Potamodromous fish movements under multiple stressors: Connectivity reduction and oxygen depletion

Potamodromous fish movements under multiple stressors: Connectivity reduction and oxygen depletion

Rivers are impacted by multiple stressors that can interact to create synergistic, additive or antagonistic effects, but experimental studies on fish encompassing more than one stressor are seldom found. Thus, there is the need to study stressors through multifactorial approaches that analyse the im...

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Bibliographic Details
Published in:The Science of the total environment Vol. 572; pp. 520 - 525
Main Authors: Branco, Paulo, Santos, José M., Amaral, Susana, Romão, Filipe, Pinheiro, António N., Ferreira, Maria T.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-12-2016
Subjects:
Anaerobiosis
Animal Migration
Animals
Cyprinidae - physiology
Luciobarbus
Mediterranean systems
Multifactorial experiments
Multiple stressors
Oxygen - analysis
Oxygen depletion
Potamodromous fish
Rivers - chemistry
Stress, Physiological
Water abstraction
MED
Multiple stressors
Oxygen depletion
Multifactorial experiments
Potamodromous fish
Mediterranean systems
Water abstraction
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Summary:Rivers are impacted by multiple stressors that can interact to create synergistic, additive or antagonistic effects, but experimental studies on fish encompassing more than one stressor are seldom found. Thus, there is the need to study stressors through multifactorial approaches that analyse the impact of fish exposure to multiple stressors and evaluate fish sensitivity to stressor combinations. Some of the most common impacts to Mediterranean rivers are of two natures: i) water abstraction and ii) diffuse pollution. Therefore, the present study aims at studying the responses of potamodromous fish facing combinations of: 1) a primary stressor (two levels of connectivity reduction due to water scarcity), and 2) a secondary stressor (three levels of oxygen depletion due to increase organic load – of anthropogenic nature). Schools of five wild fish from a cyprinid species (Luciobarbus bocagei) were placed in a flume, equipped with see-through sidewalls to allow for behavioural analysis, and subjected to different combinations of the stressors. Results show that at the unconnected level the primary stressor (lack of connectivity) overrode the effect of the secondary stressor (oxygen depletion), but when connectivity existed oxygen depletion caused a reduction of fish movements with decreasing oxygen concentrations. This multifactorial study contributes to improved prediction of fish responses upon actual or projected pressure scenarios. [Display omitted] •Both stressors and their interactions impact fish movements.•Lack of connectivity overrode the impact of oxygen depletion.•During connectivity fish movements decreased with decreasing oxygen concentration.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2016.08.070