promoted growth by 70%. This work determined the effect of different juvenile feeding frequencies upon the C. estor liver transcriptome. The level of the expression of appetite-regulating peptides was analyzed in silico to understand the mechanisms involved in appetite control in this species. Differential expression analysis showed that up-regulated genes between treatments were related to metabolism, digestive processes, immune system response, apoptosis, growth, and oxidative stress. This information explains the better performance of pike silverside fed 12 times daily. Appetite regulatory peptides were identified for the first time in the liver of C. estor in response to high feeding frequencies, contributing to the general knowledge of the roles of each family of neuropeptides in this agastric, short-intestined fish. The information presented here emphasizes the need to explore further the complex physiological processes involved in appetite regulation in C. estor. Additionally, it will serve as a basis for more specific targeted studies of appetite control to elucidate the mechanisms behind this process.

Experimental study on decarburization of fine fly ash by electric separation

ABSTRACT The effect of rotary triboelectric separation parameters on decarburization of fly ash was systematically studied to prove that the technology was an effective means to purify fly ash. The results showed that obvious mismatch of carbon particles occurs when separation voltage was greater than 25 kV, while mismatch of other mineral particles was generated when separation voltage was greater than 30kV; The decarburization effect of fly ash could be significantly reduced due to the decrease of particle surface charge density when the feed frequency was greater than 20 hz. The feed was also affected by the speed and direction of the particle feed, the closer to the middle of the feed port, the higher the probability of the particle being effectively separated; when rotation speed of the friction wheel exceeded 4000 r/min, the particle mismatch in the separation chamber becomes more and more obvious. In addition, the speed of the friction wheel also affected flow field in separation chamber, which may have an adverse effect on separation effect; Co-flow velocity affected retention time of particles in the separation chamber. 6 m/s is the best co-flow velocity for fly ash decarburization. In this case, the flow field generated by the co-flow is uniform to ensure stable transport of particles.

Effects of feeding regime on growth, production, and economics of Oreochromine cichlids (Oreochromis mossambicus) in earthen ponds of Bangladesh

The experiment was carried out to evaluate the effects of feeding frequency on the growth, production, and economic aspects of Oreochromine cichlids (Oreochromis mossambicus) in nine earthen ponds for 120 days. Three different feeding regimes (T1, T2, and T3) with three replications each were used. The stocking density was uniform across all treatments at 25,000 fish per hectare. The fish were fed a commercially available pelleted feed with the same feeding rate in all treatments, but the feeding frequency varied. The feeding rate was 10%, 8%, 7%, 6 %, 5%, and 4% which was consecutively adjusted after each fortnightly sampling and 3% for the last 4 weeks of the study period. Feeding frequencies were once a day for T1, twice a day for T2, and three times a day for T3. The average weight gain of Oreochromine cichlids in T3 (295±5 gm) was significantly higher (P&lt;0.05) than those of T2 (240.67±6.66 gm) and T1 (217.17±7.64 gm). The survival rates were 95.20%, 96.99%, and 97.33% for T1, T2, and T3, respectively. The net production of fish in T3 (2882.00±62.00 kg/ha) was significantly higher (P&lt;0.05) than in T2 (2413.00± kg/ha) and T1 (2223±30.55). Furthermore, the highest net return (USD 1163/ha with a cost-benefit ratio of 1.42) was achieved from T3, followed by T2 (USD 527/ha with a cost-benefit ratio of 1.19) and T1 (USD 270/ha with a cost-benefit ratio of 1.09). The results demonstrated that increasing the feeding frequency has positive effects on the growth and production of Oreochromine cichlids.

The Role of Complementary Feeding Practices in Addressing the Double Burden of Malnutrition among Children Aged 6-23 Months: Insight from the Vietnamese General Nutrition Survey 2020.

