High resistance of fish pathogenic viruses to UV irradiation and ozonated seawater

Important fish pathogenic viruses, including infectious pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV) and infectious salmon anaemia virus (ISAV), were exposed to ultraviolet (UV) irradiation or ozonated seawater in a laboratory model system. Inactivation curves were obtained, a...

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Published in:Aquacultural engineering Vol. 34; no. 2; pp. 72 - 82
Main Authors: Liltved, H., Vogelsang, C., Modahl, I., Dannevig, B.H.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01.03.2006
Elsevier Science
Subjects:
Agnatha. Pisces
Animal aquaculture
Animal productions
Biological and medical sciences
By-products
Disinfection
fish culture
fish diseases
Fundamental and applied biological sciences. Psychology
General aspects
Hippoglossus hippoglossus
Infectious pancreatic necrosis virus
Infectious salmon anemia virus
irradiation
Marine
Nodavirus
ozonation
Ozone
Salmonidae
Seawater
ultraviolet radiation
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
Viruses
A, Atlantic
UV
Viruses
Disinfection
Ozone
By-products
Seawater
Environmental engineering
Vertebrata
Ultraviolet radiation
Sensitivity resistance
Pathogenic
Pisces
Irradiation
By product
Aquaculture
ISSN:0144-8609, 1873-5614
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Abstract Important fish pathogenic viruses, including infectious pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV) and infectious salmon anaemia virus (ISAV), were exposed to ultraviolet (UV) irradiation or ozonated seawater in a laboratory model system. Inactivation curves were obtained, and the occurrence of oxidants and ozonation by-products (OBP), including their removal by granular activated carbon (GAC) filtration, was studied. In ISAV, 99.9% inactivation was obtained by an UV dose of 7.7mJ/cm2. The corresponding figures for AHNV and IPNV were 105 and 246mJ/cm2, respectively. In ozonated seawater, total residual oxidants (TRO) were assayed by the DPD colorimetric method. The CT value (the product of TRO concentration and contact time) was calculated from the average TRO concentration (as mg Cl2/l) during the respective contact time (s). 90% reductions in virus titers were obtained by CT values of 1.4(mgs)/l for ISAV, 1000(mgs)/l for AHNV and 1944(mgs)/l for IPNV. The results of this study demonstrate a wide span in UV and TRO resistance among the viruses tested. ISAV was sensitive to both methods, while high resistance in AHNV and IPNV was experienced. The TRO resistance in IPNV and AHNV contradict earlier published results and suggests reconsideration of existing ozonation practise to inactivate these viruses in seawater. Considerably higher CT values than previously reported seem to be required. These discrepancies in results between studies clearly demonstrate the need for development of a standard procedure to conduct inactivation experiments and to develop improved analytical techniques to determine individual oxidants in seawater. Of the detected carcinogenic OBPs, bromate was found in concentrations of 50 and 70μg/l after a contact time of 20 and 80min, respectively, at a TRO concentration of 0.9mg/l. Bromoform was the only trihalomethane (THM) found in significant amount. The bromoform concentration of 16.4μg/l measured after 80min contact time was reduced to 1.6μg/l by GAC filtration with an empty bed contact time (EBCT) of 4.2min. TRO and bromate was reduced below the detection limit after GAC filtration. However, long-term filtration experiments were not conducted. Such experiments should be conducted to determine the adsorptive capacity of GAC for bromate- and THM-removal in ozonated seawater.
AbstractList Important fish pathogenic viruses, including infectious pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV) and infectious salmon anaemia virus (ISAV), were exposed to ultraviolet (UV) irradiation or ozonated seawater in a laboratory model system. Inactivation curves were obtained, and the occurrence of oxidants and ozonation by-products (OBP), including their removal by granular activated carbon (GAC) filtration, was studied. In ISAV, 99.9% inactivation was obtained by an UV dose of 7.7mJ/cm2. The corresponding figures for AHNV and IPNV were 105 and 246mJ/cm2, respectively. In ozonated seawater, total residual oxidants (TRO) were assayed by the DPD colorimetric method. The CT value (the product of TRO concentration and contact time) was calculated from the average TRO concentration (as mg Cl2/l) during the respective contact time (s). 90% reductions in virus titers were obtained by CT values of 1.4(mgs)/l for ISAV, 1000(mgs)/l for AHNV and 1944(mgs)/l for IPNV. The results of this study demonstrate a wide span in UV and TRO resistance among the viruses tested. ISAV was sensitive to both methods, while high resistance in AHNV and IPNV was experienced. The TRO resistance in IPNV and AHNV contradict earlier published results and suggests reconsideration of existing ozonation practise to inactivate these viruses in seawater. Considerably higher CT values than previously reported seem to be required. These discrepancies in results between studies clearly demonstrate the need for development of a standard procedure to conduct inactivation experiments and to develop improved analytical techniques to determine individual oxidants in seawater. Of the detected carcinogenic OBPs, bromate was found in concentrations of 50 and 70μg/l after a contact time of 20 and 80min, respectively, at a TRO concentration of 0.9mg/l. Bromoform was the only trihalomethane (THM) found in significant amount. The bromoform concentration of 16.4μg/l measured after 80min contact time was reduced to 1.6μg/l by GAC filtration with an empty bed contact time (EBCT) of 4.2min. TRO and bromate was reduced below the detection limit after GAC filtration. However, long-term filtration experiments were not conducted. Such experiments should be conducted to determine the adsorptive capacity of GAC for bromate- and THM-removal in ozonated seawater.
