This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Southall, B.L., Scholik-Schlomer, A.R., Hatch, L., Bergmann, T., Jasny, M., Metcalf, K., Weilgart, L., Wright A.J. (2017): Underwater noise from large commercial ships—International Collaboration for Noise Reduction. In: Encyclopedia of Maritime and Offshore Engineering, John Wiley & Sons, DOI:10.1002/9781118476406.emoe056.SouthallB.L.Scholik-SchlomerA.R.HatchL.BergmannT.JasnyM.MetcalfK.WeilgartL.WrightA.J.2017Underwater noise from large commercial ships—International Collaboration for Noise ReductionIn:John Wiley & Sons10.1002/9781118476406.emoe056Open DOISearch in Google Scholar
Garrett, J.K., Blondel, P., Godley, B.J., Pikesley, S.K., Witt, M.J., Johanning, L. (2016): Long term underwater sound measurements in the shipping noise indicator bands 63 Hz and 125 Hz from the port of Falmouth Bay, UK. Marine Pollution Bulletin, 110(1), pp. 438–448, DOI:10.1016/j.marpolbul.2016.06.021.GarrettJ.K.BlondelP.GodleyB.J.PikesleyS.K.WittM.J.JohanningL.2016Long term underwater sound measurements in the shipping noise indicator bands 63 Hz and 125 Hz from the port of Falmouth Bay, UK110143844810.1016/j.marpolbul.2016.06.02127393210Open DOISearch in Google Scholar
Merchant, N.D., Blondel, P., Dakin, D.T., Dorocicz, J. (2012): Averaging underwater noise levels for environmental assessment of shipping. The Journal of the Acoustical Society of America, 132(4), pp. 343–349, DOI:10.1121/1.4754429.MerchantN.D.BlondelP.DakinD.T.DorociczJ.2012Averaging underwater noise levels for environmental assessment of shipping132434334910.1121/1.475442923039575Open DOISearch in Google Scholar
Abrahamsen, K., Norway, H. (2012): The ship as an underwater noise source. In: Proceedings of the 11th European Conference on Underwater Acoustics. Edinburgh, Scotland, 02–06 July 2012, DOI:10.1121/1.4772953.AbrahamsenK.NorwayH.2012In:Proceedings of the 11th European Conference on Underwater AcousticsEdinburgh, Scotland02–06 July 201210.1121/1.4772953Open DOISearch in Google Scholar
McKenna, M.F., Ross, D., Wiggins, S.M., Hildebrand, J.A. (2012): Underwater radiated noise from modern commercial ships. The Journal of Acoustical Society of America, 131(1), pp. 92–103, DOI:10.1121/1.3664100.McKennaM.F.RossD.WigginsS.M.HildebrandJ.A.2012Underwater radiated noise from modern commercial ships13119210310.1121/1.366410022280574Open DOISearch in Google Scholar
Bardyshev, V.I. (2008): Underwater surf noise near sea coasts of different types. Acoustical Physics, 54(6), pp. 939–948, DOI:10.1134/S1063771008060109.BardyshevV.I.2008Underwater surf noise near sea coasts of different types54693994810.1134/S1063771008060109Open DOISearch in Google Scholar
Dahl, P.H., Miller, J.H., Cato, F.H., Andrew, R.K. (2007): Underwater ambient noise. Acoustics Today, 3(1), pp. 23–33.DahlP.H.MillerJ.H.CatoF.H.AndrewR.K.2007Underwater ambient noise31233310.1121/1.2961145Search in Google Scholar
Wenz, G.M. (1962): Acoustic ambient noise in the ocean: Spectra and sources. The Journal of the Acoustical Society of America, 34(12), pp. 1936–1956, DOI:10.1121/1.1909155.WenzG.M.1962Acoustic ambient noise in the ocean: Spectra and sources34121936195610.1121/1.1909155Open DOISearch in Google Scholar
National Research Council. (2003): Committee on potential impacts of ambient noise in the ocean on marine mammals. Ocean Noise and Marine Mammals. National Academies Press: Washington.National Research Council2003Committee on potential impacts of ambient noise in the ocean on marine mammalsNational Academies PressWashingtonSearch in Google Scholar
