Oscar Ángel De Luna-Bonilla, Susana Valencia-Á, Guillermo Ibarra-Manríquez, Saddan Morales-Saldaña, Efraín Tovar-Sánchez, Antonio González-Rodríguez
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In this study, we analyzed the morphological and climatic niche differentiation of scrub oak populations forming a complex constituted by six named species, Quercus cordifolia, Quercus frutex, Quercus intricata, Quercus microphylla, Quercus repanda, Quercus striatula and a distinct morphotype of Q. striatula identified during field and herbarium work (hereafter named Q. striatula II). Samples were obtained from 35 sites covering the geographic distribution of the complex in northern and central Mexico. Morphological differentiation was analyzed through geometric morphometrics of leaf shape and quantification of trichome traits. Our results indicated the presence of two main morphological groups with geographic concordance. The first was formed by Q. frutex, Q. microphylla, Q. repanda and Q. striatula, distributed in the Trans-Mexican Volcanic Belt, the Sierra Madre Occidental and a little portion of the south of the Mexican Altiplano (MA). 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引用次数: 0
摘要
墨西哥是栎属进化辐射的主要中心,橡树物种分布在不同的栖息地类型,在形态和生长形式上表现出广泛的差异。尽管灌木橡树约占墨西哥物种的20%,但很少受到关注,甚至其分类学和地理分布的基本方面也悬而未决。在本研究中,我们分析了灌木栎种群的形态和气候生态位分化,形成了一个由六个命名物种组成的复合体,即堇叶栎、frutex栎、复杂栎、小叶栎、瑞班达栎、条纹栎和一个在野外和植物标本馆工作中鉴定的独特的条纹栎形态类型(以下简称条纹栎II)。从墨西哥北部和中部的35个地点采集了样本,涵盖了该综合体的地理分布。通过叶片形状的几何形态计量学和毛状体性状的量化来分析形态分化。我们的研究结果表明,存在两个具有地理一致性的主要形态群。第一个由frutex、Q.microphylla、Q.repanda和Q.stritula组成,分布在跨墨西哥火山带、Sierra Madre Occidental和墨西哥Altiplano(MA)南部的一小部分地区。第二组由在Sierra Madre Oriental和MA中发现的堇青石Q.cordifola、Q.错综复杂Q.striatula II组成。因此,我们的证据支持Q.stritula II形态型的独特性,表明需要进行分类学修订。在这两组中,分类群之间的形态分化从非常清楚到低或不存在不等(即小叶Q.条纹Q.和cordifolia-Q.条纹Q.II),但生态位比较显示,在所有成对比较中都存在显著的生态位分化,强调了综合方法对复杂类群的分类学解析的相关性,如本文所研究的方法。
Leaf morphometric analysis and potential distribution modelling contribute to taxonomic differentiation in the Quercus microphylla complex.
Mexico is a major center of evolutionary radiation for the genus Quercus, with oak species occurring across different habitat types and showing a wide variation in morphology and growth form. Despite representing about 20% of Mexican species, scrub oaks have received little attention and even basic aspects of their taxonomy and geographic distribution remain unresolved. In this study, we analyzed the morphological and climatic niche differentiation of scrub oak populations forming a complex constituted by six named species, Quercus cordifolia, Quercus frutex, Quercus intricata, Quercus microphylla, Quercus repanda, Quercus striatula and a distinct morphotype of Q. striatula identified during field and herbarium work (hereafter named Q. striatula II). Samples were obtained from 35 sites covering the geographic distribution of the complex in northern and central Mexico. Morphological differentiation was analyzed through geometric morphometrics of leaf shape and quantification of trichome traits. Our results indicated the presence of two main morphological groups with geographic concordance. The first was formed by Q. frutex, Q. microphylla, Q. repanda and Q. striatula, distributed in the Trans-Mexican Volcanic Belt, the Sierra Madre Occidental and a little portion of the south of the Mexican Altiplano (MA). The second group consists of Q. cordifola, Q. intricata and Q. striatula II, found in the Sierra Madre Oriental and the MA. Therefore, our evidence supports the distinctness of the Q. striatula II morphotype, indicating the need for a taxonomic revision. Within the two groups, morphological differentiation among taxa varied from very clear to low or inexistent (i.e. Q. microphylla-Q. striatula and Q. cordifolia-Q. striatula II) but niche comparisons revealed significant niche differentiation in all pairwise comparisons, highlighting the relevance of integrative approaches for the taxonomic resolution of complicated groups such as the one studied here.
期刊介绍:
The Journal of Plant Research is an international publication that gathers and disseminates fundamental knowledge in all areas of plant sciences. Coverage extends to every corner of the field, including such topics as evolutionary biology, phylogeography, phylogeny, taxonomy, genetics, ecology, morphology, physiology, developmental biology, cell biology, molecular biology, biochemistry, biophysics, bioinformatics, and systems biology.
The journal presents full-length research articles that describe original and fundamental findings of significance that contribute to understanding of plants, as well as shorter communications reporting significant new findings, technical notes on new methodology, and invited review articles.
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