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Fig. 4. Mass-specific basal metabolic rates (BMRw), exceptional
longevity (Lo/Lp), and lifetime
expenditure of energy (LxBMRw) are function of the
rate of cytochrome b evolution. Data are from Table S2 in
supplementary material. (A) Mass-specific basal metabolic rates
(BMRw) are function of both body mass (M) and the rate of
cytochrome b evolution (Scytb) in the Fringillidae family. Multiple
linear regression of lnBMRw as a function of both lnM and
Scytb:
LnBMRw=2.304–0.157xlnM+6.373xScytb
(N=16, r2=0.706, P<0.001, VIF=1.07,
P(lnM)<0.001, P(Scytb)=0.002). (B)
Lo/Lp as function of Scytb. Open
symbols indicate oscines (N=31), inverted triangles indicate
Fringillidae (N=16), and solid symbols indicate all other birds
(N=28). Lo/Lp
(BMRw), the residuals from power law 1, are indicated by squares;
Lo/Lp (M), the residuals from
power law (3) are indicated by circles. For oscine birds
Lo/Lp(BMRw)=–1.143+
16.5xScytb (r2=0.170, P=0.021, and
Lo/Lp(M)=–1.547+19.6xScytb
(r2=0.243, P=0.005). For Fringillidae;
Lo/Lp(M)=–3.964+36.2xScytb
(r2=0.42, P=0.007);
Lo/Lp(BMRw)=–4.575+40.35xScytb
(r2=0.489, P=0.003). For all other birds:
Lo/Lp(BMRw)=1.96–11.9xScytb
(N=28, r2=0.300, P=0.003) and
Lo/Lp(M)=1.676–8.37xScytb
(r2=0.186, P=0.022). (C)
LxBMRw as a function of Scytb. Symbols are as in B.
For oscine birds LxBMRw=–213+2893xScytb
(r2=0.171, P= 0.021); for Fringillidae
LxBMRw=–817+7079xScytb
(r2=0.507, P=0.002); for all other birds
LxBMRw=164–778xScytb
(r2= 0.104, P=0.095). The difference in
LxBMRw between oscines, 178.7±77, and all
other birds 106±47 was significant (t=4.273,
P<0.001).
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