Estabrook, B.J., Ponirakis, D.W., Clark, C.W., Rice, A.N. (2016): Widespread spatial and temporal extent of anthropogenic noise across the Northeastern Gulf of Mexico shelf ecosystem. Endangered Species Research, 30, pp. 267–282, DOI:10.3354/esr00743.EstabrookB.J.PonirakisD.W.ClarkC.W.RiceA.N.2016Widespread spatial and temporal extent of anthropogenic noise across the Northeastern Gulf of Mexico shelf ecosystem3026728210.3354/esr00743Open DOISearch in Google Scholar
Wenz, G.M. (1971): Review of underwater acoustic research: noise. The Journal of the Acoustical Society of America, 51(3B), pp. 1010–1024, DOI:10.1121/1.1912921.WenzG.M.1971Review of underwater acoustic research: noise513B1010102410.1121/1.1912921Open DOISearch in Google Scholar
Wales, S.C., Heitmeyer, R.M. (2002): An ensemble source spectra model for merchant ship-radiated noise. The Journal of the Acoustical Society of America, 111(3), pp. 1211–1231, DOI:10.1121/1.1427355.WalesS.C.HeitmeyerR.M.2002An ensemble source spectra model for merchant ship-radiated noise11131211123110.1121/1.142735511931298Open DOISearch in Google Scholar
Andrew, R.K., Howe, B.M., Mercer, J.A., Dzieciuch, M.A. (2002): Ocean ambient sound: Comparing the 1960s with the 1990s for a receiver off the California coast. Acoustics Research Letters, 3(2), pp. 65–70, DOI:10.1121/1.1461915.AndrewR.K.HoweB.M.MercerJ.A.DzieciuchM.A.2002Ocean ambient sound: Comparing the 1960s with the 1990s for a receiver off the California coast32657010.1121/1.1461915Open DOISearch in Google Scholar
McDonald, M.A., Hildebrand, J.A., Wiggins, S.M. (2006): Increases in deep ocean ambient noise in the Northeast Pacific west of San Nicolas Island, California. The Journal of the Acoustical Society of America, 120(2), pp. 711–718, DOI:10.1121/1.2216565.McDonaldM.A.HildebrandJ.A.WigginsS.M.2006Increases in deep ocean ambient noise in the Northeast Pacific west of San Nicolas Island, California120271171810.1121/1.221656516938959Open DOISearch in Google Scholar
Ross Chapman, N., Price, A. (2011): Low-frequency deep ocean ambient noise trend in the Northeast Pacific Ocean. The Journal of the Acoustical Society of America, 129(5), pp. 161–165, DOI:10.1121/1.3567084.Ross ChapmanN.PriceA.2011Low-frequency deep ocean ambient noise trend in the Northeast Pacific Ocean129516116510.1121/1.356708421568369Open DOISearch in Google Scholar
Andrew, R.K., Howe, B.M., Mercer, J.A. (2011): Long-time trends in ship traffic noise for four sites off the North American West Coast. The Journal of the Acoustical Society of America, 129(2), pp. 642–651, DOI:10.1121/1.3518770.AndrewR.K.HoweB.M.MercerJ.A.2011Long-time trends in ship traffic noise for four sites off the North American West Coast129264265110.1121/1.351877021361423Open DOISearch in Google Scholar
Miksis-Olds, J.L., Nichols S.M. (2016): Is low-frequency ocean sound increasing globally. The Journal of the Acoustical Society of America, 139(1), pp. 501–511, DOI:10.1121/1.4938237.Miksis-OldsJ.L.NicholsS.M.2016Is low-frequency ocean sound increasing globally139150151110.1121/1.493823726827043Open DOISearch in Google Scholar
United Nations (2020): Review of Maritime Transport 2019. United Nations Conference on Trade and Development, United Nations Publication, pp. 132.United Nations2020United Nations Conference on Trade and DevelopmentUnited Nations Publication132Search in Google Scholar
United Nations (2019): Handbook of Statistics 2019 – Maritime transport, United Nations Conference on Trade and Development, United Nations Publication.United Nations2019United Nations Conference on Trade and DevelopmentUnited Nations PublicationSearch in Google Scholar
