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云南高山姬鼠头骨的几何形态学研究
引用本文:高文荣,王政昆,姜文秀,朱万龙.云南高山姬鼠头骨的几何形态学研究[J].生态学报,2016,36(6):1756-1764.
作者姓名:高文荣  王政昆  姜文秀  朱万龙
作者单位:云南师范大学能源与环境科学学院, 昆明 650500;云南省高校西南山地生态系统动植物生态适应进化及保护重点实验室, 云南师范大学生命科学学院, 昆明 650500,云南省高校西南山地生态系统动植物生态适应进化及保护重点实验室, 云南师范大学生命科学学院, 昆明 650500,云南省高校西南山地生态系统动植物生态适应进化及保护重点实验室, 云南师范大学生命科学学院, 昆明 650500,云南省高校西南山地生态系统动植物生态适应进化及保护重点实验室, 云南师范大学生命科学学院, 昆明 650500
基金项目:国家自然科学基金项目(31360096);云南省应用基础研究计划重点项目(2013FA014);获云南省博士研究生学术新人奖资助
摘    要:表型可塑性是指同一基因型在不同环境条件下而产生多种不同表现型的反应能力。哺乳动物头骨形态的变化是在进化过程中出现的重要表型特征之一。云南省地势西高东低、海拔变化剧烈、是古北界寒带物种南迁,中南半岛热带物种北移的交汇地,自然环境的地带性和非地带性变化明显,栖息在该地区的动物为了适应多样的环境,可能出现不同的表型分化。高山姬鼠(Apodemus chevrieri)为我国特有种,主要分布在中国西南的横断山及其附近地区,是研究表型与生态适应之间关系的理想物种。为研究在云南特殊生态环境下物种的微进化,采用几何形态学的方法测量云南不同地区高山姬鼠头骨形态的变异,采用线粒体细胞色素b(Cytochrome b,Cyt b)基因和线粒体控制区(Mitochondrial control region,D-loop)探讨基因型的变化。结果显示:昆明种群与横断山种群(中甸、剑川、丽江)间发生了明显的形态变异和遗传分化,高山姬鼠头骨背面和腹面,横断山种群和滇中昆明种群很少重叠,这两个种群变异较大;但头骨的侧面和下颌侧面变异不明显。因此,分布于云南地区的高山姬鼠可能正处于生态物种形成的早期阶段。

关 键 词:高山姬鼠  头骨形态  几何形态测量  遗传分化
收稿时间:2014/9/11 0:00:00
修稿时间:2015/12/7 0:00:00

Geometric morphometric research of the skull of Apodemus chevrieri from Yunnan Province
GAO Wenrong,WANG Zhengkun,JIANG Wenxiu and ZHU Wanlong.Geometric morphometric research of the skull of Apodemus chevrieri from Yunnan Province[J].Acta Ecologica Sinica,2016,36(6):1756-1764.
Authors:GAO Wenrong  WANG Zhengkun  JIANG Wenxiu and ZHU Wanlong
Institution:School of Energy and Environmental Science, Yunnan Normal University, Kunming 650500, China;Key Laboratory of Ecological Adaptive Evolution and Conservation on Animals-Plants in Southwest Mountain Ecosystem of University in Yunnan Province, School of Life Science, Yunnan Normal University, Kunming 650500, China,Key Laboratory of Ecological Adaptive Evolution and Conservation on Animals-Plants in Southwest Mountain Ecosystem of University in Yunnan Province, School of Life Science, Yunnan Normal University, Kunming 650500, China,Key Laboratory of Ecological Adaptive Evolution and Conservation on Animals-Plants in Southwest Mountain Ecosystem of University in Yunnan Province, School of Life Science, Yunnan Normal University, Kunming 650500, China and Key Laboratory of Ecological Adaptive Evolution and Conservation on Animals-Plants in Southwest Mountain Ecosystem of University in Yunnan Province, School of Life Science, Yunnan Normal University, Kunming 650500, China
Abstract:Phenotypic plasticity is the capacity of individuals to modify their phenotype in response to environmental changes. Fundamental to the way in which organisms cope with environmental variations, phenotypic plasticity is associated with all types of environmentally-induced variations, including changes to morphological, physiological, and behavioral processes. The skull morphology of mammals is the most important phenotypic trait, which changes during the evolutionary process. The Chevrier''s field mouse, Apodemus chevrieri is a nocturnal and species endemic to China, and originated in the Palaearctic region. A. chevrieri is mainly distributed in the Hengduan Mountains and nearby regions of China, including Zhaotong, Kunming, Lijiang, Dali, and the land around the Lancang and Nu Rivers in Yunnan Province. A. chevrieri mainly inhabits farmland and its nearby shrubland, and is one of the main natural foci of plague in the Hengduan Mountains, which is a crossroads of species dispersal. The boreal species of the Palaearctic migrating southward, and tropical species from the Indochina Peninsula migrating northward, and thus is an area of interest for biologists studying mammal diversity. Meanwhile, the Hengduan Mountains are located in the west of the Yunnan Province, where there are many mountains and canyons. From west to east, there are dramatic changes in environmental conditions with changes in altitude, and noticeable changes were observed in the zone and non-zone landscape. In order to adapt to the different environments, animals inhabiting the area may exhibit different phenotypic variations, so A. chevrieri was employed as an ideal model for examining the relationships between phenotypic and ecological adaptations. The analysis of morphology is a fundamental part of many biological studies. With the development of more sophisticated statistical techniques, the sophistication of analyses of these types of data also increased. Since the 1980s, there was a fundamental change in the nature of the data gathered and analyzed, as scientists began to focus on the coordinates of landmarks and the geometric information relating to their relative positions. Geometric morphometrics, was hailed as a "revolution" in morphometrics. Morphological divergence among taxa was estimated quantitatively by analyzing the outline of the mandible. This method treats the mandible shape globally, and provides continuous data which can be used to compute phenotypic distances. In order to study the microevolution of species in the Yunnan province, with its special ecological environment, we applied geometric morphometric methods to the study of skull shape changes in different areas of A. chevrieri distribution, and used mitochondrial cytochrome b (Cyt b) gene and control region (D-loop) to investigate the gene type. The results showed that the Kunming and Hengduan Mountain populations (Zhongdian, Jianchuan, and Lijiang) exhibited obvious morphological and genetic variations. In particular, the dorsal and ventral of skull in A. chevrieri rarely overlap between the Hengduan Mountain populations and the Kunming population, with large variations between two populations having been noted. However, the side and lower side of the skull showed no significant variation between populations. Therefore, this study indicates that A. chevrieri in the Yunnan Province might be in the process of undergoing ecological speciation.
Keywords:Apodemus chevrieri  skull shape  geometric morphometrics  genetic diversity
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