文章摘要
王新月,陈生熬,王程欣,訾方泽,常德胜,许豪,李大鹏.叶尔羌高原鳅耳石形态探究及群体判别分析.渔业科学进展,2023,44(4):201-211
叶尔羌高原鳅耳石形态探究及群体判别分析
Otolith morphology and population discrimination of Triplophysa yarkandensis
投稿时间:2022-02-28  修订日期:2022-04-18
DOI:10.19663/j.issn2095-9869.20220228002
中文关键词: 叶尔羌高原鳅  耳石  形态差异  判别分析
英文关键词: Triplophysa yarkandensis  Otolith  Morphological difference  Discriminant analysis
基金项目:
作者单位
王新月 塔里木大学生命科学与技术学院 塔里木珍稀鱼类研究中心 新疆 阿拉尔 843300 
陈生熬 塔里木大学生命科学与技术学院 塔里木珍稀鱼类研究中心 新疆 阿拉尔 843300华中农业大学水产学院 湖北 武汉 430070 
王程欣 塔里木大学生命科学与技术学院 塔里木珍稀鱼类研究中心 新疆 阿拉尔 843300 
訾方泽 塔里木大学生命科学与技术学院 塔里木珍稀鱼类研究中心 新疆 阿拉尔 843301 
常德胜 塔里木大学生命科学与技术学院 塔里木珍稀鱼类研究中心 新疆 阿拉尔 843302 
许豪 塔里木大学生命科学与技术学院 塔里木珍稀鱼类研究中心 新疆 阿拉尔 843303 
李大鹏 华中农业大学水产学院 湖北 武汉 430070 
摘要点击次数: 1084
全文下载次数: 916
中文摘要:
      进一步开展叶尔羌高原鳅(Triplophysa yarkandensis)不同地理群体分类判别、探明耳石与鱼类生活史的相关机制,本研究基于耳石形态学和鱼类生态学方法,对叶尔羌河、和田河和塔里木河的734尾叶尔羌高原鳅耳石与鱼体的形态指标进行了统计分析。结果显示,叶尔羌高原鳅耳石较小,左右微耳石形态无显著差异(P>0.05);叶尔羌高原鳅耳石形态指标与体长、体质量呈对数函数关系,R2范围在0.48~0.62;采用鱼体形态学、耳石形态测量法和椭圆傅里叶分析法分别对两两群体进行判别分析,和田河群体与塔里木河群体判别准确率分别为96.0%、61.4%和82.2%,叶尔羌河群体与和田河群体判别准确率分别为93.0%、79.5%和87.9%,叶尔羌河群体与塔里木河群体判别准确率分别为96.5%、77.5%和86.8%。叶尔羌高原鳅耳石形态与鱼体生长的关系极大程度地反映了其个体发育对栖息环境的适应性,且不同地理群体叶尔羌高原鳅耳石形态特征存在显著差异(P<0.05)。本研究将耳石形态学首次应用于叶尔羌高原鳅种群的鉴别分析,为进一步开展高原鳅属进化分类提供参考,为高原渔业种质资源保护提供了科学依据。
英文摘要:
      To study the classification, identification, and discrimination between different geographical populations of Triplophysa yarkandensis and explore the related otolith morphology and fish life history, this study statistically analyzed the morphological otolith indices and fish bodies of 734 T. yarkandensis from the Yarkand River, Hotan River, and Tarim River using otolith morphology and fish ecology methods. The results showed that otoliths were small in T. yarkandensis, approximately elliptic, thicker in the middle, gradually thinning to the outer edge, and with a prominent protrusion in the center of the external surface. Otolith length was obviously larger than otolith width while the excisural notch was not obvious, wherein the rostrum was developed, the ventral otolith edge was smooth with a shallow arc, and the otolith dorsal had a crest-like ridge. No significant difference between left and right lapillus morphology was observed (P>0.05). The otolith morphological indices followed a logarithmic function with the body length and weight (R2=0.48~0.62). It reflects the ontogenetic adaptation to the environment, and migration behavior mainly affects the relationship between otolith morphology and fish body morphology. The SHAPE software was used to extract the outer otolith contour of T. yarkandensis, revealing morphological differences between T. yarkandensis populations. The parameter with the largest discriminant coefficient, i.e., the one in which the morphological difference has the greatest significant effect, was screened. Therewith, the discriminant formula was set up to calculate the discriminant accuracy. Discriminant analysis between groups using fish morphology, otolith morphometry and elliptical Fourier analysis, respectively. The discriminant accuracy of the Hotan River and Tarim River populations was 96.0%, 61.4%, and 82.2%; the Yarkand River and Hotan River was 93.0%, 79.5%, and 87.9%; the Yarkand River and Tarim River populations was 96.5%, 77.5%, and 86.8%. Environmental factors such as water temperature, spatial niche adaptation, and habitat depth were the main causes of the otolith morphological changes, also affecting the behavior characteristics of typical T. yarkandensis life history, especially fish migration. In this study, the T. yarkandensis was found to live in high altitude, low habitat temperature, and high salinity and alkaline waters, so the fish body growth and the elements deposition rate onto otoliths were low. T. yarkandensis belongs to the sub-cold water and benthic fish group, which only enters deep water during overwintering in winter. In other seasons, it swims along the edge and rests in shallow depth waters, so the otolith grows slowly and has a small size. The relationship between otolith and body growth reflected the T. yarkandensis ontogenetic adaptability to its habitat. As the T. yarkandensis residence time is short in the migration area, mineral elements in the water body cannot be rapidly deposited in a short period of time, and the accelerated body growth is not completely reflected in the otolith growth. Therefore, the short-distance migration behavior under habitat fragmentation mainly affects the correlation between otolith and fish growth in T. yarkandensis. The fish otolith morphology is highly species-specific and population-specific. T. yarkandensis otolith morphology was significantly different among the geographically different populations (P<0.05). In this study, the accuracy rate (>90.0%) was slightly higher than that of elliptic Fourier analysis (>80.0%), both of which could be used as the discrimination basis parameter. However, the traditional fish otolith morphology is easy to record, as repetitive operations are robust and less affected by the environment, especially in the contents of a carnivorous fish feeding analysis; therefore, vertebrate paleontology explore has a useful application prospect in these aspects. Moreover, it could serve as an effective tool to identify fish intraspecific differences in the case of growth restriction or bodily injury. Therefore, it is of great research value to introduce the otolith morphology into the population identification of T. yarkandensis. This study explored the T. yarkandensis morphological characteristics and compared otolith morphologies to effectively identify the geographically different population, co-relating otolith shape with T. yarkandensis growth (i.e., body length and quality) and resource management, providing theoretical support to further researches about the composition and migratory population growth. The T. yarkandensis intraspecies differences in different rivers were also compared concerning fish body morphology, otolith measurements, and elliptic Fourier analysis, providing strong evidence for traditional morphological classification. The effective utilization and cost control of incomplete fish samples was greatly favored by this study. Otolith morphology was applied for the first time in the classification and population identification of T. yarkandensis, which laid a foundation for the development and research of its microchemical features and life history strategy, presenting a reference for further identification and evolutionary classification of Triplophysa, strengthening the taxonomic foundation of aquatilia, and providing scientific basis for protecting the plateau fishery germplasm resources.
附件
查看全文   查看/发表评论  下载PDF阅读器
关闭