Phylogenetic identification and population differentiation of bottlenose dolphins (Tursiops spp.) in Melanesia,as revealed by mitochondrial DNA

The taxonomic status of many dolphin populations remains uncertain in poorly studied regions of the world's ocean. Here we attempt to clarify the phylogenetic identity of two distinct forms of bottlenose dolphins (Tursiops spp.) described in the Melanesian region of the Pacific Ocean. Mitochondrial DNA control region sequences from samples collected in New Caledonia (n = 88) and the Solomon Islands (n = 19) were compared to previously published sequences of Tursiops spp., representing four phylogenetic units currently recognized within the genus. Phylogenetic reconstructions confirm that the smaller coastal form in Melanesia belongs to the same phylogenetic unit as T. aduncus populations in the Pacific, but differs from T. aduncus in Africa, and that the larger more oceanic form belongs to the species T. truncatus. Analyses of population diversity reveal high levels of regional population structuring among the two forms, with contrasting levels of diversity. From a conservation perspective, genetic isolation of T. aduncus in the Solomon Islands raises further concern about recent impacts of the commercial, live‐capture export industry. Furthermore, the low level of mtDNA diversity in T. aduncus of New Caledonia suggests a recent population bottleneck or founder effect and isolation. This raises concerns for the conservation status of these local populations.     

Population genetic structure and colonization history of short ninespine sticklebacks (Pungitius kaibarae)

The contemporary distribution and genetic structure of a freshwater fish provide insight into its historical geodispersal and geographical isolation following Quaternary climate changes. The short ninespine stickleback, Pungitius kaibarae, is a small gasterosteid fish occurring in freshwater systems on the Korean Peninsula and in southeast Russia. On the Korean Peninsula, P. kaibarae populations are distributed in three geographically separated regions: the NE (northeast coast), SE (southeast coast), and a limited area in the ND (Nakdong River). In this study, we used mitochondrial loci and microsatellites to investigate the evolutionary history of P. kaibarae populations by assessing their pattern of genetic structure. Our analyses revealed a marked level of divergence among three regional populations, suggesting a long history of isolation following colonization, although ND individuals showed relatively higher genetic affinity to populations from SE than those from NE. The populations from NE showed a great degree of interpopulation differentiation, whereas populations from SE exhibited only weak genetic structuring. Upon robust phylogenetic analysis, P. kaibarae formed a monophyletic group with Russian P. sinensis and P. tymensis with strong node confidence values, indicating that P. kaibarae populations on the Korean Peninsula originated from the southward migration of its ancestral lineage around the middle Pleistocene.     

Population history,gene flow,and bottlenecks in island populations of a secondary seed disperser,the southern grey shrike (Lanius meridionalis koenigi)

Studying the population history and demography of organisms with important ecological roles can aid understanding of evolutionary processes at the community level and inform conservation. We screened genetic variation (mtDNA and microsatellite) across the populations of the southern grey shrike (Lanius meridionalis koenigi) in the Canary Islands, where it is an endemic subspecies and an important secondary seed disperser. We show that the Canarian subspecies is polyphyletic with L. meridionalis elegans from North Africa and that shrikes have colonized the Canary Islands from North Africa multiple times. Substantial differences in genetic diversity exist across islands, which are most likely the product of a combination of historical colonization events and recent bottlenecks. The Eastern Canary Islands had the highest overall levels of genetic diversity and have probably been most recently and/or frequently colonized from Africa. Recent or ongoing bottlenecks were detected in three of the islands and are consistent with anecdotal evidence of population declines due to human disturbance. These findings are troubling given the shrike's key ecological role in the Canary Islands, and further research is needed to understand the community‐level consequences of declines in shrike populations. Finally, we found moderate genetic differentiation among populations, which largely reflected the shrike's bottleneck history; however, a significant pattern of isolation‐by‐distance indicated that some gene flow occurs between islands. This study is a useful first step toward understanding how secondary seed dispersal operates over broad spatial scales.     

Phylogeography of the last surviving populations of Rhodian and Anatolian fallow deer (Dama dama dama L., 1758)

The European fallow deer ( Dama dama dama ) is one of the most widespread cervids, and its distribution has been heavily affected by man. At present, only one wild autochthonous population is reputed to survive in Anatolia, but its census size is dramatically decreasing. This means that a significant portion of the ancestral genetic diversity of this taxon is seriously threatened. In the present study, a portion of the mitochondrial DNA (D-loop) in 37 D. d. dama specimens from three Mediterranean sites, Turkey, the island of Rhodes (Greece), and the Italian Peninsula, and seven individuals of the Persian fallow deer, Dama dama mesopotamica , was sequenced, and the results from the data analysis are interpreted in light of current archaeozoological and biogeographical knowledge. We conclude that: (1) D. d. mesopotamica is strongly differentiated from D. d. dama , confirming the results of previous genetic studies and (2) the Rhodian populations of D. d. dama , founded by humans in Neolithic times, possess a set of mitochondrial lineages, found in no other study populations. The persistence of these haplotypes is particularly significant because human-mediated processes (e.g. domestication) usually result in genetic depletion and erosion of an ancestral genetic pool. In the case of the Rhodes' population of fallow deer, we hypothesize that, during the foundation of this population, humans unknowingly preserved a remarkable portion of the original genetic diversity of the source population(s).  © 2008 The Linnean Society of London, Biological Journal of the Linnean Society , 2008, 93 , 835–844.     

