Supplementary Figure S1: scenarios with logistic growth from Variability in life-history switch points across and within populations explained by Adaptive Dynamics Pietro Landi James R. Vonesh Cang Hui 10.6084/m9.figshare.7276496.v1 https://rs.figshare.com/articles/journal_contribution/Supplementary_Figure_S1_scenarios_with_logistic_growth_from_Variability_in_life-history_switch_points_across_and_within_populations_explained_by_Adaptive_Dynamics/7276496 Scenarios for time of maturation under different juvenile initial sizes computed with logistic growth function w(τ)=g(w<sub>0</sub>,τ)= w<sub>0</sub>w<sub>K</sub> exp(rτ)/(w<sub>K</sub>+w<sub>0</sub>(exp(rτ)-1)). Orange interval: internal Evolutionary Stable Strategy (ESS) 0<τ<1. Parameters as in figure 4a in the main text except w<sub>K</sub>=10. Dark green interval: branching point (within-population variability). Light green interval: either branching point or boundary strategy τ=0 (across- and within-population variability). Red interval: direct development. Solid line: convergence stable equilibria (attracting strategies). Dashed line: convergence unstable equilibria (repelling strategies). Thick line: convergence stable but evolutionary unstable equilibria (branching points). TC: transcritical bifurcation. BR: branching bifurcation (<i>B</i>=0 in equation (6) in the main text), turning selection disruptive. SN: saddle-node bifurcation.;Model implementation 2018-10-31 14:04:34 time of maturation phenotypic variability evolution bistability disruptive selection evolutionary branching