Ultraviolet (280–400 nm)–induced DNA Damage in the Eggs and Larvae of Calanus finmarchicus G. (Copepoda) and Atlantic Cod (Gadus morhua)¶

Browman, Howard I.; Vetter, Russell D.; Rodriguez, C.; Cullen, John J.; Davis, Richard F.; Lynn, Eric A.; Pierre, Jean-François St.

doi:10.1562/0031-8655(2003)077<0397:unddit>2.0.co;2

Cited by 55 publications

(16 citation statements)

References 31 publications

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“…It is possible that chemical exposure of embryos early in the cleavage stage may damage the chorion, thus leading to high mortality; while damage to the chorion at later stages would have less effect on embryo survival when its role is less critical. Moreover, when subjected to UV irradiation, the more elastic cleavage stage chorion combined with the fluid-filled perivitelline space may provide embryos with protection from UVB [33]. Our findings are also in agreement with studies of calanoid copepod and Atlantic cod Gadus morhua , in which larvae were found to be more sensitive to UVB than eggs [33].…”

Section: Discussionsupporting

confidence: 90%

“…Moreover, when subjected to UV irradiation, the more elastic cleavage stage chorion combined with the fluid-filled perivitelline space may provide embryos with protection from UVB [33]. Our findings are also in agreement with studies of calanoid copepod and Atlantic cod Gadus morhua , in which larvae were found to be more sensitive to UVB than eggs [33]. …”

Section: Discussionsupporting

confidence: 90%

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UVA-induced photo recovery during early zebrafish embryogenesis

Dong

Monroe

Tiersch

et al. 2008

Journal of Photochemistry and Photobiology B: Biology

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DNA photorepair has been widely studied in simple aquatic organisms that live in the marine environment, but is less understood in more complex species that live in freshwater. In the present study, we evaluated UVA-induced DNA photo recovery in embryonic stages of zebrafish, Danio rerio, a freshwater model species. Evaluation of UVB exposure and UVA photo recovery of zebrafish embryos revealed different UVB tolerances and capacities for UVA photo recovery at different stages of development. Effective UVA photo recovery was observed at 3 h post-fertilization (hpf), 6–7 hpf, and 12 hpf, but not in the early cleavage stage (2–32 cells). UVA photo recovery was most effective during the gastrula stage (6–7 hpf) of development, and less effective at earlier stages (e.g., 3 hpf) or later stages (e.g., 12 hpf). Embryos at the cleavage stage of development were found to be tolerant to extreme levels of UVB exposure, and possible mechanisms were discussed. For embryos at 6–7 hpf, examination of time window (or delay of UVA exposure) that would still permit recovery from UVB exposure suggested a short time period of 2 h. The transgenic fli-1 zebrafish with fluorescent vascular structure was used to show that embryos with normal morphological appearance could exhibit a disrupted vascular patterning, suggesting that this endpoint could provide a sensitive tool for detection of UV damage.

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Section: Discussionsupporting

confidence: 90%

Section: Discussionsupporting

confidence: 90%

UVA-induced photo recovery during early zebrafish embryogenesis

Dong

Monroe

Tiersch

et al. 2008

Journal of Photochemistry and Photobiology B: Biology

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“…Alemanni et al [28] exposed juvenile rainbow trout to sub-lethal level of UV-B radiation and observed stressed behavior such as rapid and erratic displacements and an increase in oxygen consumption. UV-B induced DNA damage has been reported in a variety of fish larvae such as Atlantic cod [15], [46], northern anchovy ( Englausis mordax ) [47], icefish ( Cephalus aceratus ) [16] and Japanese medaka ( Oryzias latipes ) [48]. Moreover, ATP is required for the performance of the first step of excision repair of DNA damage [49], resulting in energy loss to the recovery process (energy that could otherwise be used for other metabolic processes).…”

Section: Discussionmentioning

confidence: 99%

“…Fish larvae are also often present in the surface waters (see [14]). A large number of studies have reported deleterious effects of UV-B on fish eggs and larvae such as DNA damage [15], [16], increased mortality [12], [13], [17]–[19] malformation [20], lesion of skins, eyes and brains [12], [21], [22], retarded growth [12], [23], and immune depression [23]–[26]. The indirect effects of UV radiation on aquatic ecosystems have recently been receiving more attention (e.g.…”

