Your search keyword '"Modenutti, Beatriz"' showing total 15 results

1. Melanin and antipredatory defenses in Daphnia dadayana under UVR exposure.

Author

Wolinski, Laura, Modenutti, Beatriz, and Balseiro, Esteban

Subjects

*MELANINS, *ULTRAVIOLET radiation, *OZONE layer depletion, *DAPHNIA, *AQUATIC animals, *WATER depth, *PHENOTYPIC plasticity

Abstract

Ultraviolet radiation (UVR) exposure has potentially hazardous effects on aquatic life, even more in the southern hemisphere, which is close to ozone layer depletion. Aquatic animals living in shallow water cannot escape from UVR effects swimming down, so they have to generate other traits to confront it (i.e., enzymes or pigments). Daphnia is a worldwide freshwater genus that inhabits ponds and lakes. Daphnia dadayana inhabits shallow lakes in Patagonia presenting a yellowish carapace and a horn‐like structure in juveniles assumed for avoiding invertebrate predator attacks. We aimed to determine the effect of UVR exposure on the accumulation of melanin and if the development of the antipredatory defense affects the antioxidant response (glutathione S‐transferase [GST] activity) to UVR. We carried out laboratory experiments with treatments with and without UVR exposure measuring melanin accumulation by photographic analyses. Also, we performed an experiment to generate the antipredatory structure exposing D. dadayana indirectly to the predaceous copepod Parabroteas sarsi. Our results showed that UVR increased melanin accumulation in D. dadayana and that the morphological structure against predators did not decrease the antioxidant enzymatic defenses (GST). Our concluding remarks are that D. dadayana is a successful organism that can use its phenotypic plasticity to cope with environmental stressors such as invertebrate predators and UVR exposure with no trade‐off between these two stressors. [ABSTRACT FROM AUTHOR]

Published

2020

2. Effect of ultraviolet radiation on clearance rate of planktonic copepods with different photoprotective strategies.

Author

Laspoumaderes, Cecilia, Bastidas Navarro, Marcela, Souza, María S., Modenutti, Beatriz, and Balseiro, Esteban

Subjects

COPEPODA, ULTRAVIOLET radiation, AMINO acids, EXPERIMENTAL agriculture, OPTICAL properties, RATES

Abstract

We studied two populations of Boeckella gracilipes and two populations of Boeckella gibbosa that inhabit mountain lakes from North‐Patagonian Andes with different optical properties. We combined field and laboratory experiments to determine the effects of ultraviolet radiation (UVR) on clearance rate among these taxa that had different UVR defences. The copepod populations differed in photoprotective compounds (carotenoids and mycosporine‐like amino acids [MAAs]) and antioxidant enzymes (glutathione S‐transferase [GST]). These variations were related to elevation, dissolved organic carbon content and the optical features of the inhabited lakes. Laboratory experiments showed a decrease in the clearance rate (CR) in all populations exposed to UVR. Consistently, the long‐term field experiment showed a negative impact of UVR on CR. We conclude that UVR exposure affects feeding, however, the magnitude of this negative effect depends on the exposure intensity and the photoprotective mechanisms used by zooplankton. [ABSTRACT FROM AUTHOR]

Published

2019

3. When eating a prey is risky: Implications for predator diel vertical migration.

Author

Modenutti, Beatriz E., Wolinski, Laura, Souza, Maria S., and Balseiro, Esteban G.

