Ruminal fermentation and degradation, kinetic flow of digesta and milk fatty acid composition of cows fed sugarcane silage-based diets supplemented with whole cottonseed

Costa, Dayana Alves da; Lopes, Fernando César Ferraz; Rebouças, Gesiane Moura Neves; Carneiro, Jailton da Costa; Gama, Marco Antônio Sundfeld da; Souza, Clebson Lucas de; Saliba, Eloísa de Oliveira Simões

doi:10.5433/1679-0359.2020v41n4p1317

Cited by 1 publication

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References 34 publications

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“…Formulating appropriate diets for ruminants requires detailed descriptions of the nutritional value of feeds and their degradation kinetics in the rumen (Tedeschi, 2019;da Costa et al, 2020). Therefore accurate estimates of degradation parameters are required to fit various mathematical models and to select best fit models for describing the in situ ruminal incubation of feeds.…”

Section: Introductionmentioning

confidence: 99%

Mathematical models describing disappearance of Lucerne hay in the rumen using the nylon bag technique

Palangi¹,

Macit²,

Bayat³

2021

SA J. An. Sci.

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It is essential to study the dynamics of rumen degradation of feeds before their potential use in formulating diets for ruminants. Various mathematical models have been developed to describe this degradation. The non-lagged exponential model (Model I), the lagged exponential model (Model II), the Gompertz model (Model III), and the generalized Mitscherlich model (Model IV) were examined using two alternative software (SAS and MATLAB) to determine their efficacy in accounting for variation in ruminal disappearance of dry matter (DM) and crude protein (CP) of lucerne hay from three cuttings. All models described DM degradability well (R2 >0.98). Only Models I and II converged when fitted to CP degradability data (R2 >0.98). It was concluded that any of these models could be used to describe the degradation of DM, whereas only Models I and II could be used to describe the degradation of CP from three cuttings of Lucerne hay. All the models that were fitted to the DM degradation data performed reasonably well, with only minor differences in goodness of fit. However, these models differed in values of the parameter estimates. Additionally, SAS failed to converge in the analyses of CP with Models III and IV, and MATLAB converged to nonsensical values with Model III. Model I might be recommended because it fitted the data well and required estimates of the fewest parameters Keywords: alfalfa hay, in situ digestion, model selection, nonlinear regression

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Section: Introductionmentioning

confidence: 99%