Department of Biology-Ethology, University of Antwerp, 2610, Wilrijk, Belgium.
Front Zool. 2012 Aug 9;9(1):17. doi: 10.1186/1742-9994-9-17.
Maternal effects occur when the phenotype of the offspring is influenced by the phenotype of the mother, which in turn depends on her heritable state as well as on influences from the current and past environmental conditions. All of these pathways may, therefore, form significant sources of variation in maternal effects. Here, we focused on the maternal transfer of carotenoids and vitamin E to the egg yolk, using canaries as a model species. Maternal yolk carotenoids and vitamin E are known to generate significant phenotypic variation in offspring, representing examples of maternal effects. We studied the intra-individual consistency in deposition patterns across two years and the mother-daughter resemblance across two generations in order to estimate the level of heritable variation. The effects of the current environmental conditions were studied via a food supplementation experiment, while the consequences of past environmental conditions were estimated on the basis of the early growth trajectories.
There was a significant effect of the current environmental conditions on the yolk carotenoid and vitamin E deposition, but this effect varied between antioxidant components. The deposition of yolk carotenoids and vitamin E were linked to the process of yolk formation. Past environmental conditions did not contribute to the variation in yolk carotenoid and vitamin E levels nor did we find significant heritable variation.
The transfer of carotenoids or vitamin E may be an example where current environmental variation is largely passed from the mother to the offspring, despite the numerous intermediate physiological steps that are involved. Differences in the effect of the environmental conditions as experienced by the mother during laying may be due to differences in availability as well as physiological processes such as competitive exclusion or selective absorption.
当后代的表型受母亲的表型影响,而母亲的表型又取决于她的遗传状态以及当前和过去环境条件的影响时,就会发生母体效应。因此,所有这些途径都可能成为母体效应中显著的变异来源。在这里,我们以金丝雀为模型物种,重点研究了类胡萝卜素和维生素 E 从亲代向卵黄的母体转移。已知母体卵黄中的类胡萝卜素和维生素 E 会在后代中产生显著的表型变异,这是母体效应的例子。我们研究了个体在两年内沉积模式的个体内一致性,以及两代之间的母女相似性,以估计遗传变异的水平。通过食物补充实验研究了当前环境条件的影响,而过去环境条件的后果则是基于早期的生长轨迹来估计的。
当前环境条件对卵黄类胡萝卜素和维生素 E 的沉积有显著影响,但这种影响因抗氧化剂成分而异。卵黄类胡萝卜素和维生素 E 的沉积与卵黄形成过程有关。过去的环境条件对卵黄类胡萝卜素和维生素 E 水平的变化没有贡献,也没有发现显著的遗传变异。
类胡萝卜素或维生素 E 的转移可能是一个例子,即尽管涉及到许多中间生理步骤,但当前环境的变化很大程度上是从母亲传递给后代的。母亲产卵期间经历的环境条件的影响的差异可能是由于可用性的差异以及生理过程(如竞争排斥或选择性吸收)的差异造成的。
