The Laterosensory Canal System in Epigean and Subterranean Ituglanis (Siluriformes: Trichomycteridae), With Comments About Troglomorphism and the Phylogeny of the Genus

The laterosensory system is a mechanosensory modality involved in many aspects of fish biology and behavior. Laterosensory perception may be crucial for individual survival, especially in habitats where other sensory modalities are generally useless, such as the permanently aphotic subterranean environment. In the present study, we describe the laterosensory canal system of epigean and subterranean species of the genus Ituglanis (Siluriformes: Trichomycteridae). With seven independent colonizations of the subterranean environment in a limited geographical range coupled with a high diversity of epigean forms, the genus is an excellent model for the study of morphological specialization to hypogean life. The comparison between epigean and subterranean species reveals a trend toward reduction of the laterosensory canal system in the subterranean species, coupled with higher intraspecific variability and asymmetry. This trend is mirrored in other subterranean fishes and in species living in different confined spaces, like the interstitial environment. Therefore, we propose that the reduction of the laterosensory canal system should be regarded as a troglomorphic (= cave‐related) character for subterranean fishes. We also comment about the patterns of the laterosensory canal system in trichomycterids and use the diversity of this system among species of Ituglanis to infer phylogenetic relationships within the genus. J. Morphol. 278:4–28, 2017. ©© 2016 Wiley Periodicals,Inc.     

Length-to-weight and length-to-length ratios of six cavefish species from the Pearl River Basin,South China

Length-to-weight and length-to-length ratios were estimated for six cavefishes including Yunnanilus longibarbatus, Yunnanilus bailianensis, Yunnanilus jinxiensis, Oreonectes polystigmus, Paranemachilus pingguoensis, and Paranemachilus genilepis from the upper reaches of the Pearl River, Guangxi Province, China (between 106.26E, 23.14N and 111.42E, 24.85N). The fish were captured between May and October in 2018 and 2019 using trap nets (mesh size 7 mm) set in front of selected caves at 6:30–7:30 p.m. and were hauled out at 6:30–7:30 a.m. the next day. After removal, the fish were measured and weighed immediately to the nearest 0.1 cm and 0.1 g, respectively. The regression parameter r² was between .95 and .98. The total length-to-standard length ratios were also calculated with r² ≥ .98. This study should provide a useful reference for biological studies and biodiversity conservation of cavefish.     

An indigenous religious ritual selects for resistance to a toxicant in a livebearing fish

Human-induced environmental change can affect the evolutionary trajectory of populations. In Mexico, indigenous Zoque people annually introduce barbasco, a fish toxicant, into the Cueva del Azufre to harvest fish during a religious ceremony. Here, we investigated tolerance to barbasco in fish from sites exposed and unexposed to the ritual. We found that barbasco tolerance increases with body size and differs between the sexes. Furthermore, fish from sites exposed to the ceremony had a significantly higher tolerance. Consequently, the annual ceremony may not only affect population structure and gene flow among habitat types, but the increased tolerance in exposed fish may indicate adaptation to human cultural practices in a natural population on a very small spatial scale.     

Can Otolith Microchemistry Reveal Whether the Blind Cave Gudgeon, Milyeringa veritas (Eleotridae), is Diadromous within a Subterranean Estuary?

Synopsis The blind cavefish, Milyeringa veritas, inhabits an anchialine system, effectively a groundwater estuary, in which salinity varies between fresh and seawater at different locations and depths. Owing to the inaccessible habitat and the threatened status of the cavefish it is hard to obtain the biological information needed for their management. This paper explores the utility of otolith Sr:Ca ratio in elucidating cavefish biology. The mean Sr:Ca ratio of the water inhabited by the cavefish is correlated with both the TDS (total dissolved solids) of the habitat and with the Sr:Ca ratio of the sagittal otolith of the cavefish inhabiting that site. Mean values of Sr:Ca in otoliths suggest some cavefish inhabit sea or brackish waters while others remain in freshwater. Some individuals appear to move between waters of very different TDS at various stages but there is no consistency in the direction or apparent TDS range of the water bodies inhabited which indicates that the cavefish utilise the different water bodies opportunistically. Residual analyses indicate clear and routine changes in the TDS of the water occupied at various phases of growth, irrespective of the TDS at which the cavefish were sampled. Annular markings are present in some otoliths but they cannot be related to likely periodicities in the subterranean environment.     

A supernumerary “B-sex” chromosome drives male sex determination in the Pachón cavefish,Astyanax mexicanus

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多斑岭鳅嗅觉器官表面超微结构及其形态适应

多斑岭鳅(Oreonectes polystigmus)是营洞穴生活的鱼类,嗅觉器官在其生活中发挥了重要作用。本文对保藏于中国科学院动物研究所鱼类标本馆的4尾多斑岭鳅标本进行解剖,利用扫描电镜观察多斑岭鳅嗅囊上皮超微结构,以期了解嗅觉器官适应洞穴黑暗环境而产生的形态适应。多斑岭鳅的嗅囊呈椭圆型,嗅囊长径平均为2.27 mm,嗅囊长径与眼径比平均为1.36,揭示其为"嗅觉"鱼类。其嗅轴为直线型,嗅囊腔内对称紧密排列2排嗅板,嗅板数为22~24个。单个嗅板呈卜状亚型,舌状突起较发达。观察发现,非感觉纤毛连续广布在嗅板各个部位,但在嗅板近嗅轴处较少,此处裸露的表皮多褶皱,其上分布很多细微小孔。感觉纤毛主要分布于非感觉纤毛分布较稀疏的地方。上皮表面微绒毛多,一般在非感觉纤毛下,前后两端嗅板上的微绒毛数量相对较少。多斑岭鳅嗅囊水动力机制应属嗅上皮纤毛运动机制。嗅孔分布不均,中间嗅板上的嗅孔较嗅轴前、后分布的嗅板为多,同一嗅板上近嗅轴处的嗅孔最多。由于纤毛分布不均,嗅上皮可分为裸露区和非裸露区,一般裸露区和非裸露区边界清晰,嗅轴上非感觉纤毛和微绒毛主要分布在非裸露区的凹槽里。嗅轴和嗅板近嗅轴处裸露区面积较大,嗅轴裸露区上皮被一系列的连续的微脊切割成多边形,多边形内具有许多隆起与小孔。嗅轴处正是嗅囊中水流回流的区域,为感受水中气味的重要位置,推测与洞穴生活的习性有密切关系。多斑岭鳅嗅囊形态属于G型,这类鱼类其嗅觉功能在鱼类生命活动中发挥了重要作用。同近缘的地表种相比,多斑岭鳅具有较多的嗅板数目、较多数量感觉纤毛和微绒毛,且其嗅囊长径与眼球径比值大于1,这些都揭示了其为"嗅觉"鱼类,表现出了对洞穴黑暗环境的适应。