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Monitoring benthic plumes, sediment redeposition and seafloor imprints caused by deep-sea polymetallic nodule mining. <i>Nature Comm. 16(1)</i>: 1229. <a href=\"https://dx.doi.org/10.1038/s41467-025-56311-0\" target=\"_blank\">https://dx.doi.org/10.1038/s41467-025-56311-0</a>","AutID":409045,"MonDate":null,"AnaDate":2025,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":367649,"RR":"<b>Urban, P.; Veloso-Alarcón, M.E.; Greinert, J.</b> (2023). Echo grid integration: a novel method for preprocessing multibeam water column data to quantify underwater gas bubble emissions. <i>Limnol. Oceanogr., Methods 21(7)</i>: 377-400. <a href=\"https://dx.doi.org/10.1002/lom3.10552\" target=\"_blank\">https://dx.doi.org/10.1002/lom3.10552</a>","AutID":409045,"MonDate":null,"AnaDate":2023,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":361793,"RR":"<b>Veloso-Alarcón, M.E.; Urban, P.; Weiss, T.; Köser, K.; She, M.; Greinert, J.</b> (2022). Quantitatively monitoring bubble-flow at a seep site offshore Oregon: field trials and methodological advances for parallel optical and hydroacoustical measurements. <i>Front. Earth Sci. 10</i>: 858992. <a href=\"https://dx.doi.org/10.3389/feart.2022.858992\" target=\"_blank\">https://dx.doi.org/10.3389/feart.2022.858992</a>","AutID":409045,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":310382,"RR":"<b>Veloso, M.; Greinert, J.; Mienert, J.; De Batist, M.</b> (2019). Corrigendum: A new methodology for quantifying bubble flow rates in deep water using splitbeam echosounders: Examples from the Arctic offshore NW-Svalbard. <i>Limnol. Oceanogr., Methods 17(2)</i>: 177-178. <a href=\"https://dx.doi.org/10.1002/lom3.10313\" target=\"_blank\">https://dx.doi.org/10.1002/lom3.10313</a>","AutID":373142,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":323013,"RR":"<b>Veloso‐Alarcón, M.E.; Janson, P.; De Batist, M.; Minshull, T.A.; Westbrook, G.K.; Pälike, H.; Bünz, S.; Wright, I.; Greinert, J.</b> (2019). Variability of acoustically evidenced methane bubble emissions offshore western Svalbard. <i>Geophys. Res. Lett. 46(15)</i>: 9072-9081. <a href=\"https://dx.doi.org/10.1029/2019GL082750\" target=\"_blank\">https://dx.doi.org/10.1029/2019GL082750</a>","AutID":409045,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":248970,"RR":"<b>Veloso, M.; Greinert, J.; Mienert, J.; De Batist, M.</b> (2015). A new methodology for quantifying bubble flow rates in deep water using splitbeam echosounders: Examples from the Arctic offshore NW-Svalbard. <i>Limnol. Oceanogr., Methods 13(6)</i>: 267-287. <a href=\"http://dx.doi.org/10.1002/lom3.10024\" target=\"_blank\">dx.doi.org/10.1002/lom3.10024</a>","AutID":199584,"MonDate":null,"AnaDate":2015,"PeerRev":1,"outputType":"1_A1","OpenAcc":1}],"PeerRevRef":[{"BRefID":244464,"RR":"<b>Veloso, M.; Mienert, J.; De Batist, M.; Greinert , J.</b> (2014). Methane flux estimation of a large seep area offshore Svalbard based on visual observations and inverse hydroacoustic modeling. <i>Geophys. Res. Abstr. 16(EGU2014-13130-2)</i>","AutID":191489,"MonDate":null,"AnaDate":2014,"PeerRev":1,"outputType":"2_PeerRevRef","OpenAcc":1}]},"urls":[{"URL":"https://orcid.org/0000-0002-9650-9471","externalID":"0000-0002-9650-9471","URLTypeCode":"ORCID","URLType":"ORCID"}],"spcols":null,"thesterms":null,"taxterms":null,"pub":1,"newses":{"SesID":57731,"LoginName":"VLIZ2000\\ruthv","LoginID":79,"DD":"2012-08-08"},"updses":{"SesID":111148,"LoginName":"VLIZ2000\\zohrab","LoginID":435,"DD":"2023-05-10"},"urlmaps":[],"resmessage":"no id specified","complete":1}