Substitution of Atriplex amnicola Leaves for Trifolium alexandarinum Hay Ration in Stall-Fed Teddy Goats

ABSTRACT The present study was conducted to examine the influence of partial replacement of conventional forages with saltbushes (Atriplex amnicola) leaves on Teddy goat performance. A basal feed comprising of 60% wheat straw and 40% Egyptian clover hay was substituted with a 50% fixed level of A. amnicola leaves hay. Data obtained for a 30 days of feeding trial showed a non-significant change in dry matter intake, organic matter intake, digestibility coefficients for crude protein, crude fiber and weight variation in response to substituted feed. However, there was more water intake, weight gain, and high digestibility of dry matter or organic matter in saltbush leave substituted feed group. It was noted that animals used more water when they are maintained on saltbush mixed rations. It was concluded that A. amnicola leaves could be used for the partial substitution of conventional forages to support livestock population maintained on saline affected lands

Optimization of the Ultrasound Operating Conditions for Extraction and Quantification of Fructooligosaccharides from Garlic (Allium sativum L.) via High-Performance Liquid Chromatography with Refractive Index Detector

Dietary interventions have captured the attention of nutritionists due to their health-promoting aspects, in addition to medications. In this connection, supplementation of nutraceuticals is considered as a rational approach to alleviating various metabolic disorders. Among novel strategies, prebiotic-supplemented foods are an encouraging trend in addressing the issue. In the present investigation, prebiotic fructooligosaccharides (FOS) were extracted from garlic (Allium sativum L.) powder using ultrasound-assisted extraction (UAE). The response surface methodology (RSM) was used to optimize the independent sonication variables, i.e., extraction temperature (ET, 80, 90, and 100 °C), amplitude level (AL, 70, 80, and 90%) and sonication time (ST, 10, 15 and 20 min). The maximum FOS yield (6.23 ± 0.52%) was obtained at sonication conditions of ET (80 °C), AL (80%) and ST (10 min), while the minimum yield of FOS was obtained at high operating temperatures and time. The optimized FOS yield (7.19%) was obtained at ET (80 °C), AL (73%) and ST (15 min) after model validation. The influence of sonication parameters, i.e., ET, AL and ST, on FOS yield was evaluated by varying their coded levels from −1 to +1, respectively, for each independent variable. High-performance liquid chromatography with refractive index detector (HPLC-RID) detection and quantification indicated that sucrose was present in high amounts (2.06 ± 0.10 g/100 g) followed by fructose and glucose. Total FOS fractions which included nystose present in maximum concentration (526 ± 14.7 mg/100 g), followed by 1-kestose (428 ± 19.5 mg/100 g) and fructosylnystoses (195 ± 6.89 mg/100 g). Conclusively, garlic is a good source of potential prebiotics FOS and they can be extracted using optimized sonication parameters using ultrasound-assisted techniques with maximum yield percentage

Effect of Dietary Cation Anion Difference on Buffalo Performance during Summer

Influence of -110, +110, +220 and +330 mEq/kg dry matter (DM) of dietary cation anion difference (DCAD) on performance of early lactating Nili Ravi buffaloes was examined in a randomized complete block design during summer. Four DCAD levels were randomly allotted to four groups, three buffaloes in each group. A linear increase in nutrients and water intakes were recorded with increasing the DCAD level. A significant increase in blood pH and HCO3 was noticed with increasing DCAD level. Serum (Na + K) - (Cl + S) increased linearly with increasing the DCAD level while high serum chloride was noticed in buffaloes fed -110 DCAD diet. The serum calcium increased significantly with decreasing the DCAD level while serum magnesium and phosphorus remained unaffected. Urine pH increased significantly with increasing DCAD level. Higher serum cortisol was notices in buffaloes fed -110 than those fed +330 mEq/kg. A linear increase in milk yield was also noticed with increasing the DCAD level. Milk fat% increased significantly with increasing the DCAD while all other milk constituents remained unaltered. Buffaloes fed high DCAD diets had higher conception rate and less services per conception than those fed low DCAD diets

Dietary cation anion difference: Impact on productive and reproductive performance in animal agriculture

