Derleme
BibTex RIS Kaynak Göster
Yıl 2018, , 148 - 161, 01.10.2018
https://doi.org/10.3153/AR18017

Öz

Kaynakça

  • André, M., Solé, M., Lenoir, M., Durfort, M., Quero, C., Mas, A., Lombarte, A., van der Shaar, M., López-Bejar, M., Morell M., Zaugg S., Houégnian, L. (2011). Low-frequency sounds induce acoustic trauma in cephalopods. Frontiers in Ecology and the Environment, 10, 18-28.
  • Andrew, R.K., Howe, B.M., Mercer, J.A. (2002). Ocean ambient sound: Comparing the 1960s with the 1990s for a receiver off the California coast. Acoustics Research Letters Online, 3, 65-70.
  • Bart, A., Clark, J., Young, J., Zohar, Y. (2001). Underwater ambient noise measurements in aquaculture systems: a survey. Aquacultural Engineering, 25(2), 99-110.
  • Barton, B.A., Schreck, C.B., Fowler, L.G. (1988). Fasting and diet content affect stress-induced changes in plasma glucose and cortisol in juvenile chinook salmon. Progressive Fish-Culturist, 50, 16-22.
  • Bailey, H., Senior, B., Simmons, D., Rusin, J., Picken, G., Thompson, P.M. (2010). Assessing underwater noise levels during pile-driving at an offshore windfarm and its potential effects on marine mammals. Marine Pollution Bulletin, 60, 888-897.Blackwell, S.B.,
  • Lawson, J.W., Williams, J.T. (2004). Tolerance by ringed seals (Phoca hispida) to impact pipe-driving and construction sounds at an oil production island. Journal of the Acoustical Society of America, 115, 2346-2357.
  • Byron, C., Costa-Pierce, B.A. (2010). Carrying capacity tools for use in the implementation of an ecosystems approach to aquaculture. Site selection and carrying capacity for inland and coastal aquaculture, 87-101.
  • Byron, C., Bengtson, D., Costa-Pierce, B., Calanni, J. (2011). Integrating science into management: ecological carrying capacity of bivalve shellfish aquaculture. Marine Policy 35, 363–370.
  • Catli, T., Yildirim, O., Turker, A. (2015). The Effect of Different Tempos of Music During Feeding, on Growth Performance, Chemical Body Composition, and Feed Utilization of Turbot (Psetta maeotica, Pallas 1814). The Israeli Journal of Aquaculture - Bamidgeh, IJA_67.2015.1221.
  • Chen, F., Shapiro, G.I., Bennett, K.A., Ingram, S.N., Thompson, D., Vincent, C., Russell, D.J.F., Embling, C.B. (2017). Shipping noise in a dynamic sea: a case study of grey seals in the Celtic Sea. Marine Pollution Bulletin, 114, 372-383.
  • Clark, J., Young, J., Bart, A., Zohar, Y. (1996). Underwater ambient noise measurements. 30th Proceedings of the Acoustical Society of America. St. Louis, MO, November, 27, 13.
  • Clement, T.S., Parikh, V., Schrumpf, M., Fernald, R.D. (2005). Behavioral coping strategies in a cichlid fish: the role of social status and acute stress response in direct and displaced aggression. Hormones and behavior, 47(3), 336-342.
  • Culik, B.M., Koschinski, S., Tregenza, N., Ellis, G.M. (2001). Reactions of harbor porpoises Phocoena phocoena and herring Clupea harengus to acoustic alarms. Marine Ecology Progress Series, 211, 255-260.
  • Davidson, J., Bebak, J., Mazik, P. (2009). The effects of aquaculture production noise on the growth, condition factor, feed conversion, and survival of rainbow trout, Oncorhynchus mykiss. Aquaculture, 288(3-4), 337-343.
  • EPA, (2010). Environmental Protection Agency Report. Noise from ships in ports Possibilities for noise reduction. Environmental Project No. 1330 2010, Miljøprojekt, Lloyd’s Register ODS, Danish Ministry of Environment.
  • Ergün, S., Yigit, M., Türker, A. (2003). Growth and feed consumption of young rainbow trout (Oncorhynchus mykiss) exposed to different photoperiods. Israeli Journal of Aquaculture - Bamidgeh, 55(2), 132-138.
  • Galhardo, L., Oliveira, R.F. (2009). Psychological stress and welfare in fish. Annual Review of Biomedical Sciences, 11, 1-20.
  • Gearin, P.J., Gosho, M.E., Lakke, J.L., Cooke, L., Delong, R.L., Hughes, K.M. (2000). Experimental testing of acoustic alarms (pingers) to reduce bycatch of harbor porpoise, Phoceoena phocoena, in the state of Washington. Journal of Cetacean Research and Management, 2(1), 1-9.
  • Gilmour, K.M., DiBattista, J.D., Thomas, J.B. (2005). Physiological causes and consequences of social status in salmonid fish. Integrative and comparative biology, 45(2), 263-273.
  • Gisiner, R., Cudahy, E., Frisk, G., Gentry, R., Hofman, R., Popper, A., Richardson, W.J. (1998). Proceedings of the Workshop on the Effects of Anthropogenic Noise in the Marine Environment, Office of Naval Research: Arlington, VA, USA.
