6 research outputs found
Additional file 9: Table S15. of Host contributes to longitudinal diversity of fecal microbiota in swine selected for lean growth
Proportion of variation explained by the first two principal components at different taxonomic levels and contribution of top members to the first two principal components, using unrarefied microbiome data. (PDF 47 kb
Additional file 11: Figure S3. of Host contributes to longitudinal diversity of fecal microbiota in swine selected for lean growth
Calinski-Harabasz indexes (CH) for number of potential clusters of samples at weaning, week 15, and off-test, using unrarefied microbiome data. (PDF 174Â kb
Additional file 8: Table S14. of Host contributes to longitudinal diversity of fecal microbiota in swine selected for lean growth
Effects and standard errors of family and time on alpha diversity estimated from model (1). (PDF 19Â kb
Additional file 1: Table S1. of Host contributes to longitudinal diversity of fecal microbiota in swine selected for lean growth
Diet formulae and their nutritional values. (PDF 70Â kb
Additional file 6: Figure S1. of Host contributes to longitudinal diversity of fecal microbiota in swine selected for lean growth
Sample flow between enterotypes through weaning, week 15, and off-test. (PDF 46Â kb
Additional file 4: Table S6. of Host contributes to longitudinal diversity of fecal microbiota in swine selected for lean growth
Proportion of OTU counts at weaning, week 15, and off-test by phylum. Table S7. Proportion of OTU counts at weaning, week 15, and off-test by class. Table S8. Proportion of OTU counts at weaning, week 15, and off-test by order. Table S9. Proportion of OTU counts at weaning, week 15, and off-test by family. Table S10. Proportion of OTU counts at weaning, week 15, and off-test by genus. Table S11. Proportion of OTU counts at weaning, week 15, and off-test by species. (PDF 141Â kb