Bruce Cathers scite author profile

Bruce Cathers

4Publications

46Citation Statements Received

80Citation Statements Given

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101

Affiliations

UNSW Sydney, Manly Hospital

Publications

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Predicting hydraulic structure-induced barotrauma in Australian fish species

Pflugrath

Boys

Cathers

2018

Mar. Freshwater Res.

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When fish pass downstream through river infrastructure, such as dams and weirs, barotrauma may occur as a result of rapid decompression. In severe cases, barotrauma may lead to mortality. Different species are likely to respond differently to these decompressions. Therefore, to predict barotrauma for a specific species, surrogate species may not be a valid approach, and it may be necessary to examine each species individually. For the present study, Australian bass and carp gudgeon were exposed to a range of rapid decompressions using hyper- and hypobaric hydro-chambers and examined for injuries and mortality. Rapid decompression data from these two fish species, in addition to previously examined Murray cod and silver perch, were evaluated to determine which injuries were highly associated with and likely to predict mortality. Dose–response logistic regression models were developed for each species to predict injury and mortality over a range of rapid decompressions. These models are valuable for estimating injury and mortality rates for fish passing though river infrastructure and can be applied to specific sites where pressure profiles have been developed. Applying these models to current and future infrastructure can provide important insight into what measures or design alterations may be necessary to reduce negative effects of infrastructure on fish populations.

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Proactive management of estuarine algal blooms using an automated monitoring buoy coupled with an artificial neural network

Coad¹,

Cathers

Ball

et al. 2014

Environmental Modelling & Software

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Over or under? Autonomous sensor fish reveals why overshot weirs may be safer than undershot weirs for fish passage

Pflugrath

Boys

Cathers

et al. 2019

Ecological Engineering

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Many riverine fish species disperse downstream as eggs, juveniles, or adults, which can expose them to injury and death at hydraulic structures. Low-head weirs are one example of a structure that can kill fish, and this impact has been shown to be substantially higher for undershot weirs when compared to overshot weirs. In this study, autonomous sensor devices were released at an overshot and undershot weir under similar discharges to assess what stressors maybe contributing to differences in the survival rates of fish. Although the undershot weir was more likely to expose fish to rapid decompression, the intensity of decompression was mild and it is more likely that higher levels of fluid shear at the undershot are more damaging to early life stage and small-bodied fish. Both weirs showed potential for strike, but this could be managed through improvements in design.

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Marine Outfalls

Tate

Scaturro

Cathers

2016

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Bruce Cathers

Predicting hydraulic structure-induced barotrauma in Australian fish species

Proactive management of estuarine algal blooms using an automated monitoring buoy coupled with an artificial neural network

Over or under? Autonomous sensor fish reveals why overshot weirs may be safer than undershot weirs for fish passage

Marine Outfalls

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