Subjects

*ZOOPLANKTON, *PATAGONIANS, *ULTRAVIOLET radiation, *OXIDATIVE stress, *GLUTATHIONE

Abstract

Abstract: Diel vertical migration (DVM) is a common behavior in zooplankton to avoid visual predation as well as potentially hazardous light wavelengths. In deep transparent lakes of Patagonia, the dark pigmented mixotrophic ciliate Stentor araucanus inhabits the upper layers of the epilimnion and is resistant to ultraviolet radiation (UVR). Here, we investigated if the ciliate pigment called stentorin increases oxidative stress in its predators. We studied the DVM behavior of Mesocyclops araucanus and the presence of stentorin in field‐collected copepods and evaluated in the laboratory the rate at which the copepod releases stentorin. S. araucanus has a C : P ratio ∼ 170 (atomic), which is one half of that of the bulk seston of the lake resulting in a very good food source in a system with very low food quality. Compared to an alternative prey without stentorin, when feeding on Stentor, the copepod suffered high oxidative stress (increased glutathione S‐transferase activity) and the reduced glutathion levels increased from dark to visible and ultraviolet radiation. However, we also determined that exposure to only visible light was sufficient to cause oxidative stress. In the field, we observed that M. araucanus displays a larger amplitude DVM than other crustaceans, while the ciliate Stentor remained in the upper levels of the epilimnion. The DVM protects the copepods from stentorin‐induced oxidative stress during daytime. Our findings are the first to show that a compound of a zooplankton prey item can influence the vertical behavior of predators in order to minimize the negative effect. [ABSTRACT FROM AUTHOR]

Published

2018

4. Fish-mediated trait compensation in zooplankton

Author

Hylander, Samuel, Souza, María Sol, Balseiro, Esteban Gabriel, Modenutti, Beatriz Estela, and Hansson, Lars Anders

Subjects

GLUTATHIONE S-TRANSFERASE, Otras Ciencias Biológicas, CHOLINESTERASE, ULTRAVIOLET RADIATION, purl.org/becyt/ford/1 [https], Ciencias Biológicas, ZOOPLANKTON, PHENOTYPIC PLASTICITY, TRAIT COMPENSATION, CAROTENOIDS, OXIDATIVE STRESS, purl.org/becyt/ford/1.6 [https], ENZYMES, CIENCIAS NATURALES Y EXACTAS

Abstract

Environmental factors fluctuate spatially and temporally, and organisms that can alter phenotype in response to these changes may increase their fitness. Zooplankton are known to be able to induce body pigmentation in response to ultraviolet radiation (UVR) and to reduce the pigmentation when exposed to fish predators. Hence, reduced pigmentation because of the presence of fish could potentially lead to UVR damage, which calls for alternative protective mechanisms. 2.We exposed zooplankton to fish cues and UVR stress to assess whether body pigmentation and cellular antioxidants are flexible predation and UVR defences. 3.Zooplankton exposed to fish predator cues (no direct predation) reduced their pigmentation by c. 30% in 20days. However, they were able to rapidly counteract negative UVR effects by increasing the activity of antioxidant defences such as glutathione S-transferase (GST). When exposed to UVR, the GST activity increased by c. 100% in zooplankton that had previously reduced their pigmentation because of fish cues. Transparency in the zooplankton did not lead to considerably higher UVR damage, here measured as inhibition of cholinesterase (ChE). 4.We conclude that zooplankton pigmentation and antioxidant enzymes are flexible UVR defence systems, which can be induced when needed. Zooplankton may employ antioxidant defences when pigmentation is reduced to counteract predation risk and thereby rapidly respond to detrimental effects of UVR exposure, that is, they can compensate one trait with another. Fil: Hylander, Samuel. Lund University; Suecia Fil: Souza, María Sol. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones en Biodiversidad y Medioambiente. Universidad Nacional del Comahue. Centro Regional Universidad Bariloche. Instituto de Investigaciones en Biodiversidad y Medioambiente; Argentina Fil: Balseiro, Esteban Gabriel. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones en Biodiversidad y Medioambiente. Universidad Nacional del Comahue. Centro Regional Universidad Bariloche. Instituto de Investigaciones en Biodiversidad y Medioambiente; Argentina Fil: Modenutti, Beatriz Estela. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte. Instituto de Investigaciones en Biodiversidad y Medioambiente. Universidad Nacional del Comahue. Centro Regional Universidad Bariloche. Instituto de Investigaciones en Biodiversidad y Medioambiente; Argentina Fil: Hansson, Lars Anders. Lund University; Suecia