  • Gutscher, M., Wysocki, L.E., Ladich, F. (2011). Effects of aquarium and pond noise on hearing sensitivity in an otophysine fish. The International Journal of Animal Sound and its Recording, 20, 117–136.
  • Hoseinifar, S.H., Dadar, M., Ringø, E. (2017). Modulation of nutrient digestibility and digestive enzyme activities in aquatic animals: The functional feed additives scenario. Aquaculture Research, 48, 3987-4000.
  • Hsieh, S., Chen, Y., Kuo, C. (2003). Physiological responses, desaturase activity, and fatty acid composition in milkfish (Chanos chanos) under cold acclimation. Aquaculture, 220(1-4), 903-918.
  • Iversen, R.T.B. (1967). Response of the yellowfin tuna (Thunnus albacares) to underwater sound. In: Marine Bio-Acoustics II, ed. W.N. Tavolga, 105-121. New York: Pergamon Press.
  • Kastelein, R.A., van der Heul, S., Verboom, W.C., Jennings, N., van der Veen, J., de Haan, D. (2008). Startle response of captive North Sea fish species to underwater tones between 0.1 and 64 kHz. Marine Environmental Research, 65, 369–377.
  • Kayali, B., Yigit, M., Bulut, M. (2011). Evaluation of the recovery time of sea bass (Dicentrarchus labrax Linnaeus, 1758) juveniles from transport and handling stress: using ammonia nitrogen excretion rates as a stress indicator. Journal of Marine Science and Technology, 19(6), 681-685.
  • Kesbiç, O. S., Yiğit, M., Acar, Ü. (2016). Effects of tank color on growth performance and nitrogen excretion of european seabass (Dicentrarchus labrax) juveniles. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, 86(1), 205-210.
  • Kusku, H., Ergün, S., Yilmaz, S., Güroy, B., Yigit, M. (2018). Impacts of Urban Noise and Musical Stimuli on Growth Performance and Feed Utilization of Koi fish (Cyprinus carpio) in Recirculating Water Conditions. Turkish Journal of Fisheries and Aquatic Sciences, 19(6), http://doi.org/10.4194/1303-2712-v19_6_07.
  • Lagardère, J. (1982). Effects of noise on growth and reproduction of Crangon crangon in rearing tanks. Marine Biology, 71(2), 177-185.
  • Lyamin, O.I., Korneva, S.M., Rozhnov, V.V., Mukhametov, L.M. (2011). Cardiorespiratory changes in beluga in response to acoustic noise. Doklady Biological Science. 440, 257–258.
  • Madsen, P.T., Wahlberg, M., Tougaard, J., Lucke, K., Tyack, P. (2006). Wind turbine underwater noise and marine mammals: implications of current knowledge and data needs. Marine Ecology Progress Series, 309, 279-295.
  • Merchant, N.D., Pirotta, E., Barton, T.R., Thompson P.M. (2014). Monitoring ship noise to assess the impact of coastal developments on marine mammals. Marine Pollution Bulletin, 78, 85-95.
  • Metcalfe, N.B., Huntingford, F.A., Thorpe, J. E. (1987). The influence of predation risk on the feeding motivation and foraging strategy of juvenile Atlantic salmon. Animal Behaviour, 35(3), 901-911.
  • Nachtigall, P.E., Supin, A.Y., Pawloski, J., Au, W.W. (2004). Temporary threshold shifts after noise exposure in the bottlenose dolphin (Tursiops truncatus) measured using evoked auditory potentials. Marine Mammal Science, 20, 673–687.
  • NAI, (2012). Normandeau Associates, Inc. 2012. Effects of Noise on Fish, Fisheries, and Invertebrates in the U.S. Atlantic and Arctic from Energy Industry Sound-Generating Activities. A Workshop Report for the U.S. Dept. of the Interior, Bureau of Ocean Energy Management. Contract #M11PC00031. 72 pp. plus Appendices.
  • Nedelec, S.L., Mills, S.C., Lecchini, D., Nedelec, B., Simpson, S. D., Radford, A.N. (2016). Repeated exposure to noise increases tolerance in a coral reef fish. Environmental pollution, 216, 428-436.
  • Nedwell, J.D., Langworthy, J., Howell, D. (2003). Assessment of subsea acoustic noise and vibration from offshore wind turbines and its impact on marine life. Cowrie Report, 544 R-0424, 1-68.
  • Neo, Y., Seitz, J., Kastelein, R., Winter, H., Ten Cate, C., Slabbekoorn, H. (2014). Temporal structure of sound affects behavioural recovery from noise impact in European seabass. Biological Conservation, 178, 65-73.
  • Papoutsoglou, S., Karakatsouli, N., Batzina, A., Papoutsoglou, E., Tsopelakos, A. (2008). Effect of music stimulus on gilthead seabream Sparus aurata physiology under different light intensity in a re‐circulating water system. Journal of Fish Biology, 73(4), 980-1004
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ACOUSTIC NOISE POLLUTION FROM MARINE INDUSTRIAL ACTIVITIES: EXPOSURE AND IMPACTS

