Effects of UV radiation on aquatic ecosystems and interactions with climate change

Häder, Donat‐P.; Kumar, H. D.; Smith, R. C.; Worrest, Robert C.

doi:10.1039/c0pp90036b

Cited by 394 publications

(230 citation statements)

References 282 publications

(254 reference statements)

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“…Under a scenario of global climate change, important changes in the physiology of diverse aquatic organisms are expected (Beardall et al, 2009;Häder et al, 2011), especially due to variations in UVR and temperature levels. In this sense, it has been found that UVR strongly influences photosynthesis and calcification of Emiliania huxleyi under CO 2 -induced ocean acidification (Gao et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Photosynthetic responses of <i>Emiliania huxleyi</i> to UV radiation and elevated temperature: roles of calcified coccoliths

Gao

Villafañe

et al. 2011

Biogeosciences

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Abstract. Changes in calcification of coccolithophores may affect their photosynthetic responses to both, ultraviolet radiation (UVR, 280-400 nm) and temperature. We operated semi-continuous cultures of Emiliania huxleyi (strain CS-369) at reduced (0.1 mM, LCa) and ambient (10 mM, HCa) Ca 2+ concentrations and, after 148 generations, we exposed cells to six radiation treatments (>280, >295, >305, >320, >350 and >395 nm by using Schott filters) and two temperatures (20 and 25 • C) to examine photosynthesis and calcification responses. Overall, our study demonstrated that: (1) decreased calcification resulted in a down regulation of photoprotective mechanisms (i.e., as estimated via non-photochemical quenching, NPQ), pigments contents and photosynthetic carbon fixation; (2) calcification (C) and photosynthesis (P ) (as well as their ratio) have different responses related to UVR with cells grown under the high Ca 2+ concentration being more resistant to UVR than those grown under the low Ca 2+ level; (3) elevated temperature increased photosynthesis and calcification of E. huxleyi grown at high Ca 2+ concentrations whereas decreased both processes in low Ca 2+ grown cells. Therefore, a decrease in calcification rates in E. huxleyi is expected to decrease photosynthesis rates, resulting in a negative feedback that further reduces calcification.

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Section: Introductionmentioning

confidence: 99%

Photosynthetic responses of <i>Emiliania huxleyi</i> to UV radiation and elevated temperature: roles of calcified coccoliths

Gao

Villafañe

et al. 2011

Biogeosciences

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“…The studied period is 1983-2008, containing (IR). Finally, we work with ultra violet radiation A data (UVA), which comprises from 320 to 400 nm, because the 95% of wavelengths longer than 310 nm reach the surface (Lean et al, 1997) and has a large impact on marine ecosystems (Toole et al 2006;Hefu et al 1997;Slezak et al 2003;Kniventon et al 2003;Häder et al 2011). We use the UVA composite series from the Nimbus7 (1978)(1979)(1980)(1981)(1982)(1983)(1984)(1985), NOAA-9 (1985NOAA-9 ( -1989, NOAA-11 (1989NOAA-11 ( -1992and SUSIM satellites between 1992and 2008(DeLand et al, 2008.…”

Section: Region Of Study and Datamentioning

confidence: 99%

Climate interaction mechanism between solar activity and terrestrial biota

Osorio-Rosales¹,

Mendoza²

2011

Proc. IAU

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Abstract. The solar activity has been proposed as one of the main factors of Earth's climate variability, however biological processes have been also proposed. Dimethylsulfide (DMS) is the main biogenic sulfur compound in the atmosphere. DMS is mainly produced by the marine biosphere and plays an important role in the atmospheric sulfur cycle. Currently it is accepted that terrestrial biota not only adapts to environmental conditions but influences them through regulations of the chemical composition of the atmosphere. In the present study we used different methods of analysis to investigate the relationship between the DMS, Low Clouds, Ultraviolet Radiation A (UVA) and Sea Surface Temperature (SST) in the Southern Hemisphere. We found that the series analyzed have different periodicities which can be associated with climatic and solar phenomena such as El Niño, the Quasi-Biennial Oscillation (QBO) and the changes in solar activity. Also, we found an anticorrelation between DMS and UVA, the relation between DMS and clouds is mainly non-linear and there is a correlation between DMS and SST. Then, our results suggest a positive feedback interaction among DMS, solar radiation and cloud at time-scales shorter than the solar cycle.