Various nutritional tools have been used to improve the productive and reproductive performance of animals, among which difference between certain minerals, called dietary cation anion difference (DCAD) plays a pivotal role. Low or negative DCAD diets reduce blood pH and HCO3- and animal becomes acidotic. This improves Ca absorption from the intestinal tract. It also induces mobilization of Ca from bones which improves Ca status of the animal, thus preventing the occurrence of milk fever at the time of parturition. This may increase milk production and health in subsequent lactation. However, animals fed high DCAD diets before parturition may suffer from milk fever. Milk fever affected animals have increased plasma cortisol level that causes immunosuppression at calving. It is also positively associated with other problems like retained placenta, mastitis and udder edema. On the other hand, feeding high DCAD diet results in increased ruminal pH which is pre-requisite for optimal microbialactivity as well as improving the feed intake of the animal. Improved dry matter intake (DMI) is positively correlated with milk yield by providing precursors for various milk constituents. High DCAD diet results in increased milk fat percent due to shifting of ruminal volatile fatty acid production towards acetic acid and butyric acid. It also improves energy balance of the animal which causes increased blood flow towards ovaries and increased progesterone synthesis and follicular development due to positive association between energy balance and postpartum ovulation, which leads to improved reproductive performance of the animal. While feeding low DCAD diet reduces feed intake which causes negative energy balance in early lactating animals that lessens conception rate and increases services per conception. In conclusion, feeding low DCAD diets prepartum prevents the occurrence of milk fever via improving Ca status while feeding high DCAD diets results in improved productive and reproductive performance in lactating animals.Key words: Feed intake, milk yield, reproductive performance, hypocalcaemia, dietary cation anion difference

Effects of different levels of egg protein replacement in weaned diets on hematology, kidney functions, and immunity biomarkers

Abstract Eggs are good sources of nutrients essential for the growth and development of infants. Introducing eggs as a weaning food can improve dietary adequacy in infants at risk for protein energy malnutrition (PEM). To evaluate the current objective, 72 pups (36 males and 36 females) were used to calculate the impact of various egg protein levels on blood parameters. Nonisonitrogenous and isocaloric pellet diets were offered to pups for 28 days using nine pups with three replicates according to a completely randomized design (CRD). The water intake and ad libitum diet were offered to weaned pups. The pups were randomly assigned to different concentrations of diet, which contained WF0, control diet, 14% of soybean protein; WF1, 14% of egg protein; WF2, 16% of egg protein; and WF3, 18% of egg protein, respectively. After weaning, the intraperitoneal injection with the drug (xylazine with ketamine) was used to anesthetize before killing on the 28th day. Blood samples were used to measure the blood metabolites. The results indicated that the concentration of red blood cells, white blood cells, serum triglycerides, and serum protein was significantly (p ≤ .05) increased in pups fed with high egg protein levels compared to the control. The highest platelet count was observed in the pups fed WF3 diet. In contrast, the amount of alanine aminotransferase and aspartate aminotransferase was significantly (p ≤ .05) reduced with increasing the level of egg protein in the diets of weaned pups. Immunity biomarkers (immunoglobulin A, immunoglobulin G, and immunoglobulin M) and kidney functions (creatinine and blood urine nitrogen) were nonsignificantly (p ≤ .05) increased in the pups fed a high level of protein due to a high biological value of soybean protein. Moreover, the concentration of immunoglobulin E in all pups remained unchanged. Egg protein in infant formula feed can be used for the growth and development of infants

A Narrative Review on Various Oil Extraction Methods, Encapsulation Processes, Fatty Acid Profiles, Oxidative Stability, and Medicinal Properties of Black Seed (Nigella sativa)

The current review investigates the effects of black seed (Nigella sativa) on human health, which is also used to encapsulate and oxidative stable in different food products. In recent decades, many extraction methods, such as cold pressing, supercritical fluid extraction, Soxhlet extraction, hydro distillation (HD) method, microwave-assisted extraction (MAE), ultrasound-assisted extraction, steam distillation, and accelerated solvent extraction (ASE) have been used to extract the oils from black seeds under optimal conditions. Black seed oil contains essential fatty acids, in which the major fatty acids are linoleic, oleic, and palmitic acids. The oxidative stability of black seed oil is very low, due to various environmental conditions or factors (temperature and light) affecting the stability. The oxidative stability of black seed oil has been increased by using encapsulation methods, including nanoprecipitation, ultra-sonication, spray-drying, nanoprecipitation, electrohydrodynamic, atomization, freeze-drying, a electrospray technique, and coaxial electrospraying. Black seed, oil, microcapsules, and their components have been used in various food processing, pharmaceutical, nutraceutical, and cosmetics industries as functional ingredients for multiple purposes. Black seed and oil contain thymoquinone as a major component, which has anti-oxidant, -diabetic, -inflammatory, -cancer, -viral, and -microbial properties, due to its phenolic compounds. Many clinical and experimental studies have indicated that the black seed and their by-products can be used to reduce the risk of cardiovascular diseases, chronic cancer, diabetes, oxidative stress, polycystic ovary syndrome, metabolic disorders, hypertension, asthma, and skin disorders. In this review, we are focusing on black seed oil composition and increasing the stability using different encapsulation methods. It is used in various food products to increase the human nutrition and health properties