Yıl 2018, , 148 - 161, 01.10.2018
https://doi.org/10.3153/AR18017

Öz

The improvements in marine
technological developments propagate urbanization in the ocean environment. The
construction or operational activities of marine structures such as energy
plants, oil platforms, pipe-lines, sea-tunnel passages, or cable-stayed suspension
bridges, and vessel traffic are sources of underwater noise pollution. How
underwater sounds such as piling, pole drilling, or machinery noises may affect
the marine live is mostly ignored in marine construction, and there is lack of
information regarding underwater sound effects on marine live in the oceans.
Recently, a remarkable interest is developing concerning underwater sound
effects, especially in aquaculture facilities, with experimentation of musical
stimuli or various noises caused by pumps or filter systems on behavior and
stress responses of fish in culture conditions. With the increase of
urbanization and progressive development of marine industries, more and more
pressure from human-generated (anthropogenic) underwater sound pollution may
threaten marine mammals, fish species and invertebrates from underwater noises
that in terms might be called as “Underwater Noise Pollution”. The future of
marine life and that of human being, and the dramatic increase of underwater
sound pollution is a new debate that needs to be controlled in a sustainable
way with environment-sound approaches. Therefore the potential effects of
various sound sources derived from marine industrial activities have been
reviewed in this study.

Kaynakça

  • André, M., Solé, M., Lenoir, M., Durfort, M., Quero, C., Mas, A., Lombarte, A., van der Shaar, M., López-Bejar, M., Morell M., Zaugg S., Houégnian, L. (2011). Low-frequency sounds induce acoustic trauma in cephalopods. Frontiers in Ecology and the Environment, 10, 18-28.
  • Andrew, R.K., Howe, B.M., Mercer, J.A. (2002). Ocean ambient sound: Comparing the 1960s with the 1990s for a receiver off the California coast. Acoustics Research Letters Online, 3, 65-70.
  • Bart, A., Clark, J., Young, J., Zohar, Y. (2001). Underwater ambient noise measurements in aquaculture systems: a survey. Aquacultural Engineering, 25(2), 99-110.
  • Barton, B.A., Schreck, C.B., Fowler, L.G. (1988). Fasting and diet content affect stress-induced changes in plasma glucose and cortisol in juvenile chinook salmon. Progressive Fish-Culturist, 50, 16-22.
  • Bailey, H., Senior, B., Simmons, D., Rusin, J., Picken, G., Thompson, P.M. (2010). Assessing underwater noise levels during pile-driving at an offshore windfarm and its potential effects on marine mammals. Marine Pollution Bulletin, 60, 888-897.Blackwell, S.B.,
  • Lawson, J.W., Williams, J.T. (2004). Tolerance by ringed seals (Phoca hispida) to impact pipe-driving and construction sounds at an oil production island. Journal of the Acoustical Society of America, 115, 2346-2357.
  • Byron, C., Costa-Pierce, B.A. (2010). Carrying capacity tools for use in the implementation of an ecosystems approach to aquaculture. Site selection and carrying capacity for inland and coastal aquaculture, 87-101.
  • Byron, C., Bengtson, D., Costa-Pierce, B., Calanni, J. (2011). Integrating science into management: ecological carrying capacity of bivalve shellfish aquaculture. Marine Policy 35, 363–370.
  • Catli, T., Yildirim, O., Turker, A. (2015). The Effect of Different Tempos of Music During Feeding, on Growth Performance, Chemical Body Composition, and Feed Utilization of Turbot (Psetta maeotica, Pallas 1814). The Israeli Journal of Aquaculture - Bamidgeh, IJA_67.2015.1221.
