Prediction of In Situ Ruminal Degradability of Forages in Buffaloes Using the In Vitro Gas Production Technique

Two experiments, namely the situ nylon bag technique and the in vitro gas production technique, were carried out to determine the correlations between the in situ ruminal degradability and the in vitro gas production of different forages, and to predict the ruminal degradability of the forages using the gas production parameters. Forage samples from Napier grass (Pennisetum purpureum), Guinea grass (Panicum maximum), Para grass (Brachiaria mutica), Leucaena (Leucaena leucocephala), Rain tree (Samanea saman), and Gliricidia (Gliricidia sepium) were incubated in the rumen of three rumen-cannulated buffaloes using the in situ nylon bag technique for 3, 6, 12, 24, 48, and 72 h. The six forage samples were also subjected to the in vitro gas production analysis following the modified methods developed by Menke & Steingass (1988), along with 30 other commonly used forages in the Philippines. Both experiments followed a randomized complete block design. Their dry matter (DM), organic matter (OM), neutral detergent fiber (NDF), and crude protein (CP) degradation kinetics and effective degradability (ED) as well as the gas production parameters were then estimated. Results revealed that the ED of each nutrient was found to be moderately to strongly correlated with some of the gas production times and estimated gas parameters. The predictor models generated using the gas production parameters for the ED of DM, OM, and NDF were sufficiently strong (R2= 0.740, p value= 0.0002; R2= 0.659, p value= 0.0009; and R2= 0.813, p value < 0.0001, respectively) while that of CP was only moderate (R2= 0.500, p value= 0.0055). It was concluded that the relationship between the two techniques is sufficiently strong and therefore the gas production parameters can be used to predict the in situ ruminal nutrient degradability of forages

The mangal flora diversity of Del Carmen Forest on Siargao Island, Philippines

The municipality of Del Carmen, Siargao Island, hosts one of the Philippines’ most important contiguous mangrove stands. However, there is limited knowledge about the area’s floral assemblages and communities. Hence, we provide a comprehensive species list through exhaustive botanical explorations within its 11 barangays. We report 166 species in 145 genera and 73 families, of which 20 are true mangrove species. Twenty species are Philippine endemics, and seven are threatened based on the IUCN listing. The most dominant families in the area in terms of density are Rhizophoraceae and Rubiaceae, and the dominating species include Rhizophora mucronata Lam. and R. apiculata Blume. Our results exhibit a very high diversity for the entire municipality, with barangays Del Carmen and Katipunan demonstrating the highest diversity among the 11 barangays. We emphasize the value of floristic surveys as essential baseline information in formulating effective conservation and management strategies for these vital wetland ecosystems

Composition and Yield of Colostrum and Milk from Murrah and “Murrah x Carabao” Crosses in the Philippines

This study compared the composition, yield, and freezing point of buffalo colostrum and milk collected on the 30th, 60th, and 90th day of lactation from purebred Murrah and its crosses with the Philippine Carabao. A total of 133 milk samples were collected from 36 buffaloes (20 purebred Murrah and 16 “Murrah x Carabao” crosses) and evaluated for fat, protein, and lactose content, solids non-fat (SNF), total solids, and freezing point. Colostrum contained significantly (p<0.05) more protein, SNF, total solids, and higher freezing point, but less moisture and lactose, and were produced in lower amounts than milk obtained on different days of lactation. Fat percentage was not significantly different (p>0.05) between colostrum and milk. Colostrum from Murrah buffaloes had more protein but less fat and colostrum yield than “Murrah x Carabao” crosses. Among crossbred buffaloes, the F2 “75% Murrah – 25% Carabao” crosses produced more colostrum than F1 “50% Murrah – 50% Carabao” (p<0.05). Older buffaloes also produced more colostrum. Milk parameters were similar for Murrah and “Murrah x Carabao” crosses, except for test-day milk yield, which was significantly higher in “Murrah x Carabao” crosses. The F1 crossbred buffaloes had milk containing more lactose and SNF, but lower freezing point than milk from F2 crossbred buffaloes. Buffaloes, already with more lactations, had higher test-day milk yield but with lower fat and total solids. High monthly temperature reduced test-day milk yield. In conclusion, breed differences, age at calving, number of lactations, and high monthly temperature may have caused changes in the composition and yield of buffalo colostrum and milk

Thermal Denaturation of Pea Globulins ( Pisum sativum

International audienceThe heat-induced denaturation and aggregation of mixed pea globulins (8%, w/w) were investigated using differential scanning calorimetry (DSC), SDS-PAGE, and size-exclusion chromatography (SEC-HPLC). DSC data showed that the pea proteins denaturation temperature (T d) was heating-rate dependent. The T d value decreased by about 4 °C by lowering the heating rate from 10 to 5 °C/min. The SDS-PAGE analysis revealed that protein denaturation upon heating at 90 °C was mainly governed by noncovalent interaction. The SEC-HPLC measurements indicated that low-denatured legumin (≈350−410 kDa) and vicilin/convicilin (≈170 kDa) globulins were heat-denatured and most of their subunits reassociated into highmolecular weight, soluble aggregates (>700 kDa). The addition of N-ethylmaleimide slightly modified the aggregation route of pea globulins. However, partially insoluble macroaggregates were produced in the presence of dithiothreitol, reflecting the stabilizing effect of disulfide bonds within legumin subunits