PNNL

Abstract

Hydropower capacity is to be developed by 73% globally. This great development poses severe threats to the aquatic diversity and ecosystems services. Downstream passage of fish through turbines and the entrance at the draft tube are important impacts affecting the fish diversity. During such events, fish suffer rapid decompression, which can lead to barotrauma and mortality. Despite the magnitude of mortality events, data to understand barotrauma on fish is scarce and largely focused in salmonids. This study aimed to evaluate the effects of rapid decompression on the Amazonian benthic species Pimelodus pictus, simulated in hypo-hyperbaric chambers. All fish were negatively buoyant throughout the experiments, hindering the calculation of the ratio of pressure change and posing challenges to data analysis. Instead, the pressure of neutral buoyancy and time to decompression were used to establish the likelihood of barotrauma. The most frequent injuries in P. pictus were swim bladder rupture, intestine rupture, internal hemorrhage and embolism. The occurrence and magnitude of those injuries were related to the pressure of neutral buoyancy, pressure variation and time to decompression. Barotrauma studies with benthic fish species deemed to be challenging and are likely to require the use of complementary approaches on such species.