Cranial variation in species and subspecies of kangaroo rats (Dipodomys, Dipodomyinae, Rodentia) according to geometric morphometrics

IF 3.5 1区 生物学 Q1 ZOOLOGY Integrative zoology Pub Date : 2024-04-11 DOI:10.1111/1749-4877.12824
Bader H. ALHAJERI
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Abstract

Traditional Dipodomys (sub)species identification uses geography, phenotype, and external/skull measurements. Such measurements are correlated with size and thus redundant. I assessed the value of scaled cranial shape, based on two‐dimensional landmarks (analyzed using geometric morphometric methods) in distinguishing Dipodomys taxa, and in summarizing their variation. My dataset includes 601 adult specimens from 20 species (49 operational taxonomic units ‐ OTUs) across 190 localities. Cranial shape was highly useful in classifying Dipodomys taxa without considering geography. The auditory bulla was the most variable region—taxa differed in its hypertrophy, accompanied by different degrees of nearby structure crowding. Cranial shape was weakly allometric, with no significant sexual dimorphism. Weak size dimorphism was detected. (Sub)specific taxonomy is not reflective of shape variation, as the number of subspecies per species is not associated with disparity. Shape had significant phylogenetic signal, but subspecies did not always cluster with conspecifics and species did not always cluster according to phylogenetic relationship/taxonomy. Shape variation was correlated with climate, and species differed in morphological disparity and degree of specialization, which may contribute to divergence in shape variation patterns from phylogeny. D. deserti was the most specialized species, diverging greatly from the genus mean; D. heermanni was the least specialized. This study provides new insights into morphological variation of North American keystone species, several of conservation interest, for example, D. heermanni berkeleyensis, D. h. dixoni, D. nitratoides brevinasus, and D. n. nitratoides.

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根据几何形态计量学分析袋鼠(Dipodomys, Dipodomyinae, Rodentia)种和亚种的颅骨变异
传统的 Dipodomys(亚)物种鉴定使用地理、表型和外部/头骨测量。这些测量与体型相关,因此是多余的。我根据二维地标(使用几何形态计量学方法进行分析)评估了头盖骨形状比例在区分双齿龙类群和总结其变异方面的价值。我的数据集包括来自 190 个地方的 20 个物种(49 个操作分类单元 - OTUs)的 601 个成年标本。在不考虑地理因素的情况下,头盖骨的形状对划分双齿龙类群非常有用。听鼓是变化最大的区域,其肥大程度不同,附近结构的拥挤程度也不同。颅骨形状呈弱异形,没有明显的性别二态性。发现了较弱的体型二态性。(亚)具体分类法不能反映形状的变化,因为每个物种的亚种数量与差异无关。形状具有重要的系统发育信号,但亚种并不总是与同种聚集在一起,物种也不总是根据系统发育关系/分类学聚集在一起。形状变异与气候相关,物种在形态差异和特化程度方面存在差异,这可能导致形状变异模式与系统发育的差异。D.deserti是特化程度最高的物种,与属平均值相差很大;D.heermanni的特化程度最低。这项研究为北美关键物种的形态变异提供了新的见解,其中一些物种具有保护意义,例如 D. heermanni berkeleyensis、D. h. dixoni、D. nitratoides brevinasus 和 D. n. nitratoides。
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来源期刊
CiteScore
6.40
自引率
12.10%
发文量
81
审稿时长
>12 weeks
期刊介绍: The official journal of the International Society of Zoological Sciences focuses on zoology as an integrative discipline encompassing all aspects of animal life. It presents a broader perspective of many levels of zoological inquiry, both spatial and temporal, and encourages cooperation between zoology and other disciplines including, but not limited to, physics, computer science, social science, ethics, teaching, paleontology, molecular biology, physiology, behavior, ecology and the built environment. It also looks at the animal-human interaction through exploring animal-plant interactions, microbe/pathogen effects and global changes on the environment and human society. Integrative topics of greatest interest to INZ include: (1) Animals & climate change (2) Animals & pollution (3) Animals & infectious diseases (4) Animals & biological invasions (5) Animal-plant interactions (6) Zoogeography & paleontology (7) Neurons, genes & behavior (8) Molecular ecology & evolution (9) Physiological adaptations
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