8 research outputs found
Supplementary Table 2
Correlation coefficients and posterior probabilities from substitution rate analysis with Coevol 1.4b (partial coefficients summarized in Figure 2 colors). Raw posterior probabilities are reported as ranging from from 0.0 (100% support for a negative correlation) to 1.0 (100% support for a positive correlation). Negative correlations are reported as 1-raw in the main text
Refleksi Kemiskinan Buruh di Semarang, Jawa Tengah pada Awal Abad Ke-20.
In the early 20th century, native laborers in Semarang lived in a structural poverty and socially marginalized. This condition was triggered by the system of discriminative and exploitative capitalism adopted by the Dutch colonial to get high profit
Data File S4
We provide as a zip archive the data and script files necessary to reproduce the major analyses in the present work. A detailed readme txt file is included in this zip archive which outlines the analytical procedures needed to replicate the major analyses in the present work
Supplementary Table 3
Data table of estimated crown fossil masses used as body size priors to calibrate ASRs. Mean body mass estimates and associated 95% prediction intervals are derived from published predictive equations (Field, D.J., Lynner, C., et al. 2013). Unless otherwise noted, measurements for these taxa are taken from holotype specimens, and unless otherwise noted, published measurements were used from references noted in the table
Supplementary Table 1
Life history data table formatted for input into the Coevol analytical software. Life history data were obtained from the AnAge senescence database Build 13 (De Magalhães, J.P. and Costa, J. 2009, Tacutu, R., Craig, T., et al. 2013). We collated the following data: (1) age at sexual maturity (days), (2) incubation time (days), (3) number of eggs laid per year, (4) mass at hatching (grams), (5) growth rate (1/days), (6), maximum recorded longevity (years), and (7) total metabolic rate (watts). Relative to the set of 198 avian taxa in (Prum, R.O., Berv, J.S., et al. 2015), when matching genera occurred in the AnAge database, we used averages at the genus level; otherwise, we used family-level averages. Body mass (grams, species average) data were collected from Dunning Jr, J.B. (1992). This yielded a data matrix with ~49% missing data overall (with no missing data for body mass)
Supplementary Appendix
Supplementary discussion and analyses, Figures S1-S8, and associated captions
Ultrametric Bee Hummingbird tree
Ultrametric bee hummingbird phylogeny including 35 taxa of bee hummingbird, and 6 outgroups from other hummingbird clades. See also Figure S1
