Detecting Rainbow Trout Introgression in Bonneville Cutthroat Trout of the Bear River Basin Using Field-Based Phenotypic Characteristics

Pub Date : 2022-03-10 DOI:10.3398/064.082.0111
K. Meyer, Ryan W. Hillyard, M. Campbell
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Abstract

Abstract. Cutthroat trout Oncorhynchus clarkii × rainbow trout O. mykiss hybrids (hereafter hybrids) are difficult to visually distinguish from parental taxa, yet identifying phenotypic traits to separate hybrids from cutthroat trout is needed for conservation and management purposes. We compared phenotypic characteristics against genotype (using 34 species-diagnostic single nucleotide polymorphism loci) for 316 Bonneville cutthroat trout O. clarkii utah, rainbow trout and hybrids in Bear River tributaries. Our phenotypic classifications of fish were 91% accurate for Bonneville cutthroat trout but only 68% accurate for rainbow trout and hybrids combined. Classification errors based on phenotype were observed between parental taxa and hybrids but not between cutthroat trout and rainbow trout. The most useful phenotypic traits for distinguishing Bonneville cutthroat trout from hybrids were the absence of a white leading edge on the pelvic fin, the presence of fewer than 7 spots on the top of the head, and the presence of a prominent throat slash. The degree of hybridization in individual hybrids was associated with the number of spots on the top of their head. However, 16% of >F1 hybrids with a higher proportion of cutthroat trout ancestry and 6% of F1 hybrids exhibited all the phenotypic characteristics of cutthroat trout. The ability to visually detect admixture in hybrids was not related to fish length but was related to admixture level, with logistic regression model results predicting that, for individual hybrids when the proportion of alleles assigned to rainbow trout was >18% (95% CI, 11% to 26%), biologists were more than 50% likely to visually detect O. mykiss traits. While we encourage the use of genetic-based assessments for Bonneville cutthroat trout populations when feasible, our results suggest that phenotypic traits can assist in identifying hybridized populations and hybrid individuals, which will benefit the management and conservation of this species. However, our study included Bonneville cutthroat trout from only the Bear River basin, and further work is needed from the southern portion of the subspecies' range to support or refute our findings.
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利用野外表型特征检测熊河流域博纳维尔切喉鳟鱼中虹鳟鱼的渗入
摘要克拉氏Oncorhynchus clarkii × O. mykiss虹鳟鱼杂种(以下简称杂种)很难从亲本分类群中进行视觉区分,但为了保护和管理,需要通过表型性状的鉴定来区分杂种。利用34个物种诊断性单核苷酸多态性位点,对熊河支流316条犹他州克拉基博纳维尔切喉鳟鱼、虹鳟鱼和杂交鳟鱼的表型特征与基因型进行了比较。我们的鱼类表型分类对博纳维尔切喉鳟鱼的准确率为91%,但对虹鳟和杂交鳟鱼的准确率仅为68%。在亲本分类群和杂交分类群之间存在基于表型的分类误差,而在切喉鳟鱼和虹鳟之间没有基于表型的分类误差。区分博纳维尔切喉鳟鱼和杂交种最有用的表型特征是腹鳍上没有白色前缘,头顶上有少于7个斑点,喉咙上有明显的切口。杂交个体的杂交程度与它们头顶上的斑点数量有关。然而,16%具有较高切喉鳟鱼血统的>F1杂交种和6%的F1杂交种表现出切喉鳟鱼的所有表型特征。在杂交品种中,视觉检测外源性的能力与鱼的长度无关,而与外源性水平有关,逻辑回归模型结果预测,当分配给虹鳟的等位基因比例为0.18% (95% CI, 11%至26%)时,生物学家视觉检测O. mykiss性状的可能性超过50%。虽然我们鼓励在可行的情况下对博纳维尔切喉鳟鱼种群进行基于遗传的评估,但我们的研究结果表明,表型性状可以帮助鉴定杂交种群和杂交个体,这将有利于该物种的管理和保护。然而,我们的研究只包括了熊河流域的博纳维尔切喉鳟鱼,需要在亚种范围的南部进行进一步的工作来支持或反驳我们的发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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