Jacob Alain, Nusslé Sébastien, Britschgi Adrian, Evanno Guillaume, Müller Rudolf, Wedekind Claus
Department of Ecology and Evolution, University of Lausanne, Biophore, 1015 Lausanne, Switzerland.
BMC Evol Biol. 2007 Nov 1;7:207. doi: 10.1186/1471-2148-7-207.
Males that are successful in intra-sexual competition are often assumed to be of superior quality. In the mating system of most salmonid species, intensive dominance fights are common and the winners monopolise most mates and sire most offspring. We drew a random sample of mature male brown trout (Salmo trutta) from two wild populations and determined their dominance hierarchy or traits linked to dominance. The fish were then stripped and their sperm was used for in vitro fertilisations in two full-factorial breeding designs. We recorded embryo viability until hatching in both experiments, and juvenile survival during 20 months after release into a natural streamlet in the second experiment. Since offspring of brown trout get only genes from their fathers, we used offspring survival as a quality measure to test (i) whether males differ in their genetic quality, and if so, (ii) whether dominance or traits linked to dominance reveal 'good genes'.
We found significant additive genetic variance on embryo survival, i.e. males differed in their genetic quality. Older, heavier and larger males were more successful in intra-sexual selection. However, neither dominance nor dominance indicators like body length, weight or age were significantly linked to genetic quality measured as embryo or juvenile survival.
We found no evidence that females can improve their offspring's genetic viability by mating with large and dominant males. If there still were advantages of mating with dominant males, they may be linked to non-genetic benefits or to genetic advantages that are context dependent and therefore possibly not revealed under our experimental conditions - even if we found significant additive genetic variation for embryo viability under such conditions.
在同性竞争中成功的雄性通常被认为具有更高的品质。在大多数鲑科物种的交配系统中,激烈的优势争斗很常见,获胜者垄断了大多数配偶并繁衍了大多数后代。我们从两个野生种群中随机抽取了成熟雄性褐鳟(Salmo trutta)样本,并确定了它们的优势等级或与优势相关的特征。然后对这些鱼进行采精,其精子用于两个全因子育种设计的体外受精。在两个实验中,我们记录了胚胎孵化前的活力,在第二个实验中,记录了幼鱼放流到天然小溪后20个月内的存活情况。由于褐鳟的后代仅从父亲那里获得基因,我们将后代存活作为一种品质衡量标准,以检验:(i)雄性在遗传品质上是否存在差异,如果存在差异;(ii)优势或与优势相关的特征是否揭示了“优质基因”。
我们发现胚胎存活存在显著的加性遗传方差,即雄性在遗传品质上存在差异。年龄更大、更重且体型更大的雄性在同性选择中更成功。然而,无论是优势等级还是诸如体长、体重或年龄等优势指标,都与以胚胎或幼鱼存活衡量的遗传品质没有显著关联。
我们没有发现证据表明雌性通过与体型大且占优势的雄性交配可以提高其后代的遗传活力。如果与占优势的雄性交配仍然存在优势,那么这些优势可能与非遗传益处或与环境相关的遗传优势有关,因此在我们的实验条件下可能无法显现出来——即使我们在这样的条件下发现了胚胎活力存在显著的加性遗传变异。