Published

2012

5. Glacier melting and response of Daphnia oxidative stress.

Author

LASPOUMADERES, CECILIA, SOUZA, MARÍA SOL, MODENUTTI, BEATRIZ, and BALSEIRO, ESTEBAN

Subjects

GLACIERS, DAPHNIA, OXIDATIVE stress, ANTIOXIDANTS, FOOD quality

Abstract

We analysed the antioxidant response of Daphnia commutata in an oligotrophic North-Patagonian lake (Lake Mascardi) that receives inputs of glacial clay in one extreme, which creates a plume with a consequent gradient in underwater light intensity (including ultraviolet radiation) and suspended solid material. This gradient in light intensity also affects the light:nutrient ratio and hence the C:P ratio of the food for planktonic herbivores. In the field, along a 9 km transparency gradient, we measured the activities of glutathione S-transferase (GST) and catalase (CAT) enzymes involved in protection against UVR. Through laboratory experiments, we tested the possible role of suspended sediment particles as an additional stressor for a filter feeding zooplankter. Our results indicate that the inputs of glacial clay into the lake have antagonistic effects on Daphnia. Glacial clay was a stress mitigating factor to UVR (decrease in the antioxidant response of GST activity), but was also a source of stress that generated feeding interference, increased respiration rates and consequently increased CAT activity. This light gradient also affected the C:P ratio of food and the maximum response in GST is also modulated by food quality (C:P ratio) that limits its activity in the transparent end of the gradient. [ABSTRACT FROM AUTHOR]

Published

2017

6. Interactive effects of temperature, ultraviolet radiation and food quality on zooplankton alkaline phosphatase activity.

Author

Wolinski, Laura, Modenutti, Beatriz, Souza, Maria Sol, and Balseiro, Esteban

Subjects

ZOOPLANKTON, FOOD quality, PHYSIOLOGICAL effects of temperature, ULTRAVIOLET radiation, ALKALINE phosphatase, AQUATIC organisms

Abstract

Ultraviolet Radiation (UVR) is a stressor for aquatic organisms affecting enzyme activities in planktonic populations because of the increase in reactive oxygen species. In addition, UVR exposure combined with other environmental factors (i.e. temperature and food quality) could have even higher detrimental effects. In this work, we aimed to determine the effect of UVR on somatic Alkaline Phosphatase Activity (APA) and Glutathione S -Transferase (GST) activity on the cladoceran Daphnia commutata under two different temperatures (10 °C and 20 °C) and under three food qualities (carbon:phosphorus ratios: 1150, 850 and 550). APA is a biomarker that is considered as a P deficiency indicator in zooplankton. Since recovery from UVR damage under dark conditions is an ATP depending reaction we also measured APA during recovery phases. We carried out a laboratory experiment combining different temperatures and food qualities with exposition to UVR followed by luminic and dark phases for recovery. In addition, we exposed organisms to H 2 O 2 , to establish if the response on APA to UVR was a consequence of the reactive oxygen species produced these short wavelengths. Our results showed that somatic APA was negatively affected by UVR exposure and this effect was enhanced under high temperature and low food quality. Consistently, GST activity was higher when exposed to UVR under both temperatures. The H 2 O 2 experiments showed the same trend as UVR exposure, indicating that APA is affected mainly by oxidative stress than by direct effect of UVR on the enzyme. Finally, APA was affected in the dark phase of recovery confirming the P demands. These results enlighten the importance of food quality in the interacting effect of UVR and temperature, showing that C:P food ratio could determine the success or failure of zooplanktonic populations in a context of global change. [ABSTRACT FROM AUTHOR]

Published

2016

7. Rapid Enzymatic Response to Compensate UV Radiation in Copepods.

Author

Souza, María Sol, Hansson, Lars-Anders, Hylander, Samuel, Modenutti, Beatriz, and Balseiro, Esteban

