Spanish Journal of Agricultural Research (Apr 2013)

Modelling a quantitative ensilability index adapted to forages from wet temperate areas

  • A. Martinez-Fernandez,
  • A. Soldado,
  • B. de-la-Roza-Delgado,
  • F. Vicente,
  • M. A. Gonzalez-Arrojo,
  • A. Argamenteria

DOI
https://doi.org/10.5424/sjar/2013112-3219
Journal volume & issue
Vol. 11, no. 2
pp. 455 – 462

Abstract

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Forage ensilability mainly depends on dry matter (DM), water soluble carbohydrates (WSC) and buffer capacity (BC) values at harvest time. According to these parameters, and based on a collection of 208 forages of known ensilability characteristics including short and long term meadows for grazing, italian ryegrass, maize, triticale, soybean, faba bean crops, and samples coming from cereal-legume associations, the objective of this study has been to define a quantitative ensilability index (EI) based on a relationship between DM, WSC and BC contents at harvest date, adapted to the characteristics of fodder from wet temperate areas. For this purpose, a discriminant procedure was used to define this EI based on a linear combination of DM, WSC and BC of forages at harvest time. The quantitative calculated indexes distinguish five successive ranges of ensilability: high ensilability (EI>+28), medium high ensilability (+9<EI<+28), medium ensilability (-28<EI< +9), medium low ensilability (-47<EI<-28) and low ensilability (EI<-47). This quantitative index was externally evaluated and 100% of samples were successfully classified.