Silwood Park Campus, Imperial College London, Ascot, Berkshire SL5 7PY, United Kingdom.
Proc Natl Acad Sci U S A. 2011 Aug 9;108(32):13188-93. doi: 10.1073/pnas.1106085108. Epub 2011 Jul 5.
Understanding the processes underlying the origin of species is a fundamental goal of biology. It is widely accepted that speciation requires an interruption of gene flow between populations: ongoing gene exchange is considered a major hindrance to population divergence and, ultimately, to the evolution of new species. Where a geographic barrier to reproductive isolation is lacking, a biological mechanism for speciation is required to counterbalance the homogenizing effect of gene flow. Speciation with initially strong gene flow is thought to be extremely rare, and few convincing empirical examples have been published. However, using phylogenetic, karyological, and ecological data for the flora of a minute oceanic island (Lord Howe Island, LHI), we demonstrate that speciation with gene flow may, in fact, be frequent in some instances and could account for one in five of the endemic plant species of LHI. We present 11 potential instances of species divergence with gene flow, including an in situ radiation of five species of Coprosma (Rubiaceae, the coffee family). These results, together with the speciation of Howea palms on LHI, challenge current views on the origin of species diversity.
理解物种起源的过程是生物学的一个基本目标。人们普遍认为,物种形成需要种群之间基因流动的中断:持续的基因交换被认为是种群分歧的主要障碍,最终也是新物种进化的主要障碍。如果不存在生殖隔离的地理障碍,则需要有一种生物机制来阻止基因流动的同质化效应。最初具有强烈基因流动的物种形成被认为是极其罕见的,并且很少有令人信服的经验实例发表。然而,我们利用一个微小的海洋岛屿(豪勋爵岛,LHI)植物区系的系统发育、核型和生态数据,证明在某些情况下,伴随着基因流动的物种形成实际上可能很频繁,可能占 LHI 特有植物物种的五分之一。我们提出了 11 个伴随着基因流动的物种分化的潜在实例,包括五个 Coprosma 物种(茜草科,咖啡科)的原地辐射。这些结果,连同豪勋爵岛上 Howea 棕榈的物种形成,挑战了物种多样性起源的现有观点。