Subjects

COPEPODA, ULTRAVIOLET radiation, DNA, CARBOXYLATION, LIPIDS, MORPHOLOGY

Abstract

Ultraviolet radiation (UVR) causes physical damage to DNA, carboxylation of proteins and peroxidation of lipids in copepod crustaceans, ubiquitous and abundant secondary producers in most aquatic ecosystems. Copepod adaptations for long duration exposures include changes in behaviour, changes in pigmentation and ultimately changes in morphology. Adaptations to short-term exposures are little studied. Here we show that short-duration exposure to UVR causes the freshwater calanoid copepod, Eudiaptomus gracilis, to rapidly activate production of enzymes that prevent widespread collateral peroxidation (glutathione S-transferase, GST), that regulate apoptosis cell death (Caspase-3, Casp-3), and that facilitate neurotransmissions (cholinesterase-ChE). None of these enzyme systems is alone sufficient, but they act in concert to reduce the stress level of the organism. The interplay among enzymatic responses provides useful information on how organisms respond to environmental stressors acting on short time scales. [ABSTRACT FROM AUTHOR]

Published

2012

8. Leachates and elemental ratios of macrophytes and benthic algae of an Andean high altitude wetland.

Author

Cuassolo, Florencia, Bastidas Navarro, Marcela, Balseiro, Esteban, and Modenutti, Beatriz

Subjects

HABITATS, WETLANDS, DISSOLVED organic matter, MACROPHYTES, ALGAE

Abstract

In wetlands, macrophytes and filamentous algae constitute an important carbon source for the total content of Dissolved Organic Matter (DOM) of the environment. Mallín wetland meadows are highly diverse and rare habitats in Patagonia, that can be characterized as wet meadows with a dense cover mainly dominated by herbaceous plants. We carried out a field study comparing elemental composition (C:N:P) of benthic algae (Spirogyra sp. and Zygnema sp.) and the submerged macrophyte (Myriophyllum quitense) from a high latitude wetland (local name: mallín). Besides we performed laboratory experiments in order to study the effect of ultraviolet radiation (UVR) on the optical properties and nutrient release of DOM from leachates of these benthic algae and submerged macrophyte. The obtained results indicated that macrophyte leachates could contribute significantly to changes in the optical characteristics of the wetlands while benthic algae contribute with leachates with low photoreactivity. Finally, nutrient release differs among plant species and season: benthic algae leachates release more P in spring, while M. quitense releases more of this nutrient in autumn. These results suggested that the different colonization may contribute differentially to the chemical environment of the wetland. [ABSTRACT FROM AUTHOR]

Published

2011

9. Climate-induced input of turbid glacial meltwater affects vertical distribution and community composition of phyto- and zooplankton.

Author

Hylander, Samuel, Jephson, Therese, Lebret, Karen, Von Einem, Jessica, Fagerberg, Tony, Balseiro, Esteban, Modenutti, Beatriz, Souza, María Sol, Laspoumaderes, Cecilia, Jönsson, Mikael, Ljungberg, Peter, Nicolle, Alice, Nilsson, Per Anders, Ranåker, Lynn, and Hansson, Lars-Anders

Subjects

MELTWATER, TURBIDITY, ZOOPLANKTON, GLOBAL warming, ULTRAVIOLET radiation, VERTICAL distribution (Aquatic biology), CHLOROPHYLL

