Sambucetti Pablo, Loeschcke Volker, Norry Fabian M
Departamento de Ecología, Genética y Evolución, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires, Argentina.
Hereditas. 2006 Dec;143(2006):77-83. doi: 10.1111/j.2006.0018-0661.01934.x.
Clinal analysis for fitness-related traits provides a well-known approach to investigate adaptive evolution. Several fitness-related traits (developmental time, thorax length, wing length and wing loading) were measured at two laboratory generations (G7 and G33) of D. buzzatii from an altitudinal gradient from northwestern Argentina, where significant thermal differences persist. Developmental time (DT) was positively correlated with altitude of origin of population. Further, DT was negatively correlated with maximal mean temperature at the site of origin of population, and this thermal variable decreases with altitude. Wing loading tended to be larger in highland than in lowland populations, suggesting that flight performance is subject to stronger selection pressure in highland populations. Developmental time showed a significant increase with laboratory generation number. There was no significant correlation between developmental time and body size across populations along the altitudinal cline of DT. This result illustrates that developmental time and body size do not always evolve in the same direction, even though both traits are often positively and genetically correlated in a well-known tradeoff in Drosophila.
对与适应性相关性状的临床分析提供了一种研究适应性进化的著名方法。在来自阿根廷西北部海拔梯度的巴氏果蝇的两个实验室世代(G7和G33)中,测量了几个与适应性相关的性状(发育时间、胸长、翅长和翅载荷),那里存在显著的温度差异。发育时间(DT)与种群的起源海拔呈正相关。此外,DT与种群起源地的最高平均温度呈负相关,并且这个热变量随海拔降低。翅载荷在高地种群中往往比低地种群更大,这表明飞行性能在高地种群中受到更强的选择压力。发育时间随实验室世代数显著增加。沿着DT的海拔梯度,不同种群的发育时间与体型之间没有显著相关性。这一结果表明,发育时间和体型并不总是朝着相同方向进化,尽管在果蝇中这两个性状在一个著名的权衡中通常呈正相关且具有遗传相关性。