Background/Objectives: Optimal infant and young child feeding (IYCF) practices are crucial to addressing the double burden of malnutrition (DBM), encompassing undernutrition (including micronutrient deficiencies) and overnutrition. This study examined the demographic and socioeconomic determinants of IYCF practices, and their impacts on the DBM among 2039 Vietnamese children aged 6-23 months from the General Nutrition Survey 2020. Methods: Thirteen IYCF indicators recommended by the WHO/UNICEF were evaluated. Associations between IYCF indicators and outcome variables were assessed using logistic regressions. Results: The prevalence of stunting, underweight, and overweight subjects was 10.9%, 5.6%, and 3.1%, respectively. Low serum zinc affected 56.7% of children, while 14.3% had low serum retinol, 31.2% had anemia, and 34.6% had iron deficiency (ID). Only 36.7% of children achieved minimum dietary diversity (MDD), and 29.0% achieved the minimum acceptable diet (MAD). Children from the younger age group (6-11 months), ethnic minorities, those living in rural/mountainous regions, and poorer wealth quintiles had reduced odds of meeting IYCF criteria, including MDD and MAD. Infants meeting MDD had reduced odds of stunting [adjusted odds ratio (95% confidence intervals): 0.61 (0.41, 0.92)], and ID [0.69 (0.54, 0.88)]. Children meeting MAD had reduced odds of anemia [0.72 (0.57, 0.91)], ID [0.66 (0.52, 0.84)], and low serum retinol [0.63 (0.41, 0.99)]. Continued breastfeeding (12-23 months) reduced the odds of being underweight [0.50 (0.27, 0.92)] and of having low serum zinc [0.70 (0.52, 0.96)]. Adequate minimum milk feeding frequency had increased odds of being overweight [3.33 (1.01, 11.09)]. Conclusions: Suboptimal IYCF practices were significant predictors of the DBM among Vietnamese children, with evident age-specific, geographical, and socioeconomic disparities.

Optimizing feeding frequencies in fish: A meta-analysis and machine learning approach

Feeding is a critical factor in aquaculture, directly impacting cultivation success and profitability. Feeding frequency determines feed intake and regulates fish appetite and nutrient utilization. However, the effects of increased feeding frequency on fish growth and feed conversion ratio (FCR) can vary depending on species, cultivation conditions, feeding rates. This variability can lead to inconsistencies in interpretations, with individual studies often lacking in statistical power. To address this issue, we analyzed data from 145 study cases across 53 publications to quantify the impact of feeding frequency on average daily weight gain (ADG) and FCR. Our meta-analysis revealed that increasing feeding frequency could reduce FCR, but it did not enhance ADG when daily feed amounts were fixed. Only when each feeding reached satiation did increased feeding frequency boost ADG. We found that the relationship between feeding frequency and ADG in fish is quadratic, with most fish species achieving optimal ADG at four feedings per day. Traditional approaches suggest that fish appetite recovery is linked to gastric evacuation time, defining an optimal feeding interval at 80 % gastric evacuation. However, our research indicates that this approach is not suitable for all fish species. Therefore, we developed a Gradient Boosting Machine (GBM) model that predicts FCR (R2 = 0.9303) and ADG (R2 = 0.7249) based on environmental variables, fish characteristics, culture period, and feeding frequency. This study provides a scientific basis for formulating more efficient and sustainable aquaculture feeding strategies, optimizing growth and feed utilization across different fish species.

Chronic duodenal obstruction in isolated malrotation of the duodenum in a 17-year-old girl

Complications of intestinal malrotation commonly manifest in the first months of life. However, cases of diagnosis in later age, including in adults, have been described. The clinical presentation is highly variable, and a significant amount of time often passes before the accurate diagnosis is made. This study presents a clinical case of a 17-year-old girl with chronic duodenal obstruction caused by isolated malrotation and fixation of the duodenum. Considering the patient’s comorbidities and developmental disorders, the diagnostic search was significantly challenging. In this situation, surgery involves mobilization of the duodenum and correction of the pathological fixation. However, considering the significant changes in the duodenal wall and the combined pathology, duodenojejunostomy was performed. Despite the additional surgical intervention, the postoperative period was characterized by prolonged gastric–duodenal stasis. Adequate diet, frequent feeding with a mixture, maximal “verticalization,” and activation of the patient played a key role in alleviating anastomositis and motor disturbances after the operation. Thus, using a strictly individualized approach to treat adolescents with a complex of surgical and therapeutic pathology and psychiatric disorders results in a satisfactory treatment outcome.

