Turbidity and sedimentation increased by 146% and 240% during dredging.
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Daily light integrals were reduced to 0.3–0.4 × baseline levels during dredging.
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Both increases and decreases in taxa abundances reported after dredging.
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Sponge, gorgonian and hard coral populations remained stable through dredging.
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Environmental filtering during pre-dredging may have benefited these communities.
Abstract
Changes in turbidity, sedimentation and light over a two year large scale capital dredging program at Onslow, northwestern Australia, were quantified to assess their effects on filter feeder communities, in particular sponges. Community functional morphological composition was quantified using towed video surveys, while dive surveys allowed for assessments of species composition and chlorophyll content. Onslow is relatively diverse recording 150 sponge species. The area was naturally turbid (1.1 mean P80 NTU), with inshore sites recording 6.5 × higher turbidity than offshore localities, likely influenced by the Ashburton River discharge. Turbidity and sedimentation increased by up to 146% and 240% through dredging respectively, with corresponding decreases in light levels. The effects of dredging was variable, and despite existing caveats (i.e. bleaching event and passing of a cyclone), the persistence of sponges and the absence of a pronounced response post-dredging suggest environmental filtering or passive adaptation acquired pre-dredging may have benefited these communities.