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Adverse Effects of Crushed Seafloor Massive Sulphide Deposits on the Boreal Deep-Sea Sponge Geodia barretti Bowerbank, 1858 and its Associated Fauna

Adverse Effects of Crushed Seafloor Massive Sulphide Deposits on the Boreal Deep-Sea Sponge Geodia barretti Bowerbank, 1858 and its Associated Fauna

Full Title: Adverse Effects of Crushed Seafloor Massive Sulphide Deposits on the Boreal Deep-Sea Sponge Geodia barretti Bowerbank, 1858 and its Associated Fauna
Author(s): Erik Wurz, Linn M.Brekke Olsen, Kathrin Busch, Tone Ulvatn, Hans T. Rapp, Ronald Osinga, and Albertinka J. Murk
Publisher(s): Elsevier
Publication Date: May 17, 2024
Full Text: Download Resource
Description (excerpt):

Abundant mineral resources in the deep sea are prospected for mining for the global metal market. Seafloor massive sulphide (SMS) deposits along the Mid-Atlantic Ridge are one of the potential sources for these metals. The extraction of SMS deposits will expose adjacent marine ecosystems to suspended particle plumes charged with elevated concentrations of heavy metals and other potentially toxic compounds. Up to date there is no information about the impact of mining activities on deep-sea benthic ecosystems such as abundant deep-sea sponge grounds in the North Atlantic Ocean. Sponge grounds play a major role in benthic-pelagic coupling and represent an important habitat for a diversity of vertebrates, invertebrates and microorganisms.

To simulate the effects of mining plumes on benthic life in the deep sea, we exposed Geodia barretti, a dominant sponge species in the North Atlantic Ocean, and an associated brittle star species from the genus Ophiura spp. to a field-relevant concentration of 30 mg L−1 suspended particles of crushed SMS deposits. Three weeks of exposure to suspended particles of crushed SMS resulted in a tenfold higher rate of tissue necrosis in sponges. All brittle stars in the experiment perished within ten days of exposure. SMS particles were evidently accumulated in the sponge’s mesohyl and concentrations of iron and copper were 10 times elevated in SMS exposed individuals. Oxygen consumption and clearance rates were significantly retarded after the exposure to SMS particles, hampering the physiological performance of G. barretti. These adverse effects of crushed SMS deposits on G. barretti and its associated brittle star species potentially cascade in disruptions of benthic-pelagic coupling processes in the deep sea.

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