Interactions between feed protein source and feeding frequency on growth performance and health status of largemouth bass (Micropterus salmoides).

In order to evaluate the effects of the interaction between different proteins and feeding frequency on largemouth bass (Micropterus salmoides) and to provide scientific guidance for the application of novel proteins and the corresponding optimal feeding strategy, a two-factorial design (5 × 3) with five protein feeds (fishmeal (FM), Clostridium autoethanogenum protein (CAP), Tenebrio molitor (TM), Chlorella meal (ChM), cottonseed protein concentrate (CPC)), and three feeding frequency (1, 2, and 3 times/d; FF1, FF2, FF3) was designed in culturing largemouth bass (initial weight, 2.98 ± 0.22g/fish) for 8weeks. Z-score combined with cluster analysis was used to analyze and compare the effects of different treatments on different indicators, such as growth performance, feed utilization, antioxidant capacity, and immune response to draw a general picture of the relationship among all these massive biomarkers. The results showed that different protein sources and feeding frequencies had significant interactive effects on growth performance, feed utilization efficiency, body lipid, and health status of largemouth bass. Fish fed with ChM feed showed similar performance to that in FM group, implying its potential for complete replacement of fishmeal in largemouth bass. Fish fed with CAP, TM, and CPC feeds showed worse performance compared to FM and ChM groups, characterized by poor growth and feed utilization, enhanced stress, chronic inflammation, and varying symptoms of histological changes in the liver and intestine, which demonstrated the adverse effects of the complete replacement of fishmeal by these three proteins. In terms of feeding frequency, fish fed with FM feed in FF3 group led to liver hypertrophy, fat accumulation, and the risk of fatty liver, while inducing liver inflammation. In addition, the TM and CAP group had the higher expression levels of inflammatory factors at FF3 group, which displayed that the interactions between FM, CAP, TM feeds and feeding frequency at FF3 might aggravate the occurrence of liver inflammation and oxidative damage of hepatocytes. Overall, FF2 had higher feed efficiency, protein efficiency, antioxidant enzyme and lysozyme activities, lower MDA content, and lower gene expression of inflammatory cytokines and could be considered as the optimum feeding frequency for largemouth bass fed with different protein feeds.

Revealing the key signals in nestling begging behavior perceived by parent birds during parent-offspring conflict.

The parent-offspring conflict in avian species encompasses resource allocation and a balance necessary for survival for both parties. Parental investment is modulated according to various factors, among which begging is important. Endogenous hormones, particularly corticosterone (CORT), play a role in modulating begging behavior. However, most studies on hormonal regulation of begging behavior induced elevated hormone levels in the offspring through feeding or injections, thus, limiting our knowledge of the evolution of the parent-offspring conflict under natural conditions. In this study, we aimed to identify the key signals that parents respond to during interactions with their nestlings in the wild, considering factors such as endogenous hormone CORT, nestling age, and brood size, which may affect nestling begging behavior. Begging performance was evaluated by measuring the begging frequency and score of the red-whiskered bulbul (Pycnonotus jocosus), along with assessing CORT levels in feathers. CORT levels were significantly correlated with both the begging frequency and score of nestlings, while variables such as body mass and tarsus length did not influence parental feeding frequency. Additionally, factors such as the number of nestlings (brood size), age, and begging frequency were predictors of parental feeding frequency. Our findings indicate that begging frequency, nestling age, and brood size are signals that help navigate the intricacies of the parent-offspring conflict and that parents may rely on these key signals from the range of begging cues exhibited by nestlings to adjust their feeding strategies.

The feeding preference and bite response between Microtus fortis and Broussonetia papyrifera.

