Spriggs Elizabeth L, Schmerler Samuel B, Edwards Erika J, Donoghue Michael J
Am Nat. 2018 Feb;191(2):235-249. doi: 10.1086/695337. Epub 2017 Dec 8.
Few studies have critically evaluated how morphological variation within individual organisms corresponds to variation within and among species. Subindividual variation in plants facilitates such studies because their indeterminate modular growth generates multiple serially homologous structures along growing axes. Focusing on leaf form, we evaluate how subindividual trait variation relates to leaf evolution across Viburnum, a clade of woody angiosperms. In Viburnum we infer multiple independent origins of wide/lobed leaves with toothed margins from ancestors with elliptical, smooth-margined leaves. We document leaf variation along the branches of individual plants of 28 species and among populations across the wide range of Viburnum dentatum. We conclude that when novel leaf forms evolved in Viburnum, they were intercalated at the beginning of the seasonal leaf sequence, which then generated a repeated spectrum of leaf forms along each branch (seasonal heteroblasty). We hypothesize that the existence of such a spectrum then facilitated additional evolutionary shifts, including reversions to more ancestral forms. We argue that the recurrent production of alternative phenotypes provides opportunities to canalize the production of particular forms and that this phenomenon has played an important role in generating macroscale patterns.
很少有研究严格评估个体生物体内的形态变异如何与物种内和物种间的变异相对应。植物的个体内变异有助于此类研究,因为它们的无限模块化生长会沿着生长轴产生多个系列同源结构。以叶片形态为重点,我们评估了个体内性状变异与荚蒾属(一个木本被子植物分支)叶片进化之间的关系。在荚蒾属中,我们推断出宽叶/有裂片且边缘有齿的叶子是从具有椭圆形、边缘光滑叶子的祖先那里多次独立起源的。我们记录了28个物种的个体植株枝条上以及齿叶荚蒾广泛分布范围内不同种群间的叶片变异情况。我们得出结论,当荚蒾属中出现新的叶片形态时,它们是插入在季节性叶片序列的开始阶段,然后沿着每个枝条产生了一系列重复的叶片形态(季节性异形叶性)。我们推测,这样一系列形态的存在随后促进了更多的进化转变,包括向更原始形态的逆转。我们认为,交替表型的反复产生为特定形态的形成提供了机会,并且这种现象在产生宏观模式方面发挥了重要作用。