  • Chen, F., Shapiro, G.I., Bennett, K.A., Ingram, S.N., Thompson, D., Vincent, C., Russell, D.J.F., Embling, C.B. (2017). Shipping noise in a dynamic sea: a case study of grey seals in the Celtic Sea. Marine Pollution Bulletin, 114, 372-383.
  • Clark, J., Young, J., Bart, A., Zohar, Y. (1996). Underwater ambient noise measurements. 30th Proceedings of the Acoustical Society of America. St. Louis, MO, November, 27, 13.
  • Clement, T.S., Parikh, V., Schrumpf, M., Fernald, R.D. (2005). Behavioral coping strategies in a cichlid fish: the role of social status and acute stress response in direct and displaced aggression. Hormones and behavior, 47(3), 336-342.
  • Culik, B.M., Koschinski, S., Tregenza, N., Ellis, G.M. (2001). Reactions of harbor porpoises Phocoena phocoena and herring Clupea harengus to acoustic alarms. Marine Ecology Progress Series, 211, 255-260.
  • Davidson, J., Bebak, J., Mazik, P. (2009). The effects of aquaculture production noise on the growth, condition factor, feed conversion, and survival of rainbow trout, Oncorhynchus mykiss. Aquaculture, 288(3-4), 337-343.
  • EPA, (2010). Environmental Protection Agency Report. Noise from ships in ports Possibilities for noise reduction. Environmental Project No. 1330 2010, Miljøprojekt, Lloyd’s Register ODS, Danish Ministry of Environment.
  • Ergün, S., Yigit, M., Türker, A. (2003). Growth and feed consumption of young rainbow trout (Oncorhynchus mykiss) exposed to different photoperiods. Israeli Journal of Aquaculture - Bamidgeh, 55(2), 132-138.
  • Galhardo, L., Oliveira, R.F. (2009). Psychological stress and welfare in fish. Annual Review of Biomedical Sciences, 11, 1-20.
  • Gearin, P.J., Gosho, M.E., Lakke, J.L., Cooke, L., Delong, R.L., Hughes, K.M. (2000). Experimental testing of acoustic alarms (pingers) to reduce bycatch of harbor porpoise, Phoceoena phocoena, in the state of Washington. Journal of Cetacean Research and Management, 2(1), 1-9.
  • Gilmour, K.M., DiBattista, J.D., Thomas, J.B. (2005). Physiological causes and consequences of social status in salmonid fish. Integrative and comparative biology, 45(2), 263-273.
  • Gisiner, R., Cudahy, E., Frisk, G., Gentry, R., Hofman, R., Popper, A., Richardson, W.J. (1998). Proceedings of the Workshop on the Effects of Anthropogenic Noise in the Marine Environment, Office of Naval Research: Arlington, VA, USA.
  • Gutscher, M., Wysocki, L.E., Ladich, F. (2011). Effects of aquarium and pond noise on hearing sensitivity in an otophysine fish. The International Journal of Animal Sound and its Recording, 20, 117–136.
  • Hoseinifar, S.H., Dadar, M., Ringø, E. (2017). Modulation of nutrient digestibility and digestive enzyme activities in aquatic animals: The functional feed additives scenario. Aquaculture Research, 48, 3987-4000.
  • Hsieh, S., Chen, Y., Kuo, C. (2003). Physiological responses, desaturase activity, and fatty acid composition in milkfish (Chanos chanos) under cold acclimation. Aquaculture, 220(1-4), 903-918.
  • Iversen, R.T.B. (1967). Response of the yellowfin tuna (Thunnus albacares) to underwater sound. In: Marine Bio-Acoustics II, ed. W.N. Tavolga, 105-121. New York: Pergamon Press.
  • Kastelein, R.A., van der Heul, S., Verboom, W.C., Jennings, N., van der Veen, J., de Haan, D. (2008). Startle response of captive North Sea fish species to underwater tones between 0.1 and 64 kHz. Marine Environmental Research, 65, 369–377.
  • Kayali, B., Yigit, M., Bulut, M. (2011). Evaluation of the recovery time of sea bass (Dicentrarchus labrax Linnaeus, 1758) juveniles from transport and handling stress: using ammonia nitrogen excretion rates as a stress indicator. Journal of Marine Science and Technology, 19(6), 681-685.
