Abstract

Genetic improvement of forage digestibility, especially utilizing marker assisted selection and recombinant DNA techniques, requires identification of specific biochemical traits and associated genes that impact digestibility. We undertook a study to identify cell wall (CW) traits of lucerne ( Medicago sativa L.) stems that were consistently and strongly correlated with in vitro neutral detergent fibre (NDF) digestibility, a measurement that has been shown to correlate with animal performance. Spring and summer harvested lucerne stem material, for 2 years, from 24 individual plants in each of two germplasm sources were analyzed for 16 and 96 h in vitro NDF digestibility, and cell wall concentration and composition (monosaccharide constituents of cellulose, hemicellulose, and pectin; and Klason lignin (KL)) by the Uppsala dietary fibre method using near-infrared reflectance spectroscopy (NIRS). Pearson correlation coefficients were calculated for the relationships among these cell wall traits and with in vitro NDF digestibility. Concentrations of the pectin monosaccharide components were all negatively correlated ( r=−0.73 to −0.94) with total cell wall concentration. In contrast, the three most abundant cell wall components glucose (Glc), xylose (Xyl) and Klason lignin were not correlated, or only weakly positively correlated ( r<0.35), with cell wall concentration. Cell wall concentration was consistently negatively correlated ( r=−0.60 to −0.94) with both 16 and 96 h in vitro NDF digestibility. In contrast, Klason lignin concentration was only marginally correlated ( r<0.30) with 16 h in vitro NDF digestibility, but strongly negatively correlated ( r=−0.71 to −0.74) with 96 h in vitro NDF digestibility. This is consistent with previous reports which show that lignin affects potential extent of digestion, but not rate. Cell wall glucose and xylose concentrations were inconsistently correlated with fibre digestibility. The monosaccharide components of pectin were consistently positively correlated ( r=0.54–0.90) with in vitro NDF digestibility, except for 96 h in vitro NDF digestibility of spring harvested stems. Growth environment (year) and germplasm source had only minor impacts on the preceding correlation patterns, whereas spring versus summer harvests accounted for the inconsistencies observed among correlations for cell wall traits. The results of this study indicate that genetic improvement of fibre digestibility of lucerne stems should target genes that reduce total cell wall concentration, perhaps by reducing the rate of xylem tissue deposition during maturation, and reduce Klason lignin and increase pectin concentrations in the cell wall to improve potential extent and rate of fibre digestibility, respectively.

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