Berns, S.G., Dragt, J., Van Bergen, T. (2015): Global Trends to 2030 – Impact on Port Industry. Deloitte: China.BernsS.G.DragtJ.Van BergenT.2015DeloitteChinaSearch in Google Scholar
EUROSTAT – European statistics [online]. Renewed (2/22/2021) [cited 2/25/2021]. Available on: http://ec.europa.eu/eurostat/data/database.Renewed (2/22/2021) [cited 2/25/2021]. Available on: http://ec.europa.eu/eurostat/data/database.Search in Google Scholar
Prosperetti, A. (1988): Bubble-related ambient noise in the ocean. The Journal of the Acoustical Society of America, 84(3), pp. 1024–1054, DOI:10.1121/1.396740.ProsperettiA.1988Bubble-related ambient noise in the ocean8431024105410.1121/1.396740Open DOISearch in Google Scholar
Carey, W.M., Browning, D.G. (1988): Low-frequency ocean ambient noise: Measurements and theory. In: Sea Surface Sound. Kerman, B.R. (ed.). Kluwer Academic: Dordrecht, pp. 361–376.CareyW.M.BrowningD.G.1988Low-frequency ocean ambient noise: Measurements and theoryIn:KermanB.R.(ed.).Kluwer AcademicDordrecht36137610.1007/978-94-009-3017-9_26Search in Google Scholar
Banner, M.L., Cato, D.H. (1993): Physical mechanisms of noise generation by breaking waves – a laboratory study. In: Natural Physical Sources of Underwater Sound – Sea Surface Sound (2nd Edition), Kerman, B.R. (ed.). Kluwer Academic: Dordrecht, pp. 429–436.BannerM.L.CatoD.H.1993Physical mechanisms of noise generation by breaking waves – a laboratory studyIn:2nd EditionKermanB.R.(ed.).Kluwer AcademicDordrecht42943610.1007/978-94-009-3017-9_31Search in Google Scholar
Medwin, H., Beaky, M.M. (1989): Bubble sources of the Knudsen sea noise spectra. The Journal of the Acoustical Society of America, 89, pp. 1124–1130, DOI:10.1121/1.398104.MedwinH.BeakyM.M.1989Bubble sources of the Knudsen sea noise spectra891124113010.1121/1.398104Open DOISearch in Google Scholar
Ma, B.B., Nystuen, J.A., Lien, R.C. (2005): Prediction of underwater sound levels from rain and wind. The Journal of the Acoustical Society of America, 177(6), pp. 3555–3565, DOI:10.1121/1.1910283.MaB.B.NystuenJ.A.LienR.C.2005Prediction of underwater sound levels from rain and wind17763555356510.1121/1.191028316018459Open DOISearch in Google Scholar
Marley, S.A., Salgado Kent, C.P., Erbe, C., Parnum, I.M. (2017): Effects of vessel traffic and underwater noise on the movement, behavior, and vocalizations of bottlenose dolphins in an urbanized estuary. Scientific Reports, 7(1), pp. 13437, DOI:10.1038/s41598-017-13252-z.MarleyS.A.Salgado KentC.P.ErbeC.ParnumI.M.2017Effects of vessel traffic and underwater noise on the movement, behavior, and vocalizations of bottlenose dolphins in an urbanized estuary711343710.1038/s41598-017-13252-z564736329044128Open DOISearch in Google Scholar
Knudsen, V.O., Alford, R.S., Emling, J.W. (1962): Underwater ambient noise. Journal of Marine Research, 7(3), pp. 410–429.KnudsenV.O.AlfordR.S.EmlingJ.W.1962Underwater ambient noise73410429Search in Google Scholar
Fish, M.P. (1964): Biological sources of sustained ambient sea noise. In: Marine Bio-Acoustics, Tavolga, W.N. (ed.). Pergamon: Oxford.FishM.P.1964Biological sources of sustained ambient sea noiseIn:TavolgaW.N.(ed.).PergamonOxfordSearch in Google Scholar
Cato, D.H. (1978): Marine biological choruses observed in tropical waters near Australia. The Journal of the Acoustical Society of America, 64(3), pp. 736–743, DOI:10.1121/1.382038.CatoD.H.1978Marine biological choruses observed in tropical waters near Australia64373674310.1121/1.382038Open DOISearch in Google Scholar