Endemic evolutionary radiation of Rhagada land snails (Pulmonata: Camaenidae) in a continental archipelago in northern Western Australia

In the Dampier Archipelago of Western Australia's Pilbara Region, several locally endemic, morphologically distinctive species of Rhagada land snails occur, contrasting with the morphologically conservative species with wider distributions on the adjacent mainland. To test alternative origins of this unusual local diversity in a continental archipelago, we examined sequences of the cytochrome oxidase subunit 1 and 16S mitochondrial genes in 22 described species and eight undescribed forms, including all known morphospecies from the Pilbara Region's Dampier Archipelago and adjacent mainland. Phylogenetic analyses consistently resolved four, deep clades within the Pilbara Region, with a mean sequence divergence of 15–18%. All but one of the species from the Dampier Archipelago formed one of the major clades, indicating that the morphological radiation in the archipelago evolved locally, rather than through multiple, relictual mainland lineages. Morphological divergence spanning almost that of the entire genus was within a subclade with sequence divergence < 4%, highlighting the disconnection between morphological diversification and levels of molecular genetic divergence. This in situ morphological radiation in the Dampier Archipelago, which transcends variation seen over much larger distances on the mainland, is unusual for a continental archipelago, and may relate to local heterogeneity of land forms. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 106 , 316–327.     

线粒体基因组:结构特点和基因含量进化

线粒体具有其自身的遗传系统——一个来自内共生的α-变形细菌祖先的基因组。线粒体基因组的生物学功能非常保守,仅涉及与线粒体有关的5个方面的过程:呼吸和氧化磷酸化、翻译、转录、RNA成熟和蛋白运输。真核生物线粒体基因含量的变化异常显著,在包括被子植物在内的各种真核生物相对频繁地发生线粒体基因丢失的同时,动物和某些植物类群的线粒体基因含量相对来说则比较稳定。tRNA基因含量的变化反映了线粒体对来自核的tRNA在使用上的差异,而蛋白基因含量的变化主要是由于功能性的基因转移到核所造成的。对线粒体基因组学领域中有关基因组起源、结构和基因含量进化方面的研究进行综述。     

Revision of Chaetodipus arenarius (Rodentia: Heteromyidae)

Chaetodipus arenarius is an endemic species of the Baja California Peninsula. It has undergone taxonomic changes in the last few years. Today, two species, C. arenarius and Chaetodipus dalquesti, are formally recognized with an unknown range for each. However, genetic analysis showed the possible presence of a third species. The objectives of this study were to use molecular data (cytochrome b and cytochrome c oxidase subunit III genes) to determine how many genetic groups are present in C. arenarius in the Baja California Peninsula; if these groups have morphological characteristics that could be used to distinguish them; if the genetic groups have limited distributions; identify taxonomic implications; and establish if there are any associations amongst genetic groups and different habitats. Bayesian inference, maximum parsimony, maximum likelihood, distance optimality criteria, and minimum spanning network indicated three monophyletic groups with high genetic differences (5.54–13.59%). These groups are morphologically diagnosable based on pelage and morphometric characters and geographical range. The three genetic groups correspond to three taxa previously described as subspecies or species. Based on our results, these should be considered to be different species: C. arenarius occupies the most extreme habitats with hot summers; C. dalquesti occupies the moistest coastal areas in the southern part of the peninsula, and Chaetodipus siccus is restricted by mountain ranges to the isolated Los Planes Basin and Cerralvo Island. © 2010 The Linnean Society of London, Zoological Journal of the Linnean Society, 2010.     

区域人群mtDNA序列聚类分析

人类mtDNA序列是遵循母系遗传的重要生物信息学资源,利用遗传算法和k-modes模型结合的聚类算法,对西安和长沙两个区域人群mtDNA序列进行聚类分析,在分子层次上阐明了西安和长沙两地区人口结构特点.发现西安地区人口是发散性分布,而长沙地区人口具有主导性类群.     

北部湾涠洲岛水域发现上颌和须板异常的布氏鲸:对保护的启示

2018年初以来,北部湾涠洲岛附近出现了布氏鲸（Balaenoptera edeni）的活动。一头上颌与须板异常的小布氏鲸个体引发热议,其视频在网络上广泛流传。我们在船只调查时,目击该个体10次,其以单独活动为主（90%）,主要出现在涠洲岛到斜阳岛之间的水域,最小凸多边形家域面积为14km2,核心家域面积为166.9km²。然而,在 2019年3月30日我们发现该个体已死亡漂浮在海面,根据尸体腐烂状况来推测,该个体的死亡时间大约为3~5日,死亡原因不明。根据照片和现场解剖分析,推测该小布氏鲸的上颌和鲸须异常可能是被渔网或绳索缠绕导致的。由于无法从外形上确认属于哪一个亚种,因此我们测定了该个体的线粒体DNA D-loop（mitochondrial DNA, mtDNA）和细胞色素b（cytochrome b, Cyt b）基因,分别得到909bp和395bp的序列,经比对和系统发育重建,发现该个体属于近岸分布的小布氏鲸亚种（Eden’s whale, B. e. edeni）。由于小布氏鲸具有一定季节迁移特性,我们无法判断造成其上颌伤害的渔网或绳索是否在中国水域。尽管如此,仍然建议当地部门应加强宣传,减少渔网等海洋垃圾的丢弃和排放,为小布氏鲸营造一个安全的栖息环境。