Two sides of the same coin? Transient hybridization in refugia and rapid postglacial ecological divergence ensure the evolutionary persistence of sister Nothofagus.
Andrea C Premoli, Paula Mathiasen, María C Acosta, Robert D McCulloch
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引用次数: 0
Abstract
Glacial periods have been considered as inhospitable environments that consist of treeless vegetation at higher latitudes. The fossil record suggests many species survived the Last Glacial Maximum within refugia, usually at lower latitudes. However, phylogeographic studies have given support to the existence of previously unknown high-latitude refugia that were not detected in the fossil record. Here, we test the hypothesis that cold-tolerant trees of Patagonia survived cold periods in microclimatically favourable locales where hybridization occurred between sister taxa. To study local presence through glacial periods in multiple refugia, we used pollen records and genetic information (isozymes, microsatellites, and combined nuclear and chloroplast DNA sequences) of population pairs of Nothofagus antarctica and N. pumilio that belong to the ancient subgenus Nothofagus which can potentially hybridize in nature, along their entire latitudinal range in Patagonia. Studied species share the N. dombeyi type pollen, which was abundant at >20% in the northernmost latitudinal bands (35-43°S), even during the Last Glacial Maximum. Mid- and southern latitudinal records (44-55°S) yielded lower abundances of ~10% that increased after c. 15.0 cal. ka BP. Therefore, fossil pollen evidence suggests a long-lasting local presence of Nothofagus throughout glacial-interglacial cycles but mostly as small populations between 44°S and 51°S. We found species-specific and shared genetic variants, the latter of which attained relatively high frequencies, thus providing evidence of ancestral polymorphisms. Populations of each species were similarly diverse, suggesting survival throughout the latitudinal range. Estimates of coalescent divergence times were broadly synchronous across latitudes, suggesting that regional climates similarly affected populations and species that hybridized through climate cycles, fostering local persistence.
冰川期一直被认为是荒凉的环境,在高纬度地区由无树植被组成。化石记录表明,许多物种在末次冰川极盛期(LGM)的避难所幸存下来,避难所通常位于低纬度地区。然而,系统地理学研究支持了化石记录中未发现的、之前未知的高纬度避难所的存在。在这里,我们检验了巴塔哥尼亚耐寒树种在小气候有利的地方度过寒冷时期、姊妹类群之间发生杂交的假设。为了研究在冰川期多个避难所中当地存在的情况,我们使用了花粉记录和巴塔哥尼亚整个纬度范围内 Nothofagus antarctica 和 N. pumilio 种群对的遗传信息(同工酶、微卫星以及核和叶绿体 DNA 组合序列)。所研究的物种共享 N. dombeyi 型花粉,这种花粉在最北纬度带(35-43°S)的含量大于 20%,甚至在远古时期也是如此。中纬度和南纬度记录(44-55°S)的含量较低,约为 10%,在约 15.0 cal. ka BP 之后有所增加。因此,花粉化石证据表明,在整个冰川-间冰期周期中,Nothofagus在当地长期存在,但主要是在南纬44-51°之间的小种群。我们发现了物种特有的遗传变异和共有的遗传变异,后者的频率相对较高,从而提供了祖先多态性的证据。每个物种的种群都具有相似的多样性,这表明它们在整个纬度范围内都能生存。各纬度的聚合分化时间估计值大致同步,这表明区域气候对种群和物种产生了类似的影响,这些种群和物种通过气候周期杂交,促进了当地的持久性。
期刊介绍:
It covers both micro- and macro-evolution of all types of organisms. The aim of the Journal is to integrate perspectives across molecular and microbial evolution, behaviour, genetics, ecology, life histories, development, palaeontology, systematics and morphology.