TY - JOUR TI - Characterization of the Natural Soundscape of Zebrafish and Comparison with the Captive Noise Conditions AU - Lara, Rafael A. AU - Vasconcelos, Raquel O. T2 - Zebrafish AB - Zebrafish is a well-established model organism in hearing research. Although the acoustic environment is known to shape the structure and sensitivity of auditory systems, there is no information on the natural soundscape of this species. Moreover, zebrafish are typically reared in large-scale housing systems (HS), although their acoustic properties and potential effects on hearing remain unknown. We characterized the soundscape of both zebrafish natural habitats and laboratory captive conditions, and discussed possible impact on auditory sensitivity. Sound recordings were conducted in five distinct zebrafish habitats (Southwest India), from quieter stagnant environments with diverse biological/abiotic sounds to louder watercourses characterized by current and moving substrate sounds. Sound pressure level (SPL) varied between 98 and 126 dB re 1 μPa. Sound spectra presented most energy below 3000 Hz and quieter noise windows were found in the noisiest habitats matching the species best hearing range. Contrastingly, recordings from three zebrafish HS revealed higher SPL (122-143 dB) and most energy below 1000 Hz with more spectral peaks, which might cause significant auditory masking. This study establishes an important ground for future research on the adaptation of zebrafish auditory system to the natural soundscapes, and highlights the importance of controlling noise conditions in captivity. DA - 2019/04// PY - 2019 DO - 10.1089/zeb.2018.1654 DP - PubMed VL - 16 IS - 2 SP - 152 EP - 164 J2 - Zebrafish LA - eng SN - 1557-8542 KW - Animals KW - Animals, Laboratory KW - Auditory Threshold KW - Batrachoidiformes KW - Ecosystem KW - Environment KW - Female KW - Hair Cells, Auditory KW - Hearing KW - Housing, Animal KW - India KW - Male KW - Neuronal Plasticity KW - Noise KW - Saccule and Utricle KW - Seasons KW - Sexual Behavior, Animal KW - Sound KW - Species Specificity KW - Vocalization, Animal KW - Zebrafish KW - ambient noise KW - hearing sensitivity KW - natural habitat KW - sound pressure level KW - soundscape ER - TY - JOUR TI - Impact of noise on development, physiological stress and behavioural patterns in larval zebrafish AU - Lara, Rafael A. AU - Vasconcelos, Raquel O. T2 - Scientific Reports AB - Noise pollution is increasingly present in aquatic ecosystems, causing detrimental effects on growth, physiology and behaviour of organisms. However, limited information exists on how this stressor affects animals in early ontogeny, a critical period for development and establishment of phenotypic traits. We tested the effects of chronic noise exposure to increasing levels (130 and 150 dB re 1 μPa, continuous white noise) and different temporal regimes on larval zebrafish (Danio rerio), an important vertebrate model in ecotoxicology. The acoustic treatments did not affect general development or hatching but higher noise levels led to increased mortality. The cardiac rate, yolk sac consumption and cortisol levels increased significantly with increasing noise level at both 3 and 5 dpf (days post fertilization). Variation in noise temporal patterns (different random noise periods to simulate shipping activity) suggested that the time regime is more important than the total duration of noise exposure to down-regulate physiological stress. Moreover, 5 dpf larvae exposed to 150 dB continuous noise displayed increased dark avoidance in anxiety-related dark/light preference test and impaired spontaneous alternation behaviour. We provide first evidence of noise-induced physiological stress and behavioural disturbance in larval zebrafish, showing that both noise amplitude and timing negatively impact key developmental endpoints in early ontogeny. DA - 2021/03/23/ PY - 2021 DO - 10.1038/s41598-021-85296-1 DP - www.nature.com VL - 11 IS - 1 SP - 6615 J2 - Sci Rep LA - en SN - 2045-2322 UR - https://www.nature.com/articles/s41598-021-85296-1 Y2 - 2022/09/21/08:12:05 KW - Embryology KW - Environmental impact KW - Freshwater ecology ER - TY - JOUR TI - Noise-induced hearing loss correlates with inner ear hair cell decrease in larval zebrafish AU - Lara, Rafael A. AU - Breitzler, Lukas AU - Lau, Ieng Hou AU - Gordillo-Martinez, Flora AU - Chen, Fangyi AU - Fonseca, Paulo J. AU - Bass, Andrew H. AU - Vasconcelos, Raquel O. T2 - Journal of Experimental Biology AB - Anthropogenic noise can be hazardous for the auditory system and wellbeing of animals, including humans. However, very limited information is known on how this global environmental pollutant affects auditory function and inner ear sensory receptors in early ontogeny. The zebrafish (Danio rerio) is a valuable model in hearing research, including investigations of developmental processes of the vertebrate inner ear. We tested the effects of chronic exposure to white noise in larval zebrafish on inner ear saccular sensitivity and morphology at 3 and 5 days post-fertilization (dpf), as well as on auditory-evoked swimming responses using the prepulse inhibition (PPI) paradigm at 5 dpf. Noise-exposed larvae showed a significant increase in microphonic potential thresholds at low frequencies, 100 and 200 Hz, while the PPI revealed a hypersensitization effect and a similar threshold shift at 200 Hz. Auditory sensitivity changes were accompanied by a decrease in saccular hair cell number and epithelium area. In aggregate, the results reveal noise-induced effects on inner ear structure–function in a larval fish paralleled by a decrease in auditory-evoked sensorimotor responses. More broadly, this study highlights the importance of investigating the impact of environmental noise on early development of sensory and behavioural responsiveness to acoustic stimuli. DA - 2022/04/06/ PY - 2022 DO - 10.1242/jeb.243743 DP - Silverchair VL - 225 IS - 7 SP - jeb243743 J2 - Journal of Experimental Biology SN - 0022-0949 UR - https://doi.org/10.1242/jeb.243743 Y2 - 2022/09/21/08:11:47 ER -