{"refrec":{"BRefID":344519,"RR":"<b>Tiano, J.C.; De Borger, E.; O'Flynn, S.; Cheng, C.; van Oevelen, D.; Soetaert, K.</b> (2021). Physical and electrical disturbance experiments uncover potential bottom fishing impacts on benthic ecosystem functioning. <i>J. Exp. Mar. Biol. Ecol. 545</i>: 151628. <a href=\"https://dx.doi.org/10.1016/j.jembe.2021.151628\" target=\"_blank\">https://dx.doi.org/10.1016/j.jembe.2021.151628</a>","BEntID":341154,"PublicFlag":1,"CheckedFlag":0,"wosflag":1,"vabbflag":0,"RefStringPartII":". <i>J. Exp. Mar. Biol. Ecol. 545</i>: 151628. <a href=\"https://dx.doi.org/10.1016/j.jembe.2021.151628\" target=\"_blank\">https://dx.doi.org/10.1016/j.jembe.2021.151628</a>","DocTypID":8,"DocType":"Journal article","MarineFlag":1,"FreshFlag":0,"BrackishFlag":0,"TerrestrialFlag":0,"Authorstring":"Tiano, J.C.; De Borger, E.; O'Flynn, S.; Cheng, C.; van Oevelen, D.; Soetaert, K.","OrigTitleTranslFlag":0,"Authorstringtrunc":"Tiano, J.C. <i>et al.</i>","Englishabstract":"<p>    Both physical and electrical impacts have been linked to North Sea    fisheries activity. This study evaluates how these effects can influence    marine ecological functioning by assessing their consequences on    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/benthic-pelagic-coupling\"        title=\"Learn more about benthic pelagic coupling from ScienceDirect's AI-generated Topic Pages\"    >        benthic pelagic coupling    </a>    . Experiments were conducted on sediment    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/microcosm\"        title=\"Learn more about microcosms from ScienceDirect's AI-generated Topic Pages\"    >        microcosms    </a>    taken from 9 North Sea and 2 Eastern Scheldt locations. Samples were    subjected to    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/physical-disturbance\"        title=\"Learn more about physical disturbances from ScienceDirect's AI-generated Topic Pages\"    >        physical disturbances    </a>    by mechanically stirring the sediment surface or electrical stimulation    with exposure to high frequency pulsed bipolar or direct currents.Electrical exposure times of 3 and 120-s were used to simulate    <em>in situ</em> exposure times related to sole (    <em>        <a            href=\"https://www.sciencedirect.com/topics/agricultural-and-biological-sciences/solea-solea\"            title=\"Learn more about Solea solea from ScienceDirect's AI-generated Topic Pages\"        >            Solea solea        </a>    </em>    ) and    <a        href=\"https://www.sciencedirect.com/topics/agricultural-and-biological-sciences/razor-clam\"        title=\"Learn more about razor clam from ScienceDirect's AI-generated Topic Pages\"    >        razor clam    </a>    (<em>Ensis spp.</em>) electric fisheries respectively. Water column oxygen    rapidly declined after sediment    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/resuspension\"        title=\"Learn more about resuspension from ScienceDirect's AI-generated Topic Pages\"    >        resuspension    </a>, inducing an immediate uptake ranging from 0.55 to 22 mmol oxygen per m    <sup>−2</sup> of sediment disturbed. Mechanical disturbances released the    equivalent of up to 94 and 101 h of natural ammonium and silicate    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/efflux\"        title=\"Learn more about effluxes from ScienceDirect's AI-generated Topic Pages\"    >        effluxes    </a>    respectively. Fresh organic material significantly predicted the magnitude    of mechanical-induced oxygen, ammonium, phosphate and silicate changes. No    biogeochemical effects from bipolar (3 s or 120 s) or 3-s direct current    exposures were detected. However, significant changes were induced by 120-s    exposures to direct currents due to    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/electrolysis\"        title=\"Learn more about electrolysis from ScienceDirect's AI-generated Topic Pages\"    >        electrolysis    </a>    and ionic drift. This lowered the water column pH by 1–1.3 units and caused    the appearance of    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/iron-oxides\"        title=\"Learn more about iron oxides from ScienceDirect's AI-generated Topic Pages\"    >        iron oxides    </a>    on the sediment surface, resulting in the equivalent of 25–28 h of    sedimentary    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/phosphate-removal\"        title=\"Learn more about phosphate removal from ScienceDirect's AI-generated Topic Pages\"    >        phosphate removal    </a>    . Our findings demonstrate that prolonged (+1 min) exposure to high    frequency pulsed direct currents can cause electrochemical effects in the    marine environment, with implications for phosphorus cycling. Nevertheless,    bi-directional pulsed currents used in    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/flatfish\"        title=\"Learn more about flatfish from ScienceDirect's AI-generated Topic Pages\"    >        flatfish    </a>    pulse trawling and AC waveforms featured in <em>Ensis</em>    <a        href=\"https://www.sciencedirect.com/topics/earth-and-planetary-sciences/electrofishing\"        title=\"Learn more about electrofishing from ScienceDirect's AI-generated Topic Pages\"    >        electrofishing    </a>    , seem to severely limit these effects. Mechanical disturbance, on the    other hand, causes a much greater effect on benthic pelagic coupling, the    extent of which depends on sediment grain size, organic matter content, and    the time of the year when the impact occurs.</p>","AbstractOtherLang":null,"BibLvlCode":"AS","StandardTitle":"Physical and electrical disturbance experiments uncover potential bottom fishing impacts on benthic ecosystem functioning","OrigTitleLangCode":"en","OrigTitleLangCodeExtended":"eng","OrigTitleLangID":15,"DateLastModified":{"date":"2026-05-02 01:33:19.498738","timezone_type":1,"timezone":"+02:00"},"UserAccessRight":null,"UserAccID":null,"AuthorKeywords":"Electrolysis; Resuspension; Biogeochemistry; Ecosystem functioning; Oxygen dynamics; Bottom trawling","OtherDescriptors":null,"Notes":null,"AnaPub":2021,"MonPub":null,"DateUpdate":"2022-05-12","DateCreate":"2021-09-06","SecASFANote":null,"ConfID":null,"PeerRev":1,"VlizCoreFlag":1,"WoScode":"WOS:000703467700003","VABBcode":null,"OpenAcc":1,"DOI":"10.1016/j.jembe.2021.151628"},"refs":null,"anarec":{"AnaID":344519,"PubliDate":2021,"Pagination":"151628","XtraPublOfAnaID":null,"ISBN":null,"Volume":"545","Issue":null,"BRefMon":null,"BRefMonRR":null,"BRefXtra":null,"BRefXtraRR":null,"SerBRefID":43229,"SerRR":"Journal of Experimental Marine Biology and Ecology. 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