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“…In addition, increased amounts of nutrients, originated both from climate change (e.g., atmospheric deposition, wind, precipitation) and from increased land usage (e.g., agricultural and cattle activities) are introduced into estuaries and coastal areas (Findlay, 2005;Monteith et al, 2007). Still, organisms might be exposed to increased levels of solar ultraviolet radiation (280-400 nm) by at least two processes-the depletion of the ozone layer and/or the increased stratification of the water column due to global warming (Beardall et al, 2009;Häder et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

“…Anthropogenic activities have caused major changes on our planet through a process collectively named as climate change (IPCC, 2013), which is responsible for diverse impacts on aquatic organisms and ecosystems (Hays et al, 2005;Häder et al, 2011;Winder and Sommer, 2012). In coastal systems, these changes in climate affect the performance of individuals at various stages of their life history, influence the dispersal and recruitment at the population level and alter the abundance and the strength of interactions and trophic relationships (e.g., predator-prey) at the community level (Harley et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

Combined impact of ultraviolet radiation and increased nutrients supply: a test of the potential anthropogenic impacts on the benthic amphipod Amphitoe valida from Patagonian waters (Argentina)

Valiñas¹,

Bermejo²,

Galbán³

et al. 2014

Front. Environ. Sci.

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Experiments were conducted during the Austral Summer of 2014 to determine the effects of increased nutrient input and ultraviolet radiation (UVR) on the food consumption rate (FCR) and food preference in the amphipod Amphitoe valida. We collected specimens from the Patagonian coast (Argentina), from beaches close (Barrancas Blancas; BB) and further away (Cangrejales; C) from the Chubut River, which constitutes the potential source of eutrophication. Organisms were exposed to different radiation regimes (full radiation vs. PAR only) and fed with different macroalgae diets (i.e., from different geographical location and with different quality in terms on nutrient content). Males collected from C showed food compensation, consuming more food under low-nutrient diets, while no compensation was observed in males from BB. Regardless of their origin, UVR decreased the FCR when males where fed on ambient nutrient diets, but not when males fed on high-quality diets indicating that in the former case, individuals were in worse physiological conditions to cope with UVR; food quality, however, significantly counteracted the deleterious effects of UVR on FCR. Females collected from the two beaches showed similar FCR under high-nutrient diet and had no food compensation when fed in low-nutrient diets. Females were more vulnerable to UVR, since their FCR were lower when exposed to UV radiation independent of the diet. Our results show that under anthropogenic eutrophication and high solar UVR levels an increase in the nutrient input could favor only males of A. valida, by reducing the negative effects of UVR on their FCR. Nevertheless, these nutrient inputs might cause additional problems like anoxia, as a result of an unusual macroalgal growth, thus affecting amphipod's survival.

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Effects of UV radiation on aquatic ecosystems and interactions with climate change

Cited by 394 publications

References 282 publications

Photosynthetic responses of <i>Emiliania huxleyi</i> to UV radiation and elevated temperature: roles of calcified coccoliths

Photosynthetic responses of <i>Emiliania huxleyi</i> to UV radiation and elevated temperature: roles of calcified coccoliths

Climate interaction mechanism between solar activity and terrestrial biota

Combined impact of ultraviolet radiation and increased nutrients supply: a test of the potential anthropogenic impacts on the benthic amphipod Amphitoe valida from Patagonian waters (Argentina)

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Effects of UV radiation on aquatic ecosystems and interactions with climate change

Cited by 394 publications

References 282 publications

Photosynthetic responses of &lt;i&gt;Emiliania huxleyi&lt;/i&gt; to UV radiation and elevated temperature: roles of calcified coccoliths

Photosynthetic responses of &lt;i&gt;Emiliania huxleyi&lt;/i&gt; to UV radiation and elevated temperature: roles of calcified coccoliths

Climate interaction mechanism between solar activity and terrestrial biota

Combined impact of ultraviolet radiation and increased nutrients supply: a test of the potential anthropogenic impacts on the benthic amphipod Amphitoe valida from Patagonian waters (Argentina)

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Photosynthetic responses of <i>Emiliania huxleyi</i> to UV radiation and elevated temperature: roles of calcified coccoliths

Photosynthetic responses of <i>Emiliania huxleyi</i> to UV radiation and elevated temperature: roles of calcified coccoliths