Important fish pathogenic viruses, including infectious pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV), and infectious salmon anaemia virus (ISAV), exposed to ultraviolet (UV) irradiation or ozonated seawater in a laboratory model system were studied. The formation of ozonation byproducts (OBP) and their removal by the activated carbon filtration was also studied. Seawater was preozonated by a laboratory model electrical discharge ozone generator to predetermined concentrations for the viral dose/response studies. The total residual oxidant (TRO) concentration was measured immediately before and after the virus suspension was added and immediately after each sample withdrawal. In seawater, no reduction in oxidant concentration was detected within 50 min, neither with nor without aeration. Of the detected carcinogenic OBP, bromate was found in concentrations of 50 and 70 mu g/l after a contact time of 20 and 80 min, respectively, at a TRO concentration of 0.9 mg/l.
Important fish pathogenic viruses, including pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV) and infectious salmon anaemia virus (ISAV), were exposed to ultraviolet (UV) irradiation or ozonated seawater in a laboratory model system. Inactivation curves were obtained, and the occurrence of oxidants and ozonation by-products (OBP), including their removal by granular activated carbon (GAC) filtration, was studied. In ISAV, 99.9% inactivation was obtained by an UV dose of 7.7 mJ/cm super(2). The corresponding figures for AHNV and IPNV were 105 and 246 mJ/cm super(2), respectively. In ozonated seawater, total residual oxidants (TRO) were assayed by the DPD colorimetric method. The C T value (the product of TRO concentration and contact time) was calculated from the average TRO concentration (as mg Cl sub(2)/l) during the respective contact time (s). 90% reductions in virus titers were obtained by C T values of 1.4 (mg s)/l for ISAV, 1000 (mg s)/l for AHNV and 1944 (mg s)/l for IPNV. The results of this study demonstrate a wide span in UV and TRO resistance among the viruses tested. ISAV was sensitive to both methods, while high resistance in AHNV and IPNV was experienced. The TRO resistance in IPNV and AHNV contradict earlier published results and suggests reconsideration of existing ozonation practise to inactivate these viruses in seawater. Considerably higher C T values than previously reported seem to be required. These discrepancies in results between studies clearly demonstrate the need for development of a standard procedure to conduct inactivation experiments and to develop improved analytical techniques to determine individual oxidants in seawater. Of the detected carcinogenic OBPs, bromate was found in concentrations of 50 and 70 mu g/l after a contact time of 20 and 80 min, respectively, at a TRO concentration of 0.9 mg/l. Bromoform was the only trihalomethane (THM) found in significant amount. The bromoform concentration of 16.4 mu g/l measured after 80 min contact time was reduced to 1.6 mu g/l by GAC filtration with an empty bed contact time (EBCT) of 4.2 min. TRO and bromate was reduced below the detection limit after GAC filtration. However, long-term filtration experiments were not conducted. Such experiments should be conducted to determine the adsorptive capacity of GAC for bromate- and THM-removal in ozonated seawater.
Important fish pathogenic viruses, including infectious pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV) and infectious salmon anaemia virus (ISAV), were exposed to ultraviolet (UV) irradiation or ozonated seawater in a laboratory model system. Inactivation curves were obtained, and the occurrence of oxidants and ozonation by-products (OBP), including their removal by granular activated carbon (GAC) filtration, was studied. In ISAV, 99.9% inactivation was obtained by an UV dose of 7.7 mJ/cm2. The corresponding figures for AHNV and IPNV were 105 and 246 mJ/cm2, respectively. In ozonated seawater, total residual oxidants (TRO) were assayed by the DPD colorimetric method. The C T value (the product of TRO concentration and contact time) was calculated from the average TRO concentration (as mg Cl(2)/l) during the respective contact time (s). 90% reductions in virus titers were obtained by C T values of 1.4 (mg s)/l for ISAV, 1000 (mg s)/l for AHNV and 1944 (mg s)/l for IPNV. The results of this study demonstrate a wide span in UV and TRO resistance among the viruses tested. ISAV was sensitive to both methods, while high resistance in AHNV and IPNV was experienced. The TRO resistance in IPNV and AHNV contradict earlier published results and suggests reconsideration of existing ozonation practise to inactivate these viruses in seawater. Considerably higher C T values than previously reported seem to be required. These discrepancies in results between studies clearly demonstrate the need for development of a standard procedure to conduct inactivation experiments and to develop improved analytical techniques to determine individual oxidants in seawater. Of the detected carcinogenic OBPs, bromate was found in concentrations of 50 and 70 micrograms/l after a contact time of 20 and 80 min, respectively, at a TRO concentration of 0.9 mg/l. Bromoform was the only trihalomethane (THM) found in significant amount. The bromoform concentration of 16.4 micrograms/l measured after 80 min contact time was reduced to 1.6 micrograms/l by GAC filtration with an empty bed contact time (EBCT) of 4.2 min. TRO and bromate was reduced below the detection limit after GAC filtration. However, long-term filtration experiments were not conducted. Such experiments should be conducted to determine the adsorptive capacity of GAC for bromate- and THM-removal in ozonated seawater.
