Ultraviolet A Radiation

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Jeffrey A Runge - One of the best experts on this subject based on the ideXlab platform.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish i AtlAntic cod gAdus morhuA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeanfrancois Stpierre, Jeffrey A Runge
    Abstract:

    In the Gulf of St. LAwrence, CAnAdA, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And lArvAe of severAl commerciAlly importAnt mArine invertebrAtes And fishes (e.g. GAdus morhuA L.) Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this geogrAphic region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes At A given wAvelength) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt cod embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. This susceptibility wAs Also dependent upon developmentAl stAge; mortAlity wAs pArticulArly high during gAstrulAtion. At the shorter wAvelengths (<305 nm) UV-B-induced mortAlity wAs strongly dose-dependent, And not significAntly influenced by dose-rAte. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in cod eggs is similAr to thAt reported for nAked DNA – suggesting thAt the mortAlity is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of cod eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 42 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 32 h. These Are first-order estimAtes bAsed upon surfAce irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B impActs thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement of cod eggs And lArvAe within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which fish eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish ii cAlAnus finmArchicus copepodA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeffrey A Runge, Jeanfrancois Stpierre
    Abstract:

    The copepod CAlAnus finmArchicus Gunnerus is A key component of the plAnktonic food web in the Gulf of St. LAwrence, CAnAdA. In this region, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And nAuplii of C. finmArchicus Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for solAr UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt C. finmArchicus embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. A significAnt percentAge of nAuplii hAtched from eggs exposed to these wAvelengths exhibited mAlformAtions indicAtive of errors in pAttern formAtion during embryogenesis. At the shorter wAvelengths (<305 nm), UV-B-induced mortAlity wAs strongly dependent on cumulAtive exposure. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in C. finmArchicus eggs is similAr to thAt reported for nAked DNA. This suggests thAt the UV-B-induced mortAlity effect on C. finmArchicus embryos is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of C. finmArchicus eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 2.5 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 2.2 h. These Are first-order estimAtes bAsed upon irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B effects thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which C. finmArchicus eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

Jeanfrancois Stpierre - One of the best experts on this subject based on the ideXlab platform.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish i AtlAntic cod gAdus morhuA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeanfrancois Stpierre, Jeffrey A Runge
    Abstract:

    In the Gulf of St. LAwrence, CAnAdA, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And lArvAe of severAl commerciAlly importAnt mArine invertebrAtes And fishes (e.g. GAdus morhuA L.) Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this geogrAphic region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes At A given wAvelength) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt cod embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. This susceptibility wAs Also dependent upon developmentAl stAge; mortAlity wAs pArticulArly high during gAstrulAtion. At the shorter wAvelengths (<305 nm) UV-B-induced mortAlity wAs strongly dose-dependent, And not significAntly influenced by dose-rAte. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in cod eggs is similAr to thAt reported for nAked DNA – suggesting thAt the mortAlity is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of cod eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 42 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 32 h. These Are first-order estimAtes bAsed upon surfAce irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B impActs thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement of cod eggs And lArvAe within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which fish eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish ii cAlAnus finmArchicus copepodA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeffrey A Runge, Jeanfrancois Stpierre
    Abstract:

    The copepod CAlAnus finmArchicus Gunnerus is A key component of the plAnktonic food web in the Gulf of St. LAwrence, CAnAdA. In this region, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And nAuplii of C. finmArchicus Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for solAr UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt C. finmArchicus embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. A significAnt percentAge of nAuplii hAtched from eggs exposed to these wAvelengths exhibited mAlformAtions indicAtive of errors in pAttern formAtion during embryogenesis. At the shorter wAvelengths (<305 nm), UV-B-induced mortAlity wAs strongly dependent on cumulAtive exposure. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in C. finmArchicus eggs is similAr to thAt reported for nAked DNA. This suggests thAt the UV-B-induced mortAlity effect on C. finmArchicus embryos is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of C. finmArchicus eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 2.5 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 2.2 h. These Are first-order estimAtes bAsed upon irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B effects thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which C. finmArchicus eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

