Evolution Biologique et Ecologie, Université Libre de Bruxelles, Faculté des Sciences, CP160/12, Av. F. D. Roosevelt 50, BE-1050 Brussels, Belgium.
Evolution Biologique et Ecologie, Université Libre de Bruxelles, Faculté des Sciences, CP160/12, Av. F. D. Roosevelt 50, BE-1050 Brussels, Belgium.
Mol Phylogenet Evol. 2020 Sep;150:106854. doi: 10.1016/j.ympev.2020.106854. Epub 2020 May 19.
Paleo-environmental data show that the distribution of African rain forests was affected by Quaternary climate changes. In particular, the Dahomey Gap (DG) - a 200 km wide savanna corridor currently separating the West African and Central African rain forest blocks and containing relict rain forest fragments - was forested during the mid-Holocene and possibly during previous interglacial periods, whereas it was dominated by open vegetation (savanna) during glacial periods. Genetic signatures of past population fragmentation and demographic changes have been found in some African forest plant species using nuclear markers, but such events appear not to have been synchronous or shared across species. To better understand the colonization history of the DG by rain forest trees through seed dispersal, the plastid genomes of two widespread African forest legume trees, Anthonotha macrophylla and Distemonanthus benthamianus, were sequenced in 47 individuals for each species, providing unprecedented phylogenetic resolution of their maternal lineages (857 and 115 SNPs, respectively). Both species exhibit distinct lineages separating three regions: 1. Upper Guinea (UG, i.e. the West African forest block), 2. the area ranging from the DG to the Cameroon volcanic line (CVL), and 3. Lower Guinea (LG, the western part of the Central African forest block) where three lineages co-occur. In both species, the DG populations (including southern Nigeria west of Cross River) exhibit much lower genetic diversity than UG and LG populations, and their plastid lineages originate from the CVL, confirming the role of the CVL as an ancient forest refuge. Despite the similar phylogeographic structures displayed by A. macrophylla and D. benthamianus, molecular dating indicates very contrasting ages of lineage divergence (UG diverged from LG since c. 7 Ma and 0.7 Ma, respectively) and DG colonization (probably following the Mid Pleistocene Transition and the Last Glacial Maximum, respectively). The stability of forest refuge areas and repeated similar forest shrinking/expanding events during successive glacial periods might explain why similar phylogeographic patterns can be generated over contrasting timescales.
古环境数据表明,非洲雨林的分布受到第四纪气候变化的影响。特别是达荷美缺口(DG)——一个 200 公里宽的热带稀树草原走廊,目前将西非和中非雨林块分开,并包含残余的雨林碎片——在中全新世和可能在前几个间冰期有森林覆盖,而在冰期则以开阔植被(热带稀树草原)为主。利用核标记物,在一些非洲森林植物物种中发现了过去种群破碎化和种群变化的遗传特征,但这些事件似乎不是同步的,也不是跨物种共享的。为了更好地了解通过种子传播雨林树种在 DG 的殖民历史,对两种广泛分布的非洲森林豆科植物,大花木和弯叶山蚂蝗的质体基因组进行了测序,每个物种的 47 个个体中都进行了测序,为它们的母系谱系提供了前所未有的系统发育分辨率(分别为 857 和 115 个 SNPs)。这两个物种都表现出明显的谱系,将三个区域分开:1. 上几内亚(UG,即西非森林块)、2. 达荷美缺口到喀麦隆火山线(CVL)的区域、3. 下几内亚(LG,中非森林块的西部),三个谱系同时存在。在这两个物种中,DG 种群(包括尼日利亚跨河西部的南部地区)的遗传多样性远低于 UG 和 LG 种群,其质体谱系起源于 CVL,证实了 CVL 作为古老森林避难所的作用。尽管大花木和弯叶山蚂蝗表现出相似的系统地理结构,但分子年代学表明,谱系分化的年龄差异很大(UG 分别自大约 7 Ma 和 0.7 Ma 与 LG 分化),而 DG 的殖民化则可能发生在中更新世转换和末次冰盛期之后。森林避难区的稳定性和在连续冰期反复发生的类似森林收缩/扩张事件可能解释了为什么在不同的时间尺度上可以产生相似的系统地理模式。
