Gill morphology adapted to oxygen-limited caves in Astyanax mexicanus

Tyler E. Boggs, Joshua B. Gross
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Abstract

Sensing and acquiring dissolved oxygen is crucial for nearly all aquatic life. This may become even more vital as dissolved oxygen concentrations continue to decline in many aquatic environments. While certain phenotypes that enable fish to live in low oxygen have been characterized, adaptations that arise following sudden, drastic reductions in dissolved oxygen are relatively unknown. Here, we assessed the blind Mexican cavefish, Astyanax mexicanus, for alterations to gill morphology that may be adaptive for life in hypoxic caves. The Astyanax system provides the unique opportunity to compare gill morphology between stereotypical “surface” adapted morphotypes and obligate cave-dwelling conspecifics. While the surface environment is well-oxygenated, cavefish must cope with significantly reduced oxygen. We began by quantifying traditional morphological gill traits including filament number and length as well as lamellar density and height in surface fish and two distinct cave populations, Pachón and Tinaja. This enabled us to estimate total lamellar height, a proxy for gill surface area. We then used immunohistochemical staining to label 5-HT-positive neuroepithelial cells (NECs), which serve as key oxygen sensors in fish. We discovered an increase in gill surface area for both cavefish populations compared to surface, which may enable a higher capacity of oxygen acquisition. Additionally, we found more NECs in Pachón cavefish compared to both surface fish and Tinaja cavefish, suggesting certain selective pressures may be cave-specific. Collectively, this work provides evidence that cavefish have adapted to low oxygen conditions via alterations to gill morphology and oxygen sensing, and informs evolutionary mechanisms of rapid adaptation to dramatic, chronic hypoxia.

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墨西哥星鸦适应限氧洞穴的鳃形态
感知和获取溶解氧对几乎所有水生生物都至关重要。随着许多水生环境中溶解氧浓度的持续下降,这一点可能变得更加重要。虽然某些使鱼类能够在低氧环境中生活的表型已被描述,但溶解氧突然急剧下降后产生的适应性却相对未知。在这里,我们评估了墨西哥洞穴盲鱼(Astyanax mexicanus)鳃形态的改变,这种改变可能是为了适应在低氧洞穴中的生活。Astyanax系统提供了一个独特的机会来比较 "地表 "适应形态的定型个体与必须在洞穴中生活的同种个体之间的鳃形态。地表环境中氧气充足,而洞穴鱼则必须应对明显减少的氧气。我们首先量化了地表鱼类和两个不同洞穴种群(Pachón 和 Tinaja)的鳃的传统形态特征,包括鳃丝数量和长度以及鳃片密度和高度。这样,我们就能估算出鳃片的总高度,即鳃表面积。然后,我们使用免疫组化染色法标记 5-HT 阳性的神经上皮细胞(NECs),它们是鱼类的主要氧传感器。我们发现两种洞穴鱼的鳃表面积都比体表面积大,这可能使其获得更多氧气的能力更强。此外,与表层鱼类和蒂纳哈洞穴鱼类相比,我们在帕琼洞穴鱼中发现了更多的NECs,这表明某些选择性压力可能是洞穴特有的。总之,这项工作提供了洞穴鱼通过改变鳃的形态和氧气感应来适应低氧条件的证据,并为快速适应剧烈、慢性缺氧的进化机制提供了信息。
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来源期刊
Journal of experimental zoology. Part A, Ecological and integrative physiology
Journal of experimental zoology. Part A, Ecological and integrative physiology Biochemistry, Genetics and Molecular Biology-Molecular Biology
CiteScore
4.90
自引率
3.60%
发文量
0
期刊介绍: The Journal of Experimental Zoology – A publishes articles at the interface between Development, Physiology, Ecology and Evolution. Contributions that help to reveal how molecular, functional and ecological variation relate to one another are particularly welcome. The Journal publishes original research in the form of rapid communications or regular research articles, as well as perspectives and reviews on topics pertaining to the scope of the Journal. Acceptable articles are limited to studies on animals.
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