Association between Genetic Admixture and Morphological Patterns in a Hybrid Zone between the Two Iberian Vipers, Vipera aspis and V. latastei

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Inês Freitas, Guillermo Velo-Antón, Antigoni Kaliontzopoulou, Óscar Zuazo, Fernando Martínez-Freiría
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Abstract

Understanding how hybridization influences the morphology and fitness of hybrids is essential for studying adaptive evolution and ecological speciation. Secondary contact zones, where separately evolving populations meet and hybridize, offer valuable insights into the evolutionary processes driving speciation and provide an excellent system to address these questions. In this study, we investigate patterns of morphological and genetic variation of two congeneric viper species, Vipera aspis and V. latastei, across a contact zone in northern Spain (Oja-Tirón), where vipers with mixed morphology are often detected, but genetic studies addressing hybridization and relating patterns of genetic and morphological admixture are lacking. Using nine morphological traits (scalation and colouration) and 18 microsatellite markers, we (1) estimated the extent of hybridization, (2) morphologically characterized parental species and hybrids, and (3) evaluated the correlation between patterns of genetic and morphological admixture. Analyses revealed a bimodal hybrid zone with high rate of hybridization (22%) and prevalence of late-generation hybrids (F2 and backcrosses). Morphological analyses differentiated the two parental species, and a positive correlation (r = 0.95) was found between morphological and genetic patterns. The hybrid group displayed on average an intermediate morphology between the parentals, yet morphologically intermediate hybrids were rare in our dataset. Instead, most hybrids resembled the parental species with whom they share most of the genetic background. Notably, the hybrid group exhibited greater morphological variation than the parental groups. Traits with adaptative value, such as ventral scales and dorsal marks, showed significant differences between hybrids and the two parental species. Introgression of these traits may confer ecological advantages to hybrids, enhancing local adaptation. Overall, this study reveals a positive correlation between patterns of morphological and genetic variation across a hybrid zone and provides insights into the phenotypic consequences of hybridization on these viper species.

Abstract Image

两种伊比利亚蝰蛇(Vipera aspis 和 V. latastei)杂交区的遗传混杂与形态模式之间的关系
了解杂交如何影响杂交种的形态和适应性对于研究适应性进化和生态物种分化至关重要。次生接触区是单独进化的种群相遇和杂交的地方,它为了解驱动物种进化的过程提供了宝贵的视角,也为解决这些问题提供了一个极好的系统。在这项研究中,我们调查了西班牙北部接触区(Oja-Tirón)两种同源蝰蛇(Vipera aspis和V. latastei)的形态和遗传变异模式,在该接触区经常发现混合形态的蝰蛇,但缺乏针对杂交以及遗传和形态混杂模式的遗传研究。利用九个形态特征(鳞片和颜色)和 18 个微卫星标记,我们(1)估计了杂交的程度,(2)从形态上确定了亲本和杂交种的特征,(3)评估了遗传和形态混杂模式之间的相关性。分析表明,双峰杂交区杂交率高(22%),晚代杂交种(F2 和回交)普遍。形态学分析区分了两个亲本物种,并发现形态学和遗传模式之间存在正相关(r = 0.95)。杂交群体的平均形态介于亲本之间,但在我们的数据集中,形态介于亲本之间的杂交种并不多见。相反,大多数杂交种都与亲本物种相似,它们与亲本物种有大部分的遗传背景。值得注意的是,杂交种组比亲本组表现出更大的形态差异。具有适应价值的性状,如腹部鳞片和背痕,在杂交种和两个亲本之间表现出显著差异。这些性状的传入可能会给杂交种带来生态优势,增强对当地的适应性。总之,这项研究揭示了杂交区形态和遗传变异模式之间的正相关性,并为这些蝰蛇物种的杂交表型后果提供了深入的见解。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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