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Table 2 Performance of alternative models for the evolution of mandible shape using principal components.

From: Evolutionary patterns and processes in the radiation of phyllostomid bats

Models with 3 PCs

     
 

BM

OU.2

OU.3

OU.4

OU.5

AICc

-503.15

-521.09

-557.23

-571.23

-568.09

Δ(AICc)

68.08

50.14

14

0

3.14

W(AICc)

0.0000

0.0000

0.0008

0.8272

0.1721

SIC

-477.55

-472.61

-501.83

-509.29

-500.05

Δ(SIC)

31.74

36.68

7.46

0

9.24

w(SIC)

0.0000

0.0000

0.0232

0.9673

0.0095

DOF

9

18

21

24

27

Models with 5 PCs

     
 

BM

OU.2

OU.3

OU.4

OU.5

AICc

-953.13

-963.13

-994.16

-1016.73

-1022.49

Δ(AICc)

69.36

59.36

28.33

5.76

0

w(AICc)

0.0000

0.0000

0.0000

0.0532

0.9468

SIC

-886.85

-839.13

-857.41

-867.95

-862.51

Δ(SIC)

0

47.72

29.44

18.9

24.34

W(SIC)

0.9999

0.0000

0.0000

0.0001

0.0000

DOF

20

40

45

50

55

  1. Model names defined as follows: BM - Brownian motion, OU - Ornstein-Uhlenbeck with two (OU.2), three (OU.3), four (OU.4), and five (OU.5) adaptive optima (see text and Fig. 7 for details). AICc is the corrected Akaike Information Criterion for small sample sizes, Δ(AICc) is the difference relative to the model with smaller AICc, w(AICc) is the Akaike weight for each model. SIC is the Schwartz Information Criterion, Δ(SIC) and w(SIC) are the differences and weights as defined above. DOF are the numbers of parameters estimated by each model. All models were multivariate. The upper part of the table shows models fitting the first three shape PCs simultaneously, whereas the bottom part of the table shows models fitting the first five shape PCs.