Your search keyword '"Ek, Caroline"' showing total 6 results

1. Increase in stable isotope ratios driven by metabolic alterations in amphipods exposed to the beta-blocker propranolol.

Author

Ek, Caroline, Garbaras, Andrius, Yu, Zhenyang, Oskarsson, Hanna, Wiklund, Ann-Kristin Eriksson, Kumblad, Linda, and Gorokhova, Elena

Subjects

*STABLE isotopes, *POLLUTANTS, *ISOTOPIC signatures, *AMPHIPODA, *BODY size, *OXIDANT status

Abstract

Anthropogenic pressures, such as contaminant exposure, may affect stable isotope ratios in biota. These changes are driven by alterations in the nutrient allocation and metabolic pathways induced by specific stressors. In a controlled microcosm study with the amphipod Gammarus spp., we studied effects of the β-blocker propranolol on stable isotope signatures (δ15N and δ13C), elemental composition (%C and %N), and growth (protein content and body size) as well as biomarkers of oxidative status (antioxidant capacity, ORAC; lipid peroxidation, TBARS) and neurological activity (acetylcholinesterase, AChE). Based on the known effects of propranolol exposure on cellular functions, i.e., its mode of action (MOA), we expected to observe a lower scope for growth, accompanied by a decrease in protein deposition, oxidative processes and AChE inhibition, with a resulting increase in the isotopic signatures. The observed responses in growth, biochemical and elemental variables supported most of these predictions. In particular, an increase in %N was observed in the propranolol exposures, whereas both protein allocation and body size declined. Moreover, both ORAC and TBARS levels decreased with increasing propranolol concentration, with the decrease being more pronounced for TBARS, which indicates the prevalence of the antioxidative processes. These changes resulted in a significant increase of the δ15N and δ13C values in the propranolol-exposed animals compared to the control. These findings suggest that MOA of β-blockers may be used to predict sublethal effects in non-target species, including inhibited AChE activity, improved oxidative balance, and elevated stable isotope ratios. The latter also indicates that metabolism-driven responses to environmental contaminants can alter stable isotope signatures, which should be taken into account when interpreting trophic interactions in the food webs. [ABSTRACT FROM AUTHOR]

Published

2019

2. Growth Retardation and Altered Isotope Composition As Delayed Effects of PCB Exposure in Daphnia magna.

Author

Ek, Caroline, Gerdes, Zandra, Garbaras, Andrius, Adolfsson-Erici, Margaretha, and Gorokhova, Elena

Subjects

*DAPHNIA magna, *POLLUTANTS, *STABLE isotopes, *CHEMICAL species, *POLYCHLORINATED biphenyls, *BIOMAGNIFICATION

Abstract

Trophic magnification factor (TMF) analysis employs stable isotope signatures to derive biomagnification potential for environmental contaminants. This approach relies on species δ15N values aligning with their trophic position (TP). This, however, may not always be true, because toxic exposure can alter growth and isotope allocation patterns. Here, effects of PCB exposure (mixture of PCB18, PCB40, PCB128, and PCB209) on δ15N and δ13C as well as processes driving these effects were explored using the cladoceran Daphnia magna. A two-part experiment assessed effects of toxic exposure during and after exposure; juvenile daphnids were exposed during 3 days (accumulation phase) and then allowed to depurate for 4 days (depuration phase). No effects on survival, growth, carbon and nitrogen content, and stable isotope composition were observed after the accumulation phase, whereas significant changes were detected in adults after the depuration phase. In particular, a significantly lower nitrogen content and a growth inhibition were observed, with a concomitant increase in δ15N (+0.1 ‰) and decrease in δ13C (-0.1 ‰). Although of low magnitude, these changes followed the predicted direction indicating that sublethal effects of contaminant exposure can lead to overestimation of TP and hence underestimated TMF. [ABSTRACT FROM AUTHOR]

Published

2016

3. Stable Isotope Composition in Daphnia Is Modulated by Growth, Temperature, and Toxic Exposure: Implications for Trophic Magnification Factor Assessment.

Author

Ek, Caroline, Karlson, Agnes M. L., Hansson, Sture, Garbaras, Andrius, and Gorokhova, Elena

Subjects

*DAPHNIA, *STABLE isotope analysis, *FOOD chains, *TOXIC substance exposure, *POLLUTANTS, *PHYSIOLOGY

