RESUMEN
Background and Aim: Ipomoea aquatica (Water Spinach) is the most potential for livestock growth performance, including chickens, pigs, cattle, and goats, especially in a tropical country like Cambodia. It is not only an alternative feed source but also one kind of supplemented feed for goat raising. Supplementation with Water Spinach in the utilization of low-quality tree foliage results in an increase in dry matter intake in goat production. This study aimed to identify the effectiveness of supplementation of Water Spinach in the utilization of Mimosa pigra and Leucaena leucocephala leaf in in vitro fermentation. Materials and Methods: The study was designed according to a 2 × 2 factorial arrangement in randomized design of seven treatments with different ratios consisted of different three types of dietary treatments, including M. pigra, L. leucocephala, and Water Spinach. The treatments were arranged according to a completely randomized design and were as follow: T1 = M. pigra leaf (100%); T2 = L. leucocephala leaf (100%); T3 = M. pigra leaf and L. leucocephala leaf (50% and 50%); T4 = M. pigra leaf and Water Spinach (99.5% and 0.5%); T5 = L. leucocephala leaf and Water Spinach (99.5% and 0.5%); T6 = M. pigra leaf and Water Spinach (99% and 1%); and T7 = L. leucocephala leaf and Water Spinach (99% and 1%). A total of 200 mg (dry matter) of dietary treatments were prepared in a 60 mL syringe. Each treatment was replicated 3 time. Gas recording of each treatment lasted for 3 days. In vitro was performed for 72 h, was followed by Makkar method. Gas production was recorded at 2, 4, 8, 12, 24, 36, 48, and 72 h of incubation by using strict anaerobic technique. A mixture of rumen fluid and dietary treatments were carried out under continuous flushing with CO2 in sharking incubator at 39°C. After incubating for 72 h, the ammonia concentration (NH3-N) was measured and recorded to identify pH, nutrient digestibility, and ammonia concentration (NH3-N). Results: Nutrient digestibility of the treatment with Water Spinach supplement in the utilization of L. leucocephala was obtained at a higher digestibility than treatment with M. pigra (p < 0.05). Gas production was different between groups (p < 0.05). Treatment with only M. pigra leaf had the highest gas production (A), while treatment with Water Spinach supplementation had the lowest gas production (A). At 0-24 h, the treatment with L. leucocephala leaf and Water Spinach 0.5% had the highest gas production, but after 24 h, M. pigra leaf and Water Spinach 1% and L. leucocephala leaf and Water Spinach 0.5% produced more gas compared to the other treatments (p < 0.05). Conclusion: The supplementation of Water Spinach 1% in treatment with M. pigra and L. leucocephala leaf resulted in increased degradability, gas production, and NH3-N concentration without a change in the pH value rumen condition. Based on these results, it is recommended that the level of Water Spinach supplementation should be 1% of dietary intake. Future studies should consider investigating the rumen ecology associated with Water Spinach supplementation. Feeding with Water Spinach remains a good supplement for ruminant performance; therefore, further studies should be conducted using Water Spinach in ruminant feeding in both metabolic and feeding trials.
RESUMEN
BACKGROUND AND AIMS: Bovine coronavirus (BCoV) is a pathogen affecting the productivities of dairy cattle worldwide. The present study aimed to determine the seroprevalence and factors associated with BCoV serological status using a commercial indirect enzyme-linked immunosorbent assay (ELISA). MATERIALS AND METHODS: A cross-sectional study was conducted in the western region of Thailand. Blood samples were collected from 30 dairy herds. In total, 617 blood serum samples were tested using a commercial indirect ELISA for BCoV-specific immunoglobulin G antibodies. A questionnaire was used to collect data on the factors which have been identified as risk factors for BCoV antibody detection. The age and history of diarrhea of each animal were recorded. Fisher's exact test was performed to univariately assess the association between BCoV serological status and possible risk factors. Variables with Fisher's exact test p<0.10 were then evaluated using multivariate logistic regression to identify factors associated with BCoV serological status. The Bonferroni adjustment was used for multiple comparisons of significant variables in the final multivariate logistic regression model. RESULTS: No herd was free from antibodies to BCoV. The individual seroprevalence of BCoV was 97.89% (604/617). The prevalence within herds was in the range of 45.45-100%. Cattle >3 years of age were more likely to be seropositive to BCoV compared to cattle <1 year of age (p=0.003), with the odds ratio being 81.96. Disinfecting diarrhea stools were a protective factor for being BCoV seropositive, with odds ratios of 0.08 and 0.06 compared to doing nothing (p=0.008) and to clean with water (p=0.002), respectively. CONCLUSION: BCoV seropositive dairy cattle were distributed throughout the western region of Thailand. The probability of being seropositive for BCoV increased with increasing animal age. Cleaning the contaminated stool with appropriate disinfectants should be recommended to farmers to minimize the spread of the virus.
