Key Laboratory of Adaptation and Evolution of Plateau Biota, Qinghai Provincial Key Laboratory of Animal Ecological Genomics, Laboratory of Plateau Fish Evolutionary and Functional Genomics, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Xining 810008, China; University of Chinese Academy of Sciences, Beijing 100049, China.
Key Laboratory of Marine Animal Taxonomy and Evolution, Key Laboratory of Exploration and Utilization of Aquatic Genetic Resources, National Demonstration Center for Experimental Fisheries Science Education, Shanghai Ocean University, Shanghai 201306, China.
Mol Phylogenet Evol. 2019 May;134:323-337. doi: 10.1016/j.ympev.2019.01.008. Epub 2019 Jan 11.
Highly specialized grade (HSG; genera Gymnocypris, Oxygymnocypris, Schizopygopsis, Platypharodon and Chuanchia) of the Schizothoracinae (Cypriniformes: Cyprinidae) are endemic to the Qinghai-Tibet Plateau (QTP). Previously, two distinct ecomorphs were recognized according to trophic traits. One was a limnetic omnivore with normal lower jaw morphology, terminal mouth, and moderate or dense gill rakers, mostly inhabiting in open water of lakes, including Gymnocypris and Oxygymnocypris. Another was a benthic feeder with inferior mouth, sparse gill rakers and sharp horny sheath on the lower jaw for scraping of attached prey off hard substrates, including Schizopygopsis, Platypharodon and Chuanchia. However, traditional taxonomy of HSG based on these trophic traits presented extensive conflicts with the molecular studies in recent years. The possible cause could be convergent evolution in morphology, retention of ancestral polymorphisms or mitochondrial introgression, but these hypotheses could not be assessed due to incomplete taxon sampling and only mitochondrial data employed in previous works. Here, we conducted the most comprehensive molecular analysis on HSG fishes to date, using four mitochondrial loci and 152,464 genome-wide SNPs, and including 21 of 24 putative species and one undescribed Schizopygopsis species. Both SNP and mtDNA trees confirmed extensive paraphyly of genera Gymnocypris and Schizopygopsis, where species often were clustered together by watershed instead of by genus. Basal split into the north clade B and the south clade C (ca. 3.03 Ma) approximately by the Tanggula-Tanitawen Mountains in SLAF tree coincided with a violent uplift of the QTP during the phase A of 'Qingzang movement' (ca. 3.6 Ma). Ancestral state reconstruction of the trophic ecomorph showed that the limnetic omnivore ecomorph had evolved repeatedly in clade B and C. Furthermore, we presented a striking case of convergent evolution between two 'subspecies' Gymnocypris chui chui and G. chui longimandibularis, which had diverged as early as two million years ago (ca. 2.42 Ma). Ecological analyses revealed that similar food utilization, particularly in zooplankton, was the main underlying driving force. This work showed an example of taxonomy with the most extensive errors at the genus/species levels due to convergent evolution and suggested that trophic traits could be misleading in fish taxonomy. Therefore, we propose a major generic revision for HSG species.
高专业化等级(HSG;鱼类 Gymnocypris、Oxygymnocypris、Schizopygopsis、Platypharodon 和 Chuanchia)是青藏高原(QTP)特有的鲃亚科(Cypriniformes:Cyprinidae)鱼类。以前,根据营养特征识别出两种截然不同的生态型。一种是具有正常下颚形态、末端口型和中等或密集的鳃耙的浮游性杂食动物,主要栖息在湖泊的开阔水域,包括 Gymnocypris 和 Oxygymnocypris。另一种是底栖食者,具有下位口型、稀疏的鳃耙和下颚上尖锐的角质鞘,用于刮取硬底基质上的附着猎物,包括 Schizopygopsis、Platypharodon 和 Chuanchia。然而,近年来基于这些营养特征的 HSG 传统分类学与分子研究之间存在广泛冲突。可能的原因是形态的趋同进化、祖先多态性的保留或线粒体的渗入,但由于以前的工作中只使用了不完全的分类群采样和线粒体数据,这些假设无法得到评估。在这里,我们使用四个线粒体基因座和 152,464 个全基因组 SNP,对 HSG 鱼类进行了迄今为止最全面的分子分析,包括 24 种假定物种中的 21 种和一种未描述的 Schizopygopsis 物种。SNP 和 mtDNA 树都证实了 Gymnocypris 和 Schizopygopsis 属的广泛并系性,其中物种通常是按流域而不是按属聚类的。北支 B 和南支 C(约 3.03Ma)的基部分裂与青藏高原在“青藏运动”阶段 A(约 3.6Ma)期间的剧烈抬升大致吻合。在 SLAF 树中,由唐古拉-坦尼温山脉分隔的南北支 clade B 和 C 的祖先状态重建显示,浮游性杂食动物生态型在 B 和 C 支中已经多次进化。此外,我们还展示了 Gymnocypris chui chui 和 G. chui longimandibularis 两个“亚种”之间惊人的趋同进化案例,这两个亚种早在两百万年前(约 2.42Ma)就已经分化。生态分析表明,相似的食物利用,特别是浮游动物,是主要的潜在驱动力。这项工作表明,由于趋同进化,分类学在属/种水平上存在最广泛的错误,并表明营养特征可能在鱼类分类学中具有误导性。因此,我们建议对 HSG 物种进行重大的属级修订。