Abstract

The potential for using stable isotope analysis in risk assessment of environmental contaminants is crucially dependent on the predictability of the trophic transfer of isotopes in food webs. The relationship between contaminant levels and trophic position of consumers is widely used to assess biomagnification properties of various pollutants by establishing trophic magnification factors (TMF). However, contaminant-induced variability of the isotopic composition in biota is poorly understood. Here, we investigated effects of toxic exposure on δ15N and δ13C values in a consumer, with a main hypothesis that these effects would be largely mediated via growth rate and metabolic turnover of the test animals. The cladoceran Daphnia magna was used in two experiments that were conducted to manipulate growth and body condition (assayed as C:N ratio) by food availability and temperature (Experiment 1) and by toxic exposure to the pesticide lindane (Experiment 2). We found a significant negative effect of growth rate and a positive effect of temperature on the consumer-diet discrimination factor for δ15N and δ13C, with no effects on the C:N ratio (Experiment 1). In lindane-exposed daphnids, a significant growth inhibition was observed, with concomitant increase in metabolic costs and significantly elevated size-specific δ15N and δ13C values. Moreover, a significantly higher incorporation of carbon relative to nitrogen, yet a concomitant decrease in C:N ratio was observed in the exposed animals. Together, these results have methodological implications for determining trophic positions and TMF in polluted environments, where elevated δ15N values would translate into overestimated trophic positions and underestimated TMF. Furthermore, altered δ13C values may lead to erroneous food-chain assignment of the consumer in question. [ABSTRACT FROM AUTHOR]

Published

2015

4. The importance of adjusting contaminant concentrations using environmental data: A retrospective study of 25 years data in Baltic blue mussels.

Author

Ek, Caroline, Faxneld, Suzanne, Nyberg, Elisabeth, Rolff, Carl, and Karlson, Agnes M.L.

Abstract

To improve the statistical power of detecting changes in contaminant concentrations over time, it is critical to reduce both the within- and between-year variability by adjusting the data for relevant confounding variables. In this study, we present a method for handling multiple confounding variables in contaminant monitoring. We evaluate the highly variable temporal trends of Polycyclic Aromatic Hydrocarbons (PAHs) in blue mussels from the central Baltic Sea during the period 1987–2016 (data from 25 years during this period) using various regression analyses. As potential explanatory variables related to PAH exposure, we use mussel size and retrospective analyses of mussel δ15N and δ13C (representing large scale biogeochemical changes as a result of e.g. eutrophication and terrestrial inputs). Environmental data from concurrent monitoring programmes (seasonal data on Chlorophyll- a , salinity and temperature in the water column, bioturbation of sediment dwelling fauna) were included as variables related to feeding conditions. The concentrations of high-molecular-weight and low-molecular-weight PAHs in blue mussel were statistically linked to different combinations of environmental variables. Adjustment using these predictors decreased the coefficient of variation in all 15 PAHs tested and improved the statistical power to detect changes. Moreover, the adjustment also resulted in a significant downward trend for fluoranthene that could not be detected initially. For another PAH, benzo(g , h , i)perylene, adjustment which reduced variation resulted in the loss of an apparent downward trend over time. Hence, our study highlights the importance of using auxilliary data to reduce variability caused by environmental factors with general effects on physiology when assessing contaminant time trends. Furthermore, it illustrates the importance of extensive and well designed monitoring programmes to provide relevant data. Unlabelled Image • Long term biogeochemical/oceanographical data are linked to PAH burden in mussels. • A method for handling multiple confounding variables in contaminant monitoring • Adjustment for environmental data reduced coefficient of variation in mussel PAH. • Adjustment resulted in significant downward trends not detected in rawdata. • Extensive and well designed monitoring programs are critical to provide relevant data. [ABSTRACT FROM AUTHOR]

Published

2021

5. Correction to Growth Retardation and Altered Isotope Composition As Delayed Effects of PCB Exposure in Daphnia magna.

Author

Ek, Caroline, Gerdes, Zandra, Garbaras, Andrius, Adolfsson-Erici, Margaretha, and Gorokhova, Elena

Subjects

*PHYSIOLOGICAL effects of polychlorinated biphenyls, *DAPHNIA magna, *DWARFISM, *PHYSIOLOGY

Published

2016

6. Microplastic-mediated transport of PCBs? A depuration study with Daphnia magna.

Author

Gerdes, Zandra, Ogonowski, Martin, Nybom, Inna, Ek, Caroline, Adolfsson-Erici, Margaretha, Barth, Andreas, and Gorokhova, Elena

Subjects

*PLASTIC marine debris, *DAPHNIA magna, *AQUATIC organisms, *ALGAL growth

Abstract

The role of microplastic (MP) as a carrier of persistent organic pollutants (POPs) to aquatic organisms has been a topic of debate. However, the reverse POP transport can occur if relative contaminant concentrations are higher in the organism than in the microplastic. We evaluated the effect of microplastic on the PCB removal in planktonic animals by exposing the cladoceran Daphnia magna with a high body burden of polychlorinated biphenyls (PCB 18, 40, 128 and 209) to a mixture of microplastic and algae; daphnids exposed to only algae served as the control. As the endpoints, we used PCB body burden, growth, fecundity and elemental composition (%C and %N) of the daphnids. In the daphnids fed with microplastic, PCB 209 was removed more efficiently, while there was no difference for any other congeners and ΣPCBs between the microplastic-exposed and control animals. Also, higher size-specific egg production in the animals carrying PCB and receiving food mixed with microplastics was observed. However, the effects of the microplastic exposure on fecundity were of low biological significance, because the PCB body burden and the microplastic exposure concentrations were greatly exceeding environmentally relevant concentrations. [ABSTRACT FROM AUTHOR]

Published

2019