Broussonetia papyrifera is a dioecious plant that is rich in various metabolites and widely distribute in Asia. Microtus fortis is a rodent that often causes damage to crops, especially in the Dongting Lake region of China. There is a wide overlap in the distribution areas for the above species and the M. fortis feeds on the leaves of the B. papyrifera. Preliminary experiments have shown that the reproduction of M. fortis is inhibited after feeding on the leaves of the B. papyrifera. In order to explore the potential of using B. papyrifera to develop botanical pesticides, we investigated the palatability and reactive substances. The feeding frequency of M. fortis on B. papyrifera leaves to that of on daily fodder and Carex brevicuspis that is the primary food for the wild population were compared. We also attempted to identify the responsive substances in B. papyrifera leaves that were bitten by M. fortis using metabolome analysis. In general, B. papyrifera leaves exhibited a stronger attraction to M. fortis. M. fortis foraged B. papyrifera leaves more frequently, and the intake was higher than that of the other two. Differential metabolites were screened by comparing normal leaves and leaves bitten by M. fortis, meanwhile with the intervention of clipped leaves. A total of 269 substances were screened, and many of these were involved in the biosynthesis of secondary metabolites, including terpenoids and alkaloids. These substances may be related to the defense mechanism of B. papyrifera against herbivores. These findings support further research examining animal-plant interactions and simultaneously provide insights into the utilisation of B. papyrifera resources and the management of rodents. The good palatability and the defense of B. papyrifera leaves suggest that they have the potential to contribute in development of plant rodenticide.

Feeding frequency can affect the morphology of reproductive tract in broiler breeder hens

This study examined the influence of feeding frequency on the morphology of the reproductive tract in broiler breeder hens, with a focus on the liver, ovary, and oviduct. A total of 364 hens and 52 roosters, starting at 31 wk of age and continuing until the end of their 38th week, were divided into 13 groups with varying feeding frequencies (1, 2, or 3 times daily). Significant changes in reproductive and metabolic parameters were observed, where feeding hens twice or thrice daily resulted in significantly reduced ovary weight and follicle counts (P < 0.001), while liver weight increased (P < 0.05). These findings suggesting complex interactions between feeding practices and reproductive efficiency.

Effects of different feeding strategies on behavior and performance in broiler breeder pullets

This study examined the effects of different feeding strategies (diluted diets and feeding frequency) on the behavior and performance of broiler breeder pullets. A total of 3,200 1-day-old female pullets (Ross 308) were randomly distributed over 16 floor pens in 4 rooms and allocated to 1 of 4 treatments: (1) control diet once a day (CON), (2) 20% diluted diet once a day (20-ON), (3) 20% diluted diet twice a day (20-TW), and (4) 30% diluted diet twice a day (30-TW). All the pullets of the different treatments were fed to the same body weight (BW) profile. The 30-TW pullets had the highest and the CON pullets the lowest feed intake, with the 20-ON and 20-TW pullets showing intermediate values. Total water intake was the highest for the 30-TW pullets, followed by the 20-TW and 20-ON pullets, and was the lowest for the CON pullets (P < 0.001). The pullets fed twice a day had the highest total water-to-feed ratio, and the pullets fed once a day had the lowest ratio (P = 0.003). Feeding pullets twice a day yielded the highest average BW uniformity, while the pullets fed once a day had the lowest BW uniformity (P = 0.003). Total mortality was lower in the 20-TW and 30-TW pullets than in the 20-ON pullets, which was primarily caused by fewer dead and graded pullets. The pullets fed twice a day showed overall more eating, more drinking and less sitting, object pecking, and aggressive pecking. The behavior pattern during the daylight period was different for the pullets fed twice a day. Pullets on the diluted feeding strategies were less eager to approach the novel feeder and ate less feed (P = 0.002). In conclusion, feeding pullets with adjusted feeding strategies (feeding twice a day and up to 30% diluted diets) resulted in improved behavior and welfare expressed in decreased stereotypic pecking behavior, and lower eagerness to approach the novel feeder with lower feed intake, with improved BW uniformity and decreased mortality.

Effect of Concentrate Feeding Frequency on Growth Performance of Sirohi Goat Kids

Effect of Concentrate Feeding Frequency on Growth Performance of Sirohi Goat Kids