Section: Introductionmentioning

confidence: 99%

Effect of Sub-Lethal Exposure to Ultraviolet Radiation on the Escape Performance of Atlantic Cod Larvae (Gadus morhua)

et al. 2012

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The amount of ultraviolet (UV) radiation reaching the earth's surface has increased due to depletion of the ozone layer. Several studies have reported that UV radiation reduces survival of fish larvae. However, indirect and sub-lethal impacts of UV radiation on fish behavior have been given little consideration. We observed the escape performance of larval cod (24 dph, SL: 7.6±0.2 mm; 29 dph, SL: 8.2±0.3 mm) that had been exposed to sub-lethal levels of UV radiation vs. unexposed controls. Two predators were used (in separate experiments): two-spotted goby (Gobiusculus flavescens; a suction predator) and lion's mane jellyfish (Cyanea capillata; a “passive" ambush predator). Ten cod larvae were observed in the presence of a predator for 20 minutes using a digital video camera. Trials were replicated 4 times for goby and 5 times for jellyfish. Escape rate (total number of escapes/total number of attacks ×100), escape distance and the number of larvae remaining at the end of the experiment were measured. In the experiment with gobies, in the UV-treated larvae, both escape rate and escape distance (36%, 38±7.5 mm respectively) were significantly lower than those of control larvae (75%, 69±4.7 mm respectively). There was a significant difference in survival as well (UV: 35%, Control: 63%). No apparent escape response was observed, and survival rate was not significantly different, between treatments (UV: 66%, Control: 74%) in the experiment with jellyfish. We conclude that the effect and impact of exposure to sub-lethal levels of UV radiation on the escape performance of cod larvae depends on the type of predator. Our results also suggest that prediction of UV impacts on fish larvae based only on direct effects are underestimations.

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“…The most pronounced effect of prolonged exposure to UV in humans is induction and development of skin cancer (Brash 1997; Brash et al 1991; Setlow 1974). In aquatic organisms the effects of UV radiation include impairment of larval development in copepods and fish (Browman et al 2003; Hakkinen et al 2004; Hunter et al 1979), lesions to the brain and retina of developing fish (Hunter et al 1979), oxidative stress in Daphnia and in adult zebrafish (Vega and Pizarro 2000), and other effects as reviewed elsewhere (Dahms and Lee 2009; Häder et al 2007; Zagarese and Williamson 2001). …”

Section: Introductionmentioning

confidence: 99%

Induction of cytochrome P450 1 genes and stress response genes in developing zebrafish exposed to ultraviolet radiation

et al. 2010

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Ultraviolet (UV) radiation damages cell molecules, and has been suggested to upregulate mammalian cytochrome P4501 (CYP1) genes through an aryl hydrocarbon receptor (AHR) mediated mechanism. In this study, embryos and larvae of zebrafish (Danio rerio) were exposed to UV to determine the effects on expression of CYP1 and stress response genes in vivo in these fish. Zebrafish embryos were exposed for varying times to UV on two consecutive days, with exposure beginning at 24 and 48 hours post-fertilization (hpf). Embryos exposed for 2, 4 or 6 hours twice over two days to UVB (0.62 W/m 2 ; 8.9-26.7 kJ/m 2 ) plus UVA (2.05 W/m 2 ; 29.5-144.6 kJ/m 2 ) had moderately (2.4 ± 0.8-fold) but significantly upregulated levels of CYP1A. UVA alone had no effect on CYP1A expression. Proliferating cellular nuclear antigen (PCNA) and Cu-Zn superoxide dismutase (SOD1) transcript levels were induced (2.1 ± 0.2 and 2.3 ± 0.5 fold, respectively) in embryos exposed to two 6-hour pulses of 0.62 W/m 2 UVB (26.8 kJ/m 2 ). CYP1A was induced also in embryos exposed to higher intensity UVB (0.93 W/m 2 ) for two 3-hour or two 4-hour pulses (20.1 or 26.8 kJ/m 2 ). CYP1B1, SOD1 and PCNA expression was induced by the two 3-hour pulses of the higher intensity UVB, but not after two 4-hour pulses of the higher intensity UVB, possibly due to impaired condition of surviving embryos, reflected in a mortality of 34% at that UVB dose. A single 8-hour long exposure of zebrafish larvae (8 dpf) to UVB at 0.93 W/m 2 (26.8 kJ/m 2 ) significantly induced CYP1A and CYP1B1 expression, but other CYP1 genes (CYP1C1, CYP1C2 and CYP1D1) showed no increase. The results show that UVB can induce expression of CYP1 genes as well stress response genes in developing zebrafish, and that UVB intensity and duration influence the responses.

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Ultraviolet (280–400 nm)–induced DNA Damage in the Eggs and Larvae of Calanus finmarchicus G. (Copepoda) and Atlantic Cod (Gadus morhua)¶

Cited by 55 publications

References 31 publications

UVA-induced photo recovery during early zebrafish embryogenesis

UVA-induced photo recovery during early zebrafish embryogenesis

Effect of Sub-Lethal Exposure to Ultraviolet Radiation on the Escape Performance of Atlantic Cod Larvae (Gadus morhua)

Induction of cytochrome P450 1 genes and stress response genes in developing zebrafish exposed to ultraviolet radiation

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