https://www.selleckchem.com/products/xct-790.html This study was carried out to evaluate the effects of replacing soybean meal by castor bean meal on nutrient intake, digestibility, animal performance, ingestive behavior activities, carcass characteristics, and fatty acid profile from steers finished in pasture. Crossbred steers were weighed to determine the initial body weight (331.6 ± 37.4 kg), which were kept in 4 paddocks (8 animals/paddock), on pastures of Brachiaria decumbens during the finishing phase. Dietary treatments included CC00-without castor bean meal; CC33-153 g/kg of castor bean meal; CC66-308 g/kg of castor bean meal; and CC100-434 g/kg of castor bean meal. No treatment effects were detected (P > 0.05) for final body weight, average daily gain, feed efficiency, and hot carcass weight. The DM, CP, NDF, and NFC total intake were lowest (P 0.05) by castor bean meal replacement on the diets. Results from this experiment suggest that castor bean meal may replace soybean meal in pasture supplementation without altered digestibility, carcass characteristics, and fatty acid profile.We present a new modelling framework combining replicator dynamics, the standard model of frequency dependent selection, with an age-structured population model. The new framework allows for the modelling of populations consisting of competing strategies carried by individuals who change across their life cycle. Firstly the discretization of the McKendrick von Foerster model is derived. We show that the Euler-Lotka equation is satisfied when the new model reaches a steady state (i.e. stable frequencies between the age classes). This discretization consists of unit age classes where the timescale is chosen so that only a fraction of individuals play a single game round. This implies a linear dynamics and individuals not killed during the round are moved to the next age class; linearity means that the system is equivalent to a large Bernadelli-Lewis-Leslie matrix. Then we use the