Abstract

Receding glaciers are among the most obvious changes caused by global warming, and glacial meltwater entering lakes generally forms plumes of particles. By taking vertical samples along a horizontal gradient from such a particle source, we found that photosynthetically active radiation (PAR) and ultraviolet radiation (UVR) attenuated 20–25% faster close to the inflow of suspended particles compared with the more transparent part of the gradient. All sampled stations had a deep chlorophyll a (Chl a) maximum at 15–20 m which was more distinct in the transparent part of the horizontal gradient. Picocyanobacteria increased in abundance in more transparent water and their numbers were tightly correlated with the intensity of the deep Chl a maxima. Motile species of phytoplankton had a deeper depth distribution in transparent versus less transparent water. Yet other species, like Chrysochromulina parva, that can withstand high PAR intensities and low nutrient concentrations, increased in abundance as the water became more transparent. Also copepods increased in abundance, indicating that they are more successful in transparent water. We conclude that sediment input into lakes creates horizontal gradients in PAR and UVR attenuation which strongly affect both distribution and behavior of phyto- and zooplankton. The input of glacial flour creates a subhabitat that can function as a refuge for species that are sensitive to high PAR and UVR exposure. When the glacier has vanished, this habitat may disappear. During the melting period, with heavy sediment input, we predict that competitive species in transparent waters, like Chrysocromulina, picocyanobacteria and copepods, will become less common. The deep Chl a maxima is also likely to become less developed. Hence, glacier melting will probably have profound effects on both species composition and behavior of several planktonic taxa with potential effects on the food web. [ABSTRACT FROM AUTHOR]

Published

2011

10. UV radiation simultaneously affects phototrophy and phagotrophy in nanoflagellate-dominated phytoplankton from an Andean shallow lake.

Author

Bastidas Navarro, Marcela, Balseiro, Esteban, and Modenutti, Beatriz

Subjects

ULTRAVIOLET radiation, PHOTOTROPISM (Chemistry), PHYTOPLANKTON, FLAGELLATA, PHOTOSYNTHESIS, PHOSPHORUS, LAKES

Abstract

Mixotrophic nanoflagellates, that combine photosynthesis and phagotrophy, are important members of planktonic food webs in many aquatic environments depending on the balance among the different carbon and energy sources. We carried out field sampling and laboratory experiments with natural nanoflagellate assemblages from an Andean North-Patagonian lake exposing them or not to UVR, and measuring photosynthetic parameters and bacterivory. The effect of different light treatments on the photosynthetic efficiency was studied by the non-invasive, pulse amplitude-modulated (PAM) fluorescence technique, and bacterivory was assessed with fluorescently labeled bacteria (FLB). Mixotrophic nanoflagellates were clearly dominant (up to 90% of total phytoplankton and 88% of total nanoflagellate abundance), and in the experiments labeled bacteria were observed in more than 75% of mixotrophic cells. These results support the idea that these phytoflagellates were never entirely photosynthetic. The high light : phosphorus ratio and the high C : N : P ratio suggest a strong nutrient limitation towards P. Our results show that both functions, photosynthesis and bacteria ingestion, were simultaneously reduced by the same level of UVR. We estimated that UVR exposure of mixotrophic nanoflagellates reduced photosystem II activity between 23% and 31% while ingestion rates were reduced between 23% and 28%. Therefore, our results suggest that the different cell functions could be concurrently impacted by UVR, implying that patterns and rates of C transfer would be substantially altered in the microbial food web. [ABSTRACT FROM AUTHOR]

Published

2011

11. Ultraviolet Radiation Induces Filamentation in Bacterial Assemblages from North Andean Patagonian Lakes.

Author

Modenutti, Beatriz, Balseiro, Esteban, Corno, Gianluca, Callieri, Cristiana, Bertoni, Roberto, and Caravati, Emanuele

