Table 2.
Dispersal events | AAR of parent node |
AAR of daughter node |
Age of parent node (Ma) |
Age of daughter node (Ma) |
||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | MP | 2 | MP | 1 | MP | 2 | MP | Mean | 95% HPD | Mean | 95% HPD | |
1 | A | (52.7) | B | (31.8) | B | (96.7) | AB | (2.6) | 18.4 | (15.7–21.5) | 12.9 | (10.7–15.2) |
2 | A | (67.0) | B | (15.0) | B | (87.4) | AB | (4.3) | 17.6 | (14.5–20.5) | 4.4 | (2.9–5.9) |
3 | B | (94.4) | BD | (1.4) | D | (53.6) | B | (27.3) | 8.8 | (7.8–10.0) | 7.6 | (7.2–8.2) |
4 | D | (53.6) | B | (27.3) | G | (69.9) | I | (7.4) | 7.6 | (7.2–8.2) | 5.8 | (4.7–7.1) |
5 | G | (69.9) | I | (7.4) | H | (44.2) | I | (37.4) | 5.8 | (4.7–7.1) | 4.6 | (3.2–6.0) |
6 | H | (44.2) | I | (37.4) | I | (98.6) | HI | (1.0) | 4.6 | (3.2–6.0) | 0.9 | (0.2–1.7) |
7 | B | (88.5) | BF | (6.7) | F | (93.3) | BF | (5.6) | 3.7 | (2.4–5.1) | 1.6 | (0.8–2.6) |
8 | B | (93.3) | BE | (4.7) | E | (94.5) | BE | (4.7) | 1.1 | (0.3–2.0) | 0.4 | (0.01–0.9) |
9 | A | (86.4) | B | (2.8) | C | (43.1) | D | (28.6) | 3.6 | (2.1–5.3) | 2.0 | (0.8–3.3) |
10 | C | (43.1) | D | (28.6) | D | – | – | – | 2.0 | (0.8–3.3) | 0 | 0 |
11 | A | (75.9) | AD | (11.0) | D | (97.4) | AD | (2.2) | 2.5 | (1.2–4.0) | 0.3 | (0.003–0.7) |
12 | B | (79.0) | BC | (11.7) | C | (95.7) | BC | (3.7) | 0.7 | (0.2–1.3) | 0.5 | (0.05–0.9) |
13 | B | (84.6) | BC | (10.8) | C | – | – | – | 0.5 | (0.05–1.1) | 0 | 0 |
Dispersal numbers and area codes refer to Figure 4. For ancestral area reconstructions (ARR), the first two areas with the highest marginal probability (MP; in percent) are reported for both the parent and daughter nodes of each dispersal event. Age estimates are derived from Bayesian relaxed clock analysis treating priors on fossils as being drawn from a lognormal distribution. The mean date in million years ago (Ma) and the 95% highest posterior density intervals are given for each parent and daughter node.