Quantifying selection on standard metabolic rate and body mass in Drosophila melanogaster

黑腹果蝇 选择(遗传算法) 生物 黑腹菌 人口 代谢率 呼吸测定法 进化生物学 多元统计 遗传学 统计 果蝇属(亚属) 稳定选择 线性关系 线性模型 能量代谢 自然选择 非线性系统 能源消耗 标准误差 长寿 体重 代谢途径
作者
M Videlier (21924776),V Careau (13662163),AJ Wilson (15965657),HD Rundle (21924779)
出处
期刊: [Figshare (United Kingdom)]
摘要

Standard metabolic rate (SMR), defined as the minimal energy expenditure required for self‐maintenance, is a key physiological trait. Few studies have estimated its relationship with fitness, most notably in insects. This is presumably due to the difficulty of measuring SMR in a large number of very small individuals. Using high‐throughput flow‐through respirometry and a Drosophila melanogaster laboratory population adapted to a life cycle that facilitates fitness measures, we quantified SMR, body mass, and fitness in 515 female and 522 male adults. We used a novel multivariate approach to estimate linear and nonlinear selection differentials and gradients from the variance‐covariance matrix of fitness, SMR, and body mass, allowing traits specific covariates to be accommodated within a single model. In males, linear selection differentials for mass and SMR were positive and individually significant. Selection gradients were also positive but, despite substantial sample sizes, were nonsignificant due to increased uncertainty given strong SMR‐mass collinearity. In females, only nonlinear selection was detected and it appeared to act primarily on body size, although the individual gradients were again nonsignificant. Selection did not differ significantly between sexes although differences in the fitness surfaces suggest sex‐specific selection as an important topic for further study.
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