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Natural soundscapes of lowland river habitats and the potential threat of urban noise pollution to migratory fish
2024
te Velde, Kees | Mairo, Amy | Peeters, Edwin T.H.M. | Winter, Hendrik V. | Tudorache, Christian | Slabbekoorn, Hans
Migratory fish populations have experienced great declines, and considerable effort have been put into reducing stressors, such as chemical pollution and physical barriers. However, the importance of natural sounds as an information source and potential problems caused by noise pollution remain largely unexplored. The spatial distribution of sound sources and variation in propagation characteristics could provide migratory fish with acoustic cues about habitat suitability, predator presence, food availability and conspecific presence. We here investigated the relationship between natural soundscapes and local river conditions and we explored the presence of human-related sounds in these natural soundscapes. We found that 1a) natural river sound profiles vary with river scale and cross-sectional position, and that 1b) depth, width, water velocity, and distance from shore were all significant factors in explaining local soundscape variation. We also found 2a) audible human activities in almost all our underwater recordings and urban and suburban river parts had elevated sound levels relative to rural river parts. Furthermore, 2b) daytime levels were louder than night time sound levels, and bridges and nearby road traffic were much more prominent with diurnal and weekly patterns of anthropogenic noise in the river systems. We believe our data show high potential for natural soundscapes of low-land river habitat to serve as important environmental cues to migratory fish. However, anthropogenic noise may be particularly problematic due to the omnipresence, and relatively loud levels relative to the modest dynamic range of the natural sound sources, in these slow-flowing freshwater systems.
Show more [+] Less [-]Microplastics in brown trout (Salmo trutta Linnaeus, 1758) from an Irish riverine system
2020
O’Connor, James D. | Murphy, Sinéad | Lally, Heather T. | O’Connor, Ian | Nash, Róisín | O’Sullivan, John | Bruen, Michael | Heerey, Linda | Koelmans, Albert A. | Cullagh, Alan | Cullagh, Declan | Mahon, Anne Marie
Rivers play an important role in the overall transport of microplastic pollution (1 μm to 5 mm), with fluvial dynamics expected to influence biotic interactions, particularly for fish. So far, there have been few assessments of microplastics in freshwater salmonids. The prevalence (i.e. percentage occurrence) and burden (i.e. abundance per fish) of microplastics were assessed in the gastrointestinal tracts (GITs) and stomach contents (SCs) of 58 brown trout Salmo trutta Linnaeus, 1758 sampled at six sites along the River Slaney catchment in south-east Ireland. Sites were divided into two classifications (high and low exposure) based on proximity to microplastic pollution sources, comprising three sites each. Analysis of biological traits (e.g. fish length) and diet was performed on the same fish to determine possible factors explaining microplastic burden. Microplastics were found in 72% of fish having been recovered from 66% of GITs (1.88 ± 1.53 MPs fish⁻¹) and 28% of SCs (1.31 ± 0.48 MPs fish⁻¹). Fibres were the dominant particle type recovered from GITs (67%) and SCs (57%) followed by fragments. No difference in median microplastic burden was observed between fish collected in high and low exposure sites. Microplastic burden was unrelated to fish fork length, while microplastic size distribution (100 ≤ 350 μm, 350 μm to ≤ 5 mm) was unrelated to S. trutta age class estimates. Furthermore, microplastic burden was not explained by dietary intake. Though further research is necessary, this study showed the presence of microplastics in wild S. trutta collected from an Irish riverine system, which could have further implications for top-level consumers that feed on the species, including humans. Further analysis is required to determine possible trophic linkages for the species, with respect to microplastics, and to assess the suitability of S. trutta for monitoring microplastics in river systems.
Show more [+] Less [-]Pollution ecology of freshwater invertebrates
1974
Factors affecting trace-metal bioaccumulation in Finnish headwater lakes
1992
Iivonen, P. | Piepponen, S. | Verta, M. (National Board of Waters and the Environment, PO Box 250, 00101 Helsinki (Finland))
Biological indicators of freshwater pollution and environmental management
1986
Hellawell, J. M.
Biology and water pollution control
1971
Warren, Charles E. | Doudoroff, Peter
Biological aspects of freshwater pollution
1979
Ravera, O.
Effects of diazinon on some population parameters of Moina macrocopa (Cladocera)
1997
Wong, C.K. (Chinese Univ. of Hong Kong, Shatin (Hong Kong). Dept. of Biology)
Ecology of the Scorff river main aquatic macrophytes, application to bioindication (Brittany, France)
1995
Daniel, H. (Institut National de la Recherche Agronomique, Rennes (France). Centre de Rennes, Ecologie et Physiologie des Poissons) | Haury, J.
Large decadal-scale variability in freshwater critical loads calculations derived from long-term monitoring data for the UK
1999
Monteith, D.T. | Curtis, C. (University Coll., London (UK)) | Evans, C.D.