Sentence examples for predicted branch from inspiring English sources

The predicted branch diameter profile for a tree of average DBH at various stand densities using Model 3 (Table 6) are shown in Fig. 4a.

The predicted branch profiles, at a stand age of 29 years, for a tree of average DBH in unthinned stands with different initial stand densities (Fig. 5d) indicate that an initial stand density of at least 1333 stems ha−1 would be necessary to ensure branches in the lower stem are below 40 mm.

The predicted branch diameter profile for a tree of average DBH in a stand with an initial density of 1666 stems ha−1 and post-thinning stand densities of 250, 500, 750 and 1666 stem ha−1 using Model 4 (Table 9) is shown in Fig. 4b.

The fact that the predicted branch diameter profile for a tree of average DBH in a stand decreases with increasing post-thinning stand density (i.e., 250 >, 500 > 750 stems ha−1) (Fig. 4a) and are all higher than that for the initial stand density of 1666 stems ha−1 indicates that branches at the base of the tree have been influenced by the severity of the thinning.

This SNP, rs10424178, lies within the predicted branch point sequence (25) for the second 3′ acceptor site and is 5 bases 3′ of the first 3′ acceptor site.

In a minigene system the -51 mutation, located in the computationally predicted branch point (BP), was found to be sufficient to recapitulate BRAF exon 3^9 splicing [ 10, 11].

Branch-specific GOL (bsGOL) scores are obtained by minimizing the sum, over all the possible pairwise comparisons at hand, of the squared differences between the frequency of the observed GOL events and the sum of the predicted branch-specific values.

Within the phylogenetic tree, 82% of all predicted branches were supported by bootstrap proportions greater than 90% (i.e. 900 of 1000).

The additional glycan coverage of labile heavily sialylated glycan species provided by this method have been presented in Figure 10 where the nonsialylated (column 0) and common sialylated glycans detected were colored in gray and the heavily sialylated glycans with more sialic acids than predicted branches were in orange.

One option was to predict branch diameter as a function of height above ground.

The data were used to develop site-specific models to predict branch diameter along the stem.