Supplementary Tables

This item contains: <b>Supplementary Table 1</b>. Posterior parameter estimates for the MBD model applied to Hemiptera (genus-level analysis). Baseline origination and extinction rates (λ0 and µ0) and correlation parameters (Gλ and Gµ). The drivers are numbered as follows: (0) diversity of all genera through time, (1) angiosperms diversity through time, (2) gymnosperms diversity through time, (3) Polypodiales ferns diversity through time, (4) Spore-plants diversity through time, (5) global temperature changes through time, and (6) non-Polypodiales ferns diversity through time. Shrinkage weights (ω), based on local and global shrinkage parameters, and global shrinkage (τ). Shrinkage weights greater than 0.5 (highlighted in bold) indicate significant evidence for correlation. The effect of a variable is assessed as significant when the shrinkage weight is superior to 0.5 and 95% HPD does not encompass 0.<br><b>Supplementary Table 2</b>. Posterior parameter estimates for the MBD model applied to Auchenorrhyncha (genus-level analysis). Baseline origination and extinction rates (λ0 and µ0) and correlation parameters (Gλ and Gµ). The drivers are numbered as follows: (0) diversity of all Auchenorrhyncha through time, (1) angiosperms diversity through time, (2) gymnosperms diversity through time, (3) Polypodiales ferns diversity through time, (4) Spore-plants diversity through time, (5) global temperature changes through time, and (6) non-Polypodiales ferns diversity through time. Shrinkage weights (ω), based on local and global shrinkage parameters, and global shrinkage (τ). Shrinkage weights greater than 0.5 (highlighted in bold) indicate significant evidence for correlation. The effect of a variable is assessed as significant when the shrinkage weight is superior to 0.5 and 95% HPD does not encompass 0.<br><b>Supplementary Table 3</b>. Posterior parameter estimates for the MBD model applied to Sternorrhyncha (genus-level analysis). Baseline origination and extinction rates (λ0 and µ0) and correlation parameters (Gλ and Gµ). Drivers numbered as follows: (0) diversity of all Sternorrhyncha through time, (1) angiosperms diversity through time, (2) gymnosperms diversity through time, (3) Polypodiales ferns diversity through time, (4) Spore-plants diversity through time, (5) global temperature changes through time, and (6) non-Polypodiales ferns diversity through time. Shrinkage weights (ω), based on local and global shrinkage parameters, and global shrinkage (τ). Shrinkage weights greater than 0.5 (highlighted in bold) indicate significant evidence for correlation. The effect of a variable is assessed as significant when the shrinkage weight is superior to 0.5 and 95% HPD does not encompass 0.<br><b>Supplementary Table 4</b>. Posterior parameter estimates for the MBD model applied to Heteroptera (genus-level analysis). Baseline origination and extinction rates (λ0 and µ0) and correlation parameters (Gλ and Gµ). Drivers numbered as follows: (0) diversity of all Heteroptera through time, (1) angiosperms diversity through time, (2) gymnosperms diversity through time, (3) Polypodiales ferns diversity through time, (4) Spore-plants diversity through time, (5) global temperature changes through time, and (6) non-Polypodiales ferns diversity through time. Shrinkage weights (ω), based on local and global shrinkage parameters, and global shrinkage (τ). Shrinkage weights greater than 0.5 (highlighted in bold) indicate significant evidence for correlation. The effect of a variable is assessed as significant when the shrinkage weight is superior to 0.5 and 95% HPD does not encompass 0.<br><b>Supplementary Table 5</b>. Posterior parameter estimates for the MBD model applied to Hemiptera (family-level analysis). Baseline origination and extinction rates (λ0 and µ0) and correlation parameters (Gλ and Gµ). Drivers numbered as follows: (0) diversity of all family through time, (1) angiosperms diversity through time, (2) gymnosperms diversity through time, (3) Polypodiales ferns diversity through time, (4) Spore-plants diversity through time, (5) global temperature changes through time, and (6) non-Polypodiales ferns diversity through time. Shrinkage weights (ω), based on local and global shrinkage parameters, and global shrinkage (τ). Shrinkage weights greater than 0.5 (highlighted in bold) indicate significant evidence for correlation. The effect of a variable is assessed as significant when the shrinkage weight is superior to 0.5 and 95% HPD does not encompass 0.<br><b>Supplementary Table 6</b>. Posterior parameter estimates for the MBD model applied to Auchenorrhyncha (family-level analysis). Baseline origination and extinction rates (λ0 and µ0) and correlation parameters (Gλ and Gµ). Drivers numbered as follows: (0) diversity of all Auchenorrhyncha through time, (1) angiosperms diversity through time, (2) gymnosperms diversity through time, (3) Polypodiales ferns diversity through time, (4) Spore-plants diversity through time, (5) global temperature changes through time, and (6) non-Polypodiales ferns diversity through time. Shrinkage weights (ω), based on local and global shrinkage parameters, and global shrinkage (τ). Shrinkage weights greater than 0.5 (highlighted in bold) indicate significant evidence for correlation. The effect of a variable is assessed as significant when the shrinkage weight is superior to 0.5 and 95% HPD does not encompass 0.<br><b>Supplementary Table 7</b>. Posterior parameter estimates for the MBD model applied to Sternorrhyncha (family-level analysis). Baseline origination and extinction rates (λ0 and µ0) and correlation parameters (Gλ and Gµ). Drivers numbered as follows: (0) diversity of all Sternorrhyncha through time, (1) angiosperms diversity through time, (2) gymnosperms diversity through time, (3) Polypodiales ferns diversity through time, (4) Spore-plants diversity through time, (5) global temperature changes through time, and (6) non-Polypodiales ferns diversity through time. Shrinkage weights (ω), based on local and global shrinkage parameters, and global shrinkage (τ). Shrinkage weights greater than 0.5 (highlighted in bold) indicate significant evidence for correlation. The effect of a variable is assessed as significant when the shrinkage weight is superior to 0.5 and 95% HPD does not encompass 0.<br><b>Supplementary Table 8</b>. Posterior parameter estimates for the MBD model applied to Heteroptera (family-level analysis). Baseline origination and extinction rates (λ0 and µ0) and correlation parameters (Gλ and Gµ). Drivers numbered as follows: (0) diversity of all Heteroptera through time, (1) angiosperms diversity through time, (2) gymnosperms diversity through time, (3) Polypodiales ferns diversity through time, (4) Spore-plants diversity through time, (5) global temperature changes through time, and (6) non-Polypodiales ferns diversity through time. Shrinkage weights (ω), based on local and global shrinkage parameters, and global shrinkage (τ). Shrinkage weights greater than 0.5 (highlighted in bold) indicate significant evidence for correlation. The effect of a variable is assessed as significant when the shrinkage weight is superior to 0.5 and 95% HPD does not encompass 0.