Au, W.W., Mobley, J., Burgess, W.C., Lammers, M.O., Nachtigall. P.E. (2000): Seasonal and diurnal trends of chorusing humpback whales wintering in waters off Western Maui. Marine Mammal Science, 16(3), pp. 530–544, DOI:10.1111/j.1748-7692.2000.tb00949.x.AuW.W.MobleyJ.BurgessW.C.LammersM.O.NachtigallP.E.2000Seasonal and diurnal trends of chorusing humpback whales wintering in waters off Western Maui16353054410.1111/j.1748-7692.2000.tb00949.xOpen DOISearch in Google Scholar
Erbe, C. (2002): Underwater noise of whale-watching boats and potential effects on killer whales (Orcinus orca), based on an acoustic impact model. Marine Mammal Science, 18(2), pp. 394–418, DOI:10.1111/j.1748-7692.2002.tb01045.x.ErbeC.2002Underwater noise of whale-watching boats and potential effects on killer whales (Orcinus orca), based on an acoustic impact model18239441810.1111/j.1748-7692.2002.tb01045.xOpen DOISearch in Google Scholar
Hallers-Tjabbes, C.C. (2007): Underwater noise from maritime sources and impact on marine life. WMU Journal of Maritime Affairs, 6(2), pp. 225–233, DOI:10.1007/BF03195117.Hallers-TjabbesC.C.2007Underwater noise from maritime sources and impact on marine life6222523310.1007/BF03195117Open DOISearch in Google Scholar
Directive of the European Parliament and of the Council (2008/56): Establishing a framework for community action in the field of marine environmental policy (Marine Strategy Framework Directive), Official Journal of the European Union, 25. 6. 2008, L164, pp. 19–40.Directive of the European Parliament and of the Council (2008/56): Establishing a framework for community action in the field of marine environmental policy (Marine Strategy Framework Directive)2562008L1641940Search in Google Scholar
IMO, MEPC.1/Circ.833 (2014): Guidelines for the reduction of underwater noise from commercial shipping to address adverse impacts on marine life. International Maritime Organization (IMO), London, pp. 6.IMO, MEPC.1/Circ.8332014International Maritime Organization (IMO)London6Search in Google Scholar
Water Act (2015): Official Gazette of the Republic of Slovenia, No. 67/2002, 57/2008, 57/2012, 100/2013, 40/2014 and 56/2015, pp. 117.Water Act2015No. 67/2002, 57/2008, 57/2012, 100/2013, 40/2014 and 56/2015,117Search in Google Scholar
Decree on the detailed content of the Marine management plan (2013): Official Gazette of the Republic of Slovenia, No. 92/2010 and 20/2013, pp. 13.Decree on the detailed content of the Marine management plan2013No. 92/2010 and 20/2013,13Search in Google Scholar
Deželak, F., Čurović, L., Jenko, J. (2015): Strokovne podlage za vzpostavitev sistema nadzora nad podvodnim hrupom v skladu z Direktivo o morski strategiji (2008/56/ES), Rezultati četrtletnih kontinuiranih meritev podvodnega hrupa na merilni postaji, Inštitut za vode Republike Slovenije, Ljubljana, pp. 22.DeželakF.ČurovićL.JenkoJ.2015Inštitut za vode Republike SlovenijeLjubljana22Search in Google Scholar
Popit, A., Zupančič, G. (2018): Brief review of the Slovenian approach to data pre-processing, data processing and presentation of noise indicator data. Quietmed Project Internal Report.PopitA.ZupančičG.2018Brief review of the Slovenian approach to data pre-processing, data processing and presentation of noise indicator dataSearch in Google Scholar
Bruel & Kjaer (2016): Hand-held analyzer types 2250, 2250-L and 2270. Instruction Manual, pp. 140.Bruel & Kjaer2016Hand-held analyzer types 2250, 2250-L and 2270140Search in Google Scholar
Robinson, S.P., Lepper, P.A., Hazelwood, R.A. (2014): Good practice guide no. 133 – Underwater noise measurement. National Physical Laboratory. pp. 95.RobinsonS.P.LepperP.A.HazelwoodR.A.2014National Physical Laboratory95Search in Google Scholar
