Hydrogen peroxide formation: The interaction of ultraviolet radiation and dissolved organic carbon in lake waters along a 43–75°N gradient

Scully, Norman M.; McQueen, Donald J.; Lean, D. R. S.

doi:10.4319/lo.1996.41.3.0540

Cited by 179 publications

(160 citation statements)

References 16 publications

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“…For samples other than the Elizabeth River, there is no statistically significant relationship between peroxide production and [DOC]. Scully et al (1996) observed a power relationship between H 2 O 2 production and DOC content in freshwaters, similar to that observed for the Elizabeth River sample. Whether relationships of this type should be extended to seawater systems is still unclear.…”

Section: Peroxide Productionsupporting

confidence: 65%

“…H 2 O 2 production in Elizabeth River water was similar to that of freshwater systems, such as Lake Ontario (160-1473 nM h À 1 ) and other temperate lakes (695-2120 nM h À 1 ) (Scully et al, 1996). Surface waters with substantial terrigenous run-off influence exhibited the greatest production of both H 2 O 2 and MHP, with the majority of production occurring at wavelengths less than 320 nm.…”

Section: Peroxide Productionmentioning

confidence: 69%

“…Given the proposed mechanism for H 2 O 2 production, where the photochemical production is initiated by CDOM photon absorption, one would expect a relationship between H 2 O 2 production and CDOM. Many freshwater systems exhibit relationships between DOC content and/or absorbance, and H 2 O 2 production (Scully et al, 1996). For our experiments, predominantly using surface seawaters, there is no clear relationship between H 2 O 2 production and the mass-specific absorbance [a* (m 2 Ag (Fig.…”

Section: Peroxide Productionmentioning

confidence: 95%

“…A number of studies have determined the photochemical production of H 2 O 2 in freshwater and ground waters (Cooper et al, 1988, Scully et al, 1996. Zuo and Hoigne (1992) examined the formation of H 2 O 2 in atmospheric water that results from iron(III)-oxalato complex photolysis.…”

Section: Introductionmentioning

confidence: 99%

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Photochemical production of hydrogen peroxide and methylhydroperoxide in coastal waters

et al. 2005

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Section: Peroxide Productionsupporting

confidence: 65%

Section: Peroxide Productionmentioning

confidence: 69%

Section: Peroxide Productionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

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Photochemical production of hydrogen peroxide and methylhydroperoxide in coastal waters

et al. 2005

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“…Because DOM is an important component of carbon budgets in aquatic ecosystems, an understanding of how photodegradation alters DOM bioavailability is critical to understand carbon fluxes through the landscape. In contrast to the positive effects of increased substrate availability on bacterial metabolism, photodegradation also exerts indirect negative effects on aquatic bacteria through the production of free radicals and reactive oxygen species (ROS) (e.g., singlet oxygen, peroxides, and superoxides) (Scully et al 1996). These by-products of the photodegradation process are short-lived, but nevertheless inhibit bacterial growth and production (Lund and Hongve 1994;Henle and Linn 1997;Anesio et al 2005).…”

Section: Introductionmentioning

confidence: 99%

Photodegraded dissolved organic matter from peak freshet river discharge as a substrate for bacterial production in a lake-rich great Arctic delta

Gareis

Lesack

2018

Arctic Science

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Lake-rich Arctic river deltas are recharged with terrigenous dissolved organic matter (DOM) during the yearly peak water period corresponding with the solstice (24 h day −1 solar irradiance). Bacteria-free DOM collected during peak Mackenzie River discharge was exposed to sunlight for up to 14 days in June 2010. As solar exposure increased, carbon and lignin concentrations declined (10% and 42%, respectively, after 14 days), as did DOM absorptivity (62% after 14 days), aromaticity, and molecular weight. Photochemical changes were on par with those normally observed in Mackenzie Delta lakes over the entire open-water season. When irradiated freshet DOM was provided as a substrate, no significant differences were observed in community-level metabolism among five bacterial communities from representative delta habitats. However, bacterial abundance was significantly greater when nonirradiated (0 day) rather than irradiated DOM (7 or 14 days) was provided, while cell-specific metabolic measures revealed that per-cell bacterial production and growth efficiency were significantly greater when communities were provided irradiated substrate. This complex response to rapid DOM photodegradation may result from the production of inhibitory reactive oxygen species (ROS), along with shifts in bacterial community composition to species that are better able to tolerate ROS, or metabolize the labile photodegraded DOM.Key words: circumpolar river delta, photodegradation, dissolved organic matter, bacterial metabolism, Mackenzie River.Résumé : Les deltas arctiques riches en lacs sont rechargés en matière organique dissoute (MOD) terrigène pendant la période annuelle de crue maximale correspondant au solstice (irradiance solaire 24 h jour −1 ). De la MOD sans bactéries collectée durant la pointe de crue du fleuve Mackenzie a été exposée à la lumière du soleil pendant 14 jours en juin 2010. À mesure que l'exposition solaire se prolongeait, les concentrations de carbone et lignine diminuaient (10 % et 42 % respectivement, après 14 jours), tout comme le pouvoir d'absorption de la MOD (62 % après 14 jours), son aromaticité et son poids moléculaire. Les changements photochimiques correspondaient à ceux normalement observés dans les lacs du delta du Mackenzie sur l'ensemble de la saison des eaux libres. Lorsque de la MOD de crue irradiée fut utilisée comme substrat, aucune différence significative n'a été observée quant au métabolisme au niveau de la communauté en comparant cinq communautés bactériennes issues d'habitats représentatifs du delta. Néanmoins, l'abondance de bactéries était considérablement plus grande lorsque de la For personal use only.MOD non irradiée (0 jour) a été fournie au lieu de la MOD irradiée (7 ou 14 jours), tandis que les mesures de l'activité métabolique spécifique aux cellules ont révélé que la production bactérienne par cellule et le rendement de croissance étaient considér-ablement plus élevés lorsque les communautés avaient accès au substrat irradié. Cette réaction complexe à la photodégradation...

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Photoreactions of Mercury in Aquatic Systems

Vost

Amyot

O’Driscoll

2011

Environmental Chemistry and Toxicology of Mercury

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Hydrogen peroxide formation: The interaction of ultraviolet radiation and dissolved organic carbon in lake waters along a 43–75°N gradient

Cited by 179 publications

References 16 publications

Photochemical production of hydrogen peroxide and methylhydroperoxide in coastal waters

Photochemical production of hydrogen peroxide and methylhydroperoxide in coastal waters

Photodegraded dissolved organic matter from peak freshet river discharge as a substrate for bacterial production in a lake-rich great Arctic delta

Photoreactions of Mercury in Aquatic Systems

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