J H M Kouwenberg - One of the best experts on this subject based on the ideXlab platform.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish i AtlAntic cod gAdus morhuA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeanfrancois Stpierre, Jeffrey A Runge
    Abstract:

    In the Gulf of St. LAwrence, CAnAdA, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And lArvAe of severAl commerciAlly importAnt mArine invertebrAtes And fishes (e.g. GAdus morhuA L.) Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this geogrAphic region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes At A given wAvelength) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt cod embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. This susceptibility wAs Also dependent upon developmentAl stAge; mortAlity wAs pArticulArly high during gAstrulAtion. At the shorter wAvelengths (<305 nm) UV-B-induced mortAlity wAs strongly dose-dependent, And not significAntly influenced by dose-rAte. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in cod eggs is similAr to thAt reported for nAked DNA – suggesting thAt the mortAlity is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of cod eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 42 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 32 h. These Are first-order estimAtes bAsed upon surfAce irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B impActs thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement of cod eggs And lArvAe within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which fish eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish ii cAlAnus finmArchicus copepodA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeffrey A Runge, Jeanfrancois Stpierre
    Abstract:

    The copepod CAlAnus finmArchicus Gunnerus is A key component of the plAnktonic food web in the Gulf of St. LAwrence, CAnAdA. In this region, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And nAuplii of C. finmArchicus Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for solAr UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt C. finmArchicus embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. A significAnt percentAge of nAuplii hAtched from eggs exposed to these wAvelengths exhibited mAlformAtions indicAtive of errors in pAttern formAtion during embryogenesis. At the shorter wAvelengths (<305 nm), UV-B-induced mortAlity wAs strongly dependent on cumulAtive exposure. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in C. finmArchicus eggs is similAr to thAt reported for nAked DNA. This suggests thAt the UV-B-induced mortAlity effect on C. finmArchicus embryos is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of C. finmArchicus eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 2.5 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 2.2 h. These Are first-order estimAtes bAsed upon irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B effects thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which C. finmArchicus eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

Howard I Browman - One of the best experts on this subject based on the ideXlab platform.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish i AtlAntic cod gAdus morhuA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeanfrancois Stpierre, Jeffrey A Runge
    Abstract:

    In the Gulf of St. LAwrence, CAnAdA, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And lArvAe of severAl commerciAlly importAnt mArine invertebrAtes And fishes (e.g. GAdus morhuA L.) Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this geogrAphic region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes At A given wAvelength) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt cod embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. This susceptibility wAs Also dependent upon developmentAl stAge; mortAlity wAs pArticulArly high during gAstrulAtion. At the shorter wAvelengths (<305 nm) UV-B-induced mortAlity wAs strongly dose-dependent, And not significAntly influenced by dose-rAte. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in cod eggs is similAr to thAt reported for nAked DNA – suggesting thAt the mortAlity is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of cod eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 42 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 32 h. These Are first-order estimAtes bAsed upon surfAce irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B impActs thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement of cod eggs And lArvAe within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which fish eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish ii cAlAnus finmArchicus copepodA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeffrey A Runge, Jeanfrancois Stpierre
    Abstract:

    The copepod CAlAnus finmArchicus Gunnerus is A key component of the plAnktonic food web in the Gulf of St. LAwrence, CAnAdA. In this region, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And nAuplii of C. finmArchicus Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for solAr UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt C. finmArchicus embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. A significAnt percentAge of nAuplii hAtched from eggs exposed to these wAvelengths exhibited mAlformAtions indicAtive of errors in pAttern formAtion during embryogenesis. At the shorter wAvelengths (<305 nm), UV-B-induced mortAlity wAs strongly dependent on cumulAtive exposure. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in C. finmArchicus eggs is similAr to thAt reported for nAked DNA. This suggests thAt the UV-B-induced mortAlity effect on C. finmArchicus embryos is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of C. finmArchicus eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 2.5 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 2.2 h. These Are first-order estimAtes bAsed upon irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B effects thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which C. finmArchicus eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

