Interpretation of rumen degradability of concentrate feeds with a Gompertz model

Abstract

An investigation of the kinetics and synchronicity of rumen crude protein and starch degradability was performed for maize, flaked maize, ensiled maize cob, barley, flaked barley, wheat, oat, sorghum and triticale grain, using the in situ polyester bag technique. Kinetics of rumen degradability were corrected for particle losses from the bag before degradation. Washing losses were measured by shaking feed samples in polyester bags in tap water at 20°C for 1 h and recovering the particle losses in fibre glass filter. Mean washing losses of dry matter were 442 g/kg DM (soluble fraction 17%); mean washing losses of nitrogen were 446 g/kg nitrogen, with 52% being water soluble. Starch escaped to a higher extent from the bags in the washing machine (average washing losses were 581 g/kg starch, with a soluble fraction of 7%). Degradability data for dry matter, nitrogen and starch measured at each time of incubation were corrected for the respective particle losses and fitted with both first order and Gompertz (sigmoidal) models. The difference between the estimated parameters obtained with the two models was negligible, although differences occurred for the immediately soluble fraction ( a) of dry matter and starch and for total degradable fractions of dry matter, nitrogen and starch. No differences were observed between effective degradabilities, independent of rumen outflow rate (0.04 and 0.08/h), apart for the mean effective degradability of nitrogen at 0.08/h, which was higher for the first order model (577 versus 564 g/kg, P < 0.001). The advantage of using the Gompertz model to interpret the kinetics of rumen degradability of cereals was due to the possibility of studying synchronicity of nitrogen and starch released into the rumen and ranking feeds according to their degradability pattern, which required the calculation of the first derivatives of the Gompertz model for nitrogen and starch and weighted for their respective amounts in the feeds. The difference of these ratios from the optimum value of 30 mg N per 1 g starch gives the instantaneous synchronicity of the cereals. Maize, flaked maize, maize cob and sorghum had negative and almost constant values during the first 8 h of incubation. Barley, flaked barley, wheat, triticale and oat changed from an initially negative value to a positive value from about 4 h onwards; oats had a similar pattern, but a positive value was observed only after 6 h.