Important fish pathogenic viruses, including infectious pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV) and infectious salmon anaemia virus (ISAV), were exposed to ultraviolet (UV) irradiation or ozonated seawater in a laboratory model system. Inactivation curves were obtained, and the occurrence of oxidants and ozonation by-products (OBP), including their removal by granular activated carbon (GAC) filtration, was studied. In ISAV, 99.9% inactivation was obtained by an UV dose of 7.7 mJ/cm super(2). The corresponding figures for AHNV and IPNV were 105 and 246 mJ/cm super(2), respectively. In ozonated seawater, total residual oxidants (TRO) were assayed by the DPD colorimetric method. The C T value (the product of TRO concentration and contact time) was calculated from the average TRO concentration (as mg Cl sub(2)/l) during the respective contact time (s). 90% reductions in virus titers were obtained by C T values of 1.4 (mg s)/l for ISAV, 1000 (mg s)/l for AHNV and 1944 (mg s)/l for IPNV. The results of this study demonstrate a wide span in UV and TRO resistance among the viruses tested. ISAV was sensitive to both methods, while high resistance in AHNV and IPNV was experienced. The TRO resistance in IPNV and AHNV contradict earlier published results and suggests reconsideration of existing ozonation practise to inactivate these viruses in seawater. Considerably higher C T values than previously reported seem to be required. These discrepancies in results between studies clearly demonstrate the need for development of a standard procedure to conduct inactivation experiments and to develop improved analytical techniques to determine individual oxidants in seawater. Of the detected carcinogenic OBPs, bromate was found in concentrations of 50 and 70 mu g/l after a contact time of 20 and 80 min, respectively, at a TRO concentration of 0.9 mg/l. Bromoform was the only trihalomethane (THM) found in significant amount. The bromoform concentration of 16.4 mu g/l measured after 80 min contact time was reduced to 1.6 mu g/l by GAC filtration with an empty bed contact time (EBCT) of 4.2 min. TRO and bromate was reduced below the detection limit after GAC filtration. However, long-term filtration experiments were not conducted. Such experiments should be conducted to determine the adsorptive capacity of GAC for bromate- and THM-removal in ozonated seawater.
Author Liltved, H.
Dannevig, B.H.
Vogelsang, C.
Modahl, I.
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  fullname: Dannevig, B.H.
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Issue 2
Keywords UV
Viruses
Disinfection
Ozone
By-products
Seawater
Environmental engineering
Vertebrata
Ultraviolet radiation
Sensitivity resistance
Pathogenic
Pisces
Irradiation
By product
Aquaculture
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PublicationDate 2006-03-01
PublicationDateYYYYMMDD 2006-03-01
PublicationDate_xml – month: 03
  year: 2006
  text: 2006-03-01
  day: 01
PublicationDecade 2000
PublicationPlace Amsterdam
PublicationPlace_xml – name: Amsterdam
PublicationTitle Aquacultural engineering
PublicationYear 2006
Publisher Elsevier B.V
Elsevier Science
Publisher_xml – name: Elsevier B.V
– name: Elsevier Science
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Snippet Important fish pathogenic viruses, including infectious pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV) and infectious salmon anaemia virus...
Important fish pathogenic viruses, including infectious pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV), and infectious salmon anaemia...
Important fish pathogenic viruses, including pancreatic necrosis virus (IPNV), Atlantic halibut nodavirus (AHNV) and infectious salmon anaemia virus (ISAV),...
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SubjectTerms Agnatha. Pisces
Animal aquaculture
Animal productions
Biological and medical sciences
By-products
Disinfection
fish culture
fish diseases
Fundamental and applied biological sciences. Psychology
General aspects
Hippoglossus hippoglossus
Infectious pancreatic necrosis virus
Infectious salmon anemia virus
irradiation
Marine
Nodavirus
ozonation
Ozone
Salmonidae
Seawater
ultraviolet radiation
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
Viruses
Title High resistance of fish pathogenic viruses to UV irradiation and ozonated seawater
URI https://dx.doi.org/10.1016/j.aquaeng.2005.05.002
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https://www.proquest.com/docview/17133782
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https://www.proquest.com/docview/47222642
Volume 34
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