  • Kesbiç, O. S., Yiğit, M., Acar, Ü. (2016). Effects of tank color on growth performance and nitrogen excretion of european seabass (Dicentrarchus labrax) juveniles. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, 86(1), 205-210.
  • Kusku, H., Ergün, S., Yilmaz, S., Güroy, B., Yigit, M. (2018). Impacts of Urban Noise and Musical Stimuli on Growth Performance and Feed Utilization of Koi fish (Cyprinus carpio) in Recirculating Water Conditions. Turkish Journal of Fisheries and Aquatic Sciences, 19(6), http://doi.org/10.4194/1303-2712-v19_6_07.
  • Lagardère, J. (1982). Effects of noise on growth and reproduction of Crangon crangon in rearing tanks. Marine Biology, 71(2), 177-185.
  • Lyamin, O.I., Korneva, S.M., Rozhnov, V.V., Mukhametov, L.M. (2011). Cardiorespiratory changes in beluga in response to acoustic noise. Doklady Biological Science. 440, 257–258.
  • Madsen, P.T., Wahlberg, M., Tougaard, J., Lucke, K., Tyack, P. (2006). Wind turbine underwater noise and marine mammals: implications of current knowledge and data needs. Marine Ecology Progress Series, 309, 279-295.
  • Merchant, N.D., Pirotta, E., Barton, T.R., Thompson P.M. (2014). Monitoring ship noise to assess the impact of coastal developments on marine mammals. Marine Pollution Bulletin, 78, 85-95.
  • Metcalfe, N.B., Huntingford, F.A., Thorpe, J. E. (1987). The influence of predation risk on the feeding motivation and foraging strategy of juvenile Atlantic salmon. Animal Behaviour, 35(3), 901-911.
  • Nachtigall, P.E., Supin, A.Y., Pawloski, J., Au, W.W. (2004). Temporary threshold shifts after noise exposure in the bottlenose dolphin (Tursiops truncatus) measured using evoked auditory potentials. Marine Mammal Science, 20, 673–687.
  • NAI, (2012). Normandeau Associates, Inc. 2012. Effects of Noise on Fish, Fisheries, and Invertebrates in the U.S. Atlantic and Arctic from Energy Industry Sound-Generating Activities. A Workshop Report for the U.S. Dept. of the Interior, Bureau of Ocean Energy Management. Contract #M11PC00031. 72 pp. plus Appendices.
  • Nedelec, S.L., Mills, S.C., Lecchini, D., Nedelec, B., Simpson, S. D., Radford, A.N. (2016). Repeated exposure to noise increases tolerance in a coral reef fish. Environmental pollution, 216, 428-436.
  • Nedwell, J.D., Langworthy, J., Howell, D. (2003). Assessment of subsea acoustic noise and vibration from offshore wind turbines and its impact on marine life. Cowrie Report, 544 R-0424, 1-68.
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  • Yılmaz, S., Ergün, S., Yigit, M. (2018b). Effects of dietary FARMARIN® XP supplement on immunological responses and disease resistance of rainbow trout (Oncorhynchus mykiss). Aquaculture. 496, 211-220.
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  • Yousefi, S., Hoseinifar, S.H., Paknejad, H., Hajimoradloo, A. (2018). The effects of dietary supplement of galactooligosaccharide on innate immunity, immune related genes expression and growth performance in zebrafish (Danio rerio). Fish and Shellfish Immunology, 73, 192-196.
Toplam 75 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Hidrobiyoloji
Bölüm Articles
Yazarlar

Halit Kuşku 0000-0003-4109-2370

Murat Yiğit 0000-0001-8086-9125

Sebahattin Ergün 0000-0002-9077-9438

Ümüt Yiğit 0000-0002-1378-2422

Nic Taylor 0000-0001-8034-5815

Yayımlanma Tarihi 1 Ekim 2018
Gönderilme Tarihi 2 Temmuz 2018
Yayımlandığı Sayı Yıl 2018

Kaynak Göster

APA Kuşku, H., Yiğit, M., Ergün, S., Yiğit, Ü., vd. (2018). ACOUSTIC NOISE POLLUTION FROM MARINE INDUSTRIAL ACTIVITIES: EXPOSURE AND IMPACTS. Aquatic Research, 1(4), 148-161. https://doi.org/10.3153/AR18017

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