Subjects

*ULTRAVIOLET radiation, *COLLOIDS, *BACTEROIDES, *PHOTOBIOLOGY, *PHOTOCHEMISTRY

Abstract

Through laboratory experiments, we tested whether UV radiation (UVR) induces filamentation in natural bacteria assemblages from North Andean Patagonian lakes. We incubated water from three different lakes for 72 h in four separate treatments: (1) UVR + PAR (photosynthetically active radiation), (2) 50% UVR + PAR, (3) PAR and (4) 50% PAR. The irradiance levels used in the experiments were equivalent to those registered at the epilimnion of the lakes. In the UVR treatments filamentation was induced after the first 24 h and the proportion continued to increase for the next 48–72 h. A comparison of the gross composition and diversity of the entire community (cells >0.2 μm) with bacterial filaments alone (>5.0 μm) showed that UVR-induced filamentation is not a feature of any particular cluster. By sequencing part of the 16S rRNA gene of the taxonomic units obtained using denaturing gels, we observed that strains in the β-Proteobacteria group were of relatively high importance in filament formation, followed by Cytophaga–Flavobacterium–Bacteroides, γ-Proteobacteria and α-Proteobacteria, whereas Actinobacteria were almost nonexistent in the filaments. We propose that UVR doses equivalent to those of Andean lakes produce bacterial morphological changes, and that all bacterial groups except Actinobacteria can potentially form filaments. [ABSTRACT FROM AUTHOR]

Published

2010

12. Effect of Ultraviolet Radiation on Acetylcholinesterase Activity in Freshwater Copepods.

Author

Souza, María Sol, Balseiro, Esteban, Laspoumaderes, Cecilia, and Modenutti, Beatriz

Subjects

ULTRAVIOLET radiation, ACETYLCHOLINESTERASE, CHOLINESTERASES, COPEPODA, FRESHWATER animals

Abstract

We analyzed the effects of UV radiation (UVR) effects on acetylcholinesterase (AChE) activity in two calanoid copepods, Boeckella gibbosa and Parabroteas sarsi that inhabit Patagonian shallow lakes. We studied the effect of experimental UVR (UV-B and UV-A) exposure on AChE activity in relation to basal antioxidant capacities of both copepods. Our experiments showed that UVR can effectively depress AChE activity, although with differences between species. In both copepods AChE was affected by UV-B, whereas UV-A only affected AChE in B. gibbosa. Both copepods also differed in body elemental composition (C:N:P), photoprotecting compound content (carotenoids and mycosporine-like amino acids) and enzymatic antioxidant capacity (glutathione S-transferase [GST]). Our results suggest that when exposed to UVR, AChE activity would depend more on the antioxidant capacity (GST) and P availability for enzyme synthesis than on the photoprotective compounds. [ABSTRACT FROM AUTHOR]

Published

2010

13. Effect of chronic UVR exposure on zooplankton molting and growth.

Author

Wolinski, Laura, Souza, María Sol, Modenutti, Beatriz, and Balseiro, Esteban

Subjects

MOLTING, POPULATION dynamics, DAPHNIA, RADIATION exposure, ULTRAVIOLET radiation

Abstract

Molting is a crucial physiological process in arthropods development, growth, and adult reproduction, where the chitinolytic enzyme chitobiase (CB) and the apoptosis process (caspase-3 activity) play crucial roles. Both molecular endpoints have been observed to be affected by different toxics that may be present in aquatic environments. However, the role of ultraviolet radiation (UVR) in the molting process remains with poor evidence and the possible effect of the previous exposure on F1 generation is unknown. Here, we conducted laboratory experiments with chronic UVR exposure to test the effect on the molting process of Daphnia commutata. Our results showed a clear negative effect of the UVR that affected the molting process with a reduction in individual growth. This trend was also observed in CB and caspase-3 activities. Our results also suggest that the UV dose received by the mother and eggs has an additive effect with the dose received by the offspring. These results imply that the cumulative impact of small UVR doses (2 h per day, daily dose: 2520 J m−2 of 340 nm) on mothers and eggs (which cannot be discriminated in our experiments) can have an additive or synergistic effect along with the generations through a potential increase in lethal effect. Finally, the observed desynchronization in the molting process by UVR will affect the fitness of individuals and population dynamics. Image 1 • Chronic exposure to ultraviolet radiation affects ecdysis and growth in Daphnia. • Chitobiase activity decreased and caspase-3 increased. • Molting was desynchronized and reproduction was reduced by UVR exposure. • This deleterious effect in enzyme activity was observed across two generations. • We showed, for the first time, a synergistic effect on molting across generation. Chronic exposure to ultraviolet radiation has a negative effect on chitobiase and caspase-3 activities that, in turn, affect the molting process in D. commutata in the parental and offspring generations. [ABSTRACT FROM AUTHOR]

