Department of Ecology and Evolutionary Biology, University of California, Irvine, California 92697, USA.
Am J Bot. 2013 Jul;100(7):1322-31. doi: 10.3732/ajb.1200473. Epub 2013 Jun 6.
Future changes in environmental conditions may alter evolutionary processes, including hybridization in nature. Frequency of hybrids could be altered via range shifts by the parental species or by changes in prezygotic or postzygotic reproductive isolation. We examined the potential for range shifts and change in postzygotic isolation by determining effects of increasing and decreasing precipitation on leaf physiology and fitness components in the subalpine herbs Ipomopsis aggregata (Polemoniaceae), I. tenuituba¸ and their natural hybrids in a common garden in the habitat of I. aggregata.
Summer precipitation was experimentally doubled or halved over 3 yr in comparison with ambient conditions. We measured relative growth rate, specific leaf area, intrinsic water-use efficiency, survival to reproduction, biomass, number of flowers produced, and floral morphology.
Ipomopsis tenuituba increased relative growth rate with higher precipitation more so than did I. aggregata during the first summer, but this response did not result in changes across treatments in relative survival or final reproductive success of the two species. When precipitation was reduced, the relative success of hybrids was greater than that of the home species, I. aggregata. In dry conditions, hybrids increased water-use efficiency and fitness as indexed by number of flowers more so than the other plant types did.
Increased reproduction in hybrids in the reduced precipitation regime indicates that postzygotic reproductive isolation may breakdown under imposition of dry conditions. These results suggest the potential for frequency of hybrids to increase if severe droughts become more common.
未来环境条件的变化可能会改变进化过程,包括自然界中的杂交。通过亲种的分布范围变化或通过合子前或合子后生殖隔离的变化,杂种的频率可能会发生改变。我们通过在杂种与其双亲的共同生境中,在一个控制生长箱中,确定增加和减少降水对亚高山草本植物聚合花(Polemoniaceae 花锚属)、细距花锚和它们的自然杂种的叶片生理学和适合度成分的影响,来检验分布范围变化和合子后隔离变化的潜力。
在 3 年的时间里,夏季降水与环境条件相比增加或减少了两倍,我们测量了相对生长率、比叶面积、内在水分利用效率、繁殖到生存的存活率、生物量、花的数量和花的形态。
聚合花锚在第一个夏季对高降水的相对生长率增加比细距花锚更多,但这种反应并没有导致两个物种在相对存活率或最终繁殖成功率方面的处理变化。当降水减少时,杂种的相对成功大于其亲本种聚合花锚。在干旱条件下,杂种比其他植物类型更能提高水分利用效率和以花的数量表示的适合度。
在减少降水的条件下,杂种繁殖的增加表明,在干旱条件下,合子后生殖隔离可能会崩溃。这些结果表明,如果严重干旱变得更加普遍,杂种的频率可能会增加。
