龙鱼眼睛大小的性别差异是对生物发光信号缺口的反应。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-01 Epub Date: 2024-07-24 DOI:10.1098/rsbl.2024.0165
Thao Vu, Helena Ebeling, Valentina Di Santo, Christopher P Kenaley
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引用次数: 0

摘要

深海鱼类必须克服极大的近邻距离和黑暗才能找到配偶。包括龙鱼(龙鱼科)在内的许多深海类群的发光结构的大小存在性二态性,这表明生殖行为可能是由视觉信号介导的。这就出现了一个悖论:如果雄性发光体更大,雌性发现雄性的距离可能比雄性发现雌性的距离更短。解决这一差距的办法可能包括雌性缩小这一差距,或者雄性用更大的眼睛收集更多的光子。我们研究了两种龙鱼(Malacosteus niger和Phostomias guernei)的眼睛大小是否存在性二态性,并采用探测距离模型来评估这种二态性弥补探测差距的潜力。该模型结合了性二态眶后光腺的通量和眼晶状体的大小来预测探测距离。在这两个物种中,我们都发现了一个显著的视觉探测差距,即雌性发现雄性比雄性发现雌性更早,而且雄性的晶状体尺寸更大。我们的研究结果表明,较大的眼睛能显著提高雄性的探测距离。我们的结论是,这种二态表型可能是为了缩小探测距离而进化而来的。
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Sexually dimorphic eye size in dragonfishes, a response to a bioluminescent signalling gap.

Deep-sea fishes must overcome extremely large nearest-neighbour distances and darkness to find mates. Sexual dimorphism in the size of luminescent structures in many deep-sea taxa, including dragonfishes (family Stomiidae), indicates reproductive behaviours may be mediated by visual signalling. This presents a paradox: if male photophores are larger, females may find males at shorter distances than males find females. Solutions to this gap may include females closing this gap or by males gathering more photons with a larger eye. We examine the eye size of two species of dragonfishes (Malacosteus niger and Phostomias guernei) for sexual dimorphism and employ a model of detection distance to evaluate the potential for such dimorphism to bridge the detection gap. This model incorporates the flux of sexually dimorphic postorbital photophores and eye lens size to predict detection distances. In both species, we found a significant visual detection gap in which females find males before males find females and that male lens size is larger, marking the second known case of size dimorphism in the actinopterygian visual system. Our results indicate the larger eye affords males a significant improvement in detection distance. We conclude that this dimorphic phenotype may have evolved to close the detection gap.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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