Published

2020

14. Bacterial diversity and morphology in deep ultraoligotrophic Andean lakes: The role of UVR on vertical distribution.

Author

Corno, Gianluca, Modenutti, Beatriz E., Callieri, Cristiana, Balseiro, Esteban G., Bertoni, Roberto, and Caravati, Emanuele

Subjects

*BACTERIAL diversity, *MORPHOLOGY, *ULTRAVIOLET radiation, *VERTICAL distribution (Aquatic biology)

Abstract

We investigated the community composition and the relative size-shape distribution of bacterial assemblages in deep transparent lakes, where bacteria may be affected by harmful ultraviolet radiation (UVR). Summer samples of the euphotic zones of nine ultraoligotrophic lakes located in different drainage basins between 40°27' and 42°49'S in the North Andean Patagonia were analyzed for relative diversity by denaturating gradient gel electrophoresis and the bacterial morphology (free-living cocci and rods vs. filamentous forms) in relation to environmental factors (UVR, photosynthetically active radiation, temperature, nutrients, nanoflagellates, and ciliate abundances). The overall bacterial community composition was similar in all lakes and over depth in each lake. In contrast, the relative proportion of filaments to total bacterial biovolume was higher in the upper layers, which have higher UVR intensities (305-340 nm). Lakes with lower Kd305 (diffuse extinction coefficient, 305 nm) showed a greater proportion of filaments. Filament mean length in the upper layers was also significantly greater than at deeper levels. There was a significant correlation between UVR and filament proportion, whereas neither nanopredator abundances (nanoflagellates and ciliates), nor predation pressure, nor resources (dissolved nutrients) could explain the high proportion of filamentation in the near-surface layers. We propose that UVR plays a decisive role stimulating bacterial filamentation, particularly in lakes with high UVR penetration. [ABSTRACT FROM AUTHOR]

Published

2009

15. Living in transparent lakes: Low food P:C ratio decreases antioxidant response to ultraviolet radiation in Daphnia.

Author

Balseiro, Esteban, Souza, María Sol, Modenutti, Beatriz, and Reissig, Mariana

Subjects

FOOD quality, ANTIOXIDANTS, ULTRAVIOLET radiation, DAPHNIA, CHLAMYDOMONAS reinhardtii, PHOSPHORUS

Abstract

We experimentally tested the effect of food quality (phosphorus [P] : carbon [C] ratio) on the response of antioxidant enzymes to ultraviolet radiation (UVR) in Daphnia commutata fed with Chlamydomonas reinhardtii. Algal cultures were grown at different concentrations of phosphorus and light intensities, resulting in significant differences in the P :C ratios (mmol P[µmol C]-1; 6.05, 1.70, and 0.83). After 12 d of D. commutata growth under these three food quality treatments, we observe d significant differences in individual biomass and protein content of Daphnia. Subsequently, we carried out an ultraviolet exposure experiment to determine if stoichiometric constraints imposed would limit enzymatic defenses against UVR oxidative stress. The UVR-exposure experiment consisted of a factorial design with three levels of food P :C (low, medium, and high) and two levels of UVR (exposed and protected). The activities of glutathione S-transferases (GST) and catalase (CAT), enzymes involved in protection and repair of damage caused by UVR, were determined. Enzyme activities in the animals exposed to or protected from UVR showed a direct relationship with food P :C ratio that fit exponential models. Although GST and CAT differed slightly in their response to UVR, both enzymes were significantly affected by food quality: In low P :C treatments, there was significantly lower enzyme activity in response to UVR for both enzymes. Low food quality (less P for biosynthesis) may also impose a weaker antioxidant response on the organisms, a response of considerable ecological relevance in transparent Andean lakes which combine high UVR intensities with low seston P :C ratios. [ABSTRACT FROM AUTHOR]

Published

2008