Commission Decision laying down criteria and methodological standards on good environmental status of marine waters and specifications and standardized methods for monitoring and assessment, and repealing Decision 2010/477/EU (EC/2017/848): Official Journal of the European Union, 18. 5. 2017, L125, pp. 43–74.Commission Decision laying down criteria and methodological standards on good environmental status of marine waters and specifications and standardized methods for monitoring and assessment, and repealing Decision 2010/477/EU (EC/2017/848)1852017L1254374Search in Google Scholar
Dekeling, R., Tasker, M., Van der Graaf, S., Ainslie, M., Andersson, M., André, M., Borsani F., Brensing, K., Castellote, M., Cronin, D., Dalen, J., Folegot, T., Leaper, R., Pajala, J., Redman, P., Robinson, S., Sigray, P., Sutton, G., Thomsen, F., Werner, S., Wittekind, D., Young, J.V. (2014): Monitoring guidance for underwater noise in European Seas, Part I: Executive Summary, JRC Scientific and Policy Report, EUR 26557 EN, Publications Office of the European Union, Luxembourg, pp. 16.DekelingR.TaskerM.Van der GraafS.AinslieM.AnderssonM.AndréM.BorsaniF.BrensingK.CastelloteM.CroninD.DalenJ.FolegotT.LeaperR.PajalaJ.RedmanP.RobinsonS.SigrayP.SuttonG.ThomsenF.WernerS.WittekindD.YoungJ.V.2014Monitoring guidance for underwater noise in European Seas, Part I: Executive SummaryEUR 26557 EN,Publications Office of the European UnionLuxembourg16Search in Google Scholar
Pirc, S. (1997): Statistika v geologiji: Učni pripomoček. Univerza v Ljubljani, Naravoslovnotehniška fakulteta, Oddelek za geologijo, Ljubljana, pp. 59.PircS.1997Univerza v Ljubljani, Naravoslovnotehniška fakulteta, Oddelek za geologijoLjubljana59Search in Google Scholar
Merchant, N.D., Brookes, K.L., Faulkner, R.C., Bicknell, A.W.J., Godley, B.J., Witt, M.J. (2016): Underwater noise levels in UK waters. Scientific Reports, 6, 36942, DOI:10.1038/srep36942.MerchantN.D.BrookesK.L.FaulknerR.C.BicknellA.W.J.GodleyB.J.WittM.J.2016Underwater noise levels in UK waters63694210.1038/srep36942510326527830837Open DOISearch in Google Scholar
Kozaczka, E., Grelowska, G. (2018): Propagation of ship-generated noise in shallow sea. Polish Maritime Research, 25, pp. 37–46, DOI:10.2478/pomr-2018-0052.KozaczkaE.GrelowskaG.2018Propagation of ship-generated noise in shallow sea25374610.2478/pomr-2018-0052Open DOISearch in Google Scholar
Meyer, V., Audoly, C. (2017): A comparison between experiments and simulation for shallow water short range acoustic propagation. In: ICSV 24th, International Congress on Sound and Vibration, London, United Kingdom.MeyerV.AudolyC.2017In:ICSV 24th, International Congress on Sound and VibrationLondon, United KingdomSearch in Google Scholar
Duncan, A.J., Gavrilov, A.N., McCauley, R.D, Parnum, I.M. (2013): Characteristics of sound propagation in shallow water over an elastic seabed with a thin cap-rock layer, The Journal of the Acoustical Society of America, 134(1), pp. 207–215, DOI:10.1121/1.4809723.DuncanA.J.GavrilovA.N.McCauleyR.DParnumI.M.2013Characteristics of sound propagation in shallow water over an elastic seabed with a thin cap-rock layer134120721510.1121/1.480972323862798Open DOISearch in Google Scholar
Urick, R.J. (1983): Principles of underwater sound. 3rd edn. McGraw-Hill: New York.UrickR.J.19833rd edn.McGraw-HillNew YorkSearch in Google Scholar
Robinson, S.P., Lepper, P.A. (2013): Scoping study: Review of current knowledge of underwater noise emissions from wave and tidal stream energy devices. Technical Report, September 2013, The Crown Estate: London, pp. 71.RobinsonS.P.LepperP.A.2013Scoping study: Review of current knowledge of underwater noise emissions from wave and tidal stream energy devicesSeptember2013The Crown EstateLondon71Search in Google Scholar