Exploring tropical freshwater soundscapes in Southeast Asia: insights into auditory sensory adaptation of wild Siamese fighting fish Betta splendens

Andreia Ramos, David Goncalves, Raquel O. Vasconcelos
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Abstract

While soundscapes shape the structure and function of auditory systems over evolutionary timescales, there is limited information regarding the adaptation of wild fish populations to their natural acoustic environments. This is particularly relevant for freshwater ecosystems, which are extremely diverse and face escalating pressures from human activities and associated noise pollution. The Siamese fighting fish Betta splendens is one of the most important cultured species in the global ornamental fish market and is increasingly recognized as a model organism for genetics and behavioural studies. This air-breathing species (Anabantoidei), characterized by the presence of a suprabranchial labyrinth organ, is native to Southeast Asia and inhabits low flow freshwater ecosystems that are increasingly threatened due to habitat destruction and pollution. We characterized the underwater soundscape, along with various ecological parameters, across five marshland habitats of B. splendens, from lentic waterbodies to small canals near a lake in Chiang Rai province (Thailand). All habitats exhibited common traits of low dissolved oxygen and dense herbaceous vegetation. Soundscapes were relatively quiet with Sound Pressure Level (SPL) around 102-105 dB re 1 uPa and most spectral energy below 1000 Hz. Sound recordings captured diverse biological sounds, including potential fish vocalizations, but primarily insect sounds. Based on Auditory Evoked Potential (AEP) recordings, we identified sex-specific differences and a best hearing range within 100-400 Hz. This low-frequency tuning highlights the potential susceptibility of B. splendens to anthropogenic noise activities. This study provides first characterization of the auditory sensitivity and natural soundscape of B. splendens, establishing an important ground for future hearing research in this species. The information provided on the auditory sensory adaptation of B. splendens emphasizes the importance of preserving quiet soundscapes from lentic freshwater ecosystems.
探索东南亚的热带淡水声景:野生暹罗斗鱼 Betta splendens 的听觉适应性研究
虽然声景在进化过程中塑造了听觉系统的结构和功能,但有关野生鱼类种群对其自然声学环境的适应性的信息却很有限。这与淡水生态系统尤其相关,因为淡水生态系统极其多样,而且面临着人类活动和相关噪声污染不断升级的压力。暹罗斗鱼(Betta splendens)是全球观赏鱼市场上最重要的养殖鱼种之一,越来越被视为遗传学和行为学研究的模式生物。这种呼吸空气的鱼类(Anabantoidei)的特点是有一个超支迷宫器官,原产于东南亚,栖息在低流量淡水生态系统中,由于栖息地遭到破坏和污染,该生态系统正日益受到威胁。我们对白芨的五个沼泽栖息地的水下声景以及各种生态参数进行了描述,这些栖息地包括清莱府(泰国)的一个湖泊附近的透水性水体和小运河。所有栖息地都表现出溶解氧低和草本植物茂密的共同特征。声景相对安静,声压级 (SPL) 约为 102-105 dB re 1 uPa,大部分频谱能量低于 1000 Hz。声音记录捕捉到了各种生物的声音,包括潜在的鱼类发声,但主要是昆虫的声音。根据听觉诱发电位(AEP)记录,我们确定了性别差异和 100-400 Hz 的最佳听力范围。这种低频调谐突显了白芨对人为噪声活动的潜在易感性。这项研究首次描述了白芨的听觉灵敏度和自然声景,为该物种未来的听觉研究奠定了重要基础。有关白芨听觉适应性的信息强调了保护淡水湖泊生态系统安静声景的重要性。
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