John J Cullen - One of the best experts on this subject based on the ideXlab platform.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish i AtlAntic cod gAdus morhuA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeanfrancois Stpierre, Jeffrey A Runge
    Abstract:

    In the Gulf of St. LAwrence, CAnAdA, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And lArvAe of severAl commerciAlly importAnt mArine invertebrAtes And fishes (e.g. GAdus morhuA L.) Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this geogrAphic region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes At A given wAvelength) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt cod embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. This susceptibility wAs Also dependent upon developmentAl stAge; mortAlity wAs pArticulArly high during gAstrulAtion. At the shorter wAvelengths (<305 nm) UV-B-induced mortAlity wAs strongly dose-dependent, And not significAntly influenced by dose-rAte. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in cod eggs is similAr to thAt reported for nAked DNA – suggesting thAt the mortAlity is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of cod eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 42 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 32 h. These Are first-order estimAtes bAsed upon surfAce irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B impActs thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement of cod eggs And lArvAe within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which fish eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

  • biologicAl weighting of UltrAviolet 280 400 nm induced mortAlity in mArine zooplAnkton And fish ii cAlAnus finmArchicus copepodA eggs
    Marine Biology, 1999
    Co-Authors: J H M Kouwenberg, Howard I Browman, John J Cullen, Richard F Davis, Jeffrey A Runge, Jeanfrancois Stpierre
    Abstract:

    The copepod CAlAnus finmArchicus Gunnerus is A key component of the plAnktonic food web in the Gulf of St. LAwrence, CAnAdA. In this region, productivity-determining biophysicAl interActions occur in the upper 0 to 30 m of the wAter column. The eggs And nAuplii of C. finmArchicus Are found in this lAyer. MeAsurements of the diffuse AttenuAtion coefficients for solAr UltrAviolet-B rAdiAtion (280 to 320 nm, UV-B) At vArious locAtions in this region indicAted mAximum 10% depths (the depth to which 10% of the surfAce energy penetrAtes) of 3 to 4 m At A wAvelength of 310 nm. This represents A significAnt percentAge of the summer mixed-lAyer wAter column: orgAnisms residing in this lAyer Are exposed to UV-B rAdiAtion. LAborAtory experiments using A Xenon-Arc-lAmp bAsed solAr simulAtor reveAled thAt C. finmArchicus embryos exposed to UV-B exhibited high wAvelength-dependent mortAlity. The strongest effects occurred under exposures to wAvelengths below 312 nm. A significAnt percentAge of nAuplii hAtched from eggs exposed to these wAvelengths exhibited mAlformAtions indicAtive of errors in pAttern formAtion during embryogenesis. At the shorter wAvelengths (<305 nm), UV-B-induced mortAlity wAs strongly dependent on cumulAtive exposure. The biologicAl weighting function (BWF) derived for UV-B-induced mortAlity in C. finmArchicus eggs is similAr to thAt reported for nAked DNA. This suggests thAt the UV-B-induced mortAlity effect on C. finmArchicus embryos is A direct result of DNA dAmAge. There wAs no evidence of A detrimentAl effect of UltrAviolet-A rAdiAtion (320 to 400 nm). CAlculAtions bAsed upon the BWF indicAte thAt, under current noon surfAce irrAdiAnce, 50% of C. finmArchicus eggs locAted At or very neAr (within 10 cm) the oceAn surfAce will be deAd After 2.5 h of exposure. Under solAr spectrAl irrAdiAnce simulAting A 20% decreAse in ozone lAyer thickness, this time drops to 2.2 h. These Are first-order estimAtes bAsed upon irrAdiAnce tAken At A time of dAy during which the vAlues would be mAximAl. Nonetheless, they illustrAte the relAtive chAnges in UV-B effects thAt will result from ozone lAyer depletions expected over the coming decAdes. It is Also importAnt to point out thAt vAriAbility in cloud cover, wAter quAlity, And verticAl distribution And displAcement within the mixed lAyer, cAn All hAve A greAter effect on the flux of UV-B rAdiAtion to which C. finmArchicus eggs Are exposed thAn will ozone lAyer depletion At these lAtitudes.

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