Your search keyword '"McCallum, Erin S."' showing total 7 results

1. Persistence of an invasive fish (Neogobius melanostomus) in a contaminated ecosystem

Author

McCallum, Erin S., Charney, Rachel E., Marenette, Julie R., Young, Jennifer A. M., Koops, Marten A., Earn, David J. D., Bolker, Benjamin M., and Balshine, Sigal

Published

2014

2. Fish living near two wastewater treatment plants have unaltered thermal tolerance but show changes in organ and tissue traits.

Author

Nikel, Kirsten E., McCallum, Erin S., Mehdi, Hossein, Du, Sherry N.N., Bowman, Jennifer E., Midwood, Jonathan D., Scott, Graham R., and Balshine, Sigal

Abstract

Municipal wastewater treatment plants (WWTPs) are a significant source of anthropogenic pollutants and are a serious environmental stressor in Laurentian Great Lakes ecosystems. In this study, we examined whether three freshwater fish species (bluegill sunfish Lepomis macrochirus , green sunfish Lepomis cyanellus , and round goby Neogobius melanostomus) collected near two wastewater effluent outflows in Lake Ontario showed altered measures of somatic investment and thermal tolerance. Fish of all three species collected near the WWTPs were larger with 50–60% heavier body masses compared to those collected at reference sites. Green sunfish had higher body condition and increased haematocrit at wastewater-contaminated sites, and both round goby and bluegill sunfish had larger livers (controlling for body mass) at wastewater-contaminated sites. Thermal tolerance (critical thermal maximum, CT max) differed between species (green sunfish > bluegill sunfish > round goby), but was similar in fish collected at wastewater-contaminated sites compared to cleaner reference sites. Wastewater-contaminated sites had poorer water quality, higher nutrient loadings, and higher concentrations of anthropogenic contaminants (measured via polar organic chemical integrative samplers, POCIS) than reference sites. Our results suggest that fish in the wild may have some capacity to cope with WWTP effluent and avoid any potential impairments in thermal tolerance. Our findings also suggest that treated wastewater is changing water quality locally in Great Lakes watersheds, and that many fish species may be able to access extra nutrients provided by such effluent outflows. However, if outflow areas become preferred foraging areas this will inadvertently increase exposure to anthropogenic stressors and pollutants. [ABSTRACT FROM AUTHOR]

Published

2021

3. Growth and otolith morphology vary with alternative reproductive tactics and contaminant exposure in the round goby Neogobius melanostomus.

Author

Bose, Aneesh P. H., McCallum, Erin S., Raymond, Kate, Marentette, Julie R., and Balshine, Sigal

Subjects

*NEOGOBIUS, *GOBIIDAE, *OTOLITHS, *FISH behavior, *FISH reproduction

Abstract

Round goby Neogobius melanostomus sagittal (saccular) otolith morphology was compared between males of the two alternative reproductive tactics (termed guarder and sneaker males) and between males captured from sites of high or low contamination. Otolith size increased with fish size and also displayed an ontogenetic shift in shape, becoming relatively taller as otoliths grew in size. Despite a considerable overlap in age between males adopting the two reproductive tactics, size‐at‐age measurements revealed that guarder males are significantly larger than sneakers at any given age and that they invest more into somatic growth than sneaker males. Controlling for body size, sneaker males possessed heavier sagittal otoliths than guarder males. Subtle otolith shape differences were also found between the two male tactics and between sites of high and low contaminant exposure. Sneaker males had relatively shorter otoliths with more pronounced notching than guarder males. Fish captured at sites of high contamination had otoliths showing slower growth rates in relation to body size and their shapes had more pronounced caudal points and ventral protrusions when compared with fish captured at sites of low contamination. The results are discussed in relation to life‐history tradeoffs between the male tactics in terms of reproductive and somatic investment as well as the putative metabolic costs of exposure to contaminants. Overall, this study reveals that male alternative reproductive tactics and environmental contaminants can have small, yet measurable, effects on otolith morphology and these factors should be accounted for in future research when possible. [ABSTRACT FROM AUTHOR]

Published

2018

4. Exposure to wastewater effluent affects fish behaviour and tissue-specific uptake of pharmaceuticals.

Author

Mccallum, Erin S., Krutzelmann, Emily, Brodin, Tomas, Fick, Jerker, Sundelin, Anna, and Balshine, Sigal

Subjects

*INDUSTRIAL waste & the environment, *TISSUE-specific antigens, *EFFECT of environment on fishes, *EFFECT of water pollution on aquatic organisms, *WASTEWATER treatment, ENVIRONMENTAL aspects

Abstract

Pharmaceutical active compounds (PhACs) are increasingly being reported in wastewater effluents and surface waters around the world. The presence of these products, designed to modulate human physiology and behaviour, has created concern over whether PhACs similarly affect aquatic organisms. Though laboratory studies are beginning to address the effects of individual PhACs on fish behaviour, few studies have assessed the effects of exposure to complex, realistic wastewater effluents on fish behaviour. In this study, we exposed a wild, invasive fish species—the round goby ( Neogobius melanostomus )—to treated wastewater effluent (0%, 50% or 100% effluent dilutions) for 28 days. We then determined the impact of exposure on fish aggression, an important behaviour for territory acquisition and defense. We found that exposure to 100% wastewater effluent reduced the number of aggressive acts that round goby performed. We complimented our behavioural assay with measures of pharmaceutical uptake in fish tissues. We detected 11 of 93 pharmaceutical compounds that we tested for in round goby tissues, and we found that concentration was greatest in the brain followed by plasma, then gonads, then liver, and muscle. Fish exposed to 50% and 100% effluent had higher tissue concentrations of pharmaceuticals and concentrated a greater number of pharmaceutical compounds compare to control fish exposed to no (0%) effluent. Exposed fish also showed increased ethoxyresorufin- O -deethylase (EROD) activity in liver tissue, suggesting that fish were exposed to planar halogenated/polycyclic aromatic hydrocarbons (PHHs/PAHs) in the wastewater effluent. Our findings suggest that fish in effluent-dominated systems may have altered behaviours and greater tissue concentration of PhACs. Moreover, our results underscore the importance of characterizing exposure to multiple pollutants, and support using behaviour as a sensitive tool for assessing animal responses to complex contaminant mixtures, like wastewater effluent. [ABSTRACT FROM AUTHOR]

Published

2017

5. Diet and foraging of Round Goby ( Neogobius melanostomus ) in a contaminated harbour.

Author

McCallum, Erin S., Marentette, Julie R., Schiller, Claire, Jindal, Shagun, Empringham, Kyle, Marsh-Rollo, Susan, Pettitt-Wade, Harri, Koops, Marten A., Fisk, Aaron T., and Balshine, Sigal

Subjects

*ANTHROPOGENIC effects on nature, *ECOSYSTEMS, *POLLUTION, *STABLE isotopes

Abstract

Anthropogenic pollution and the introduction of invasive species are two contributing factors to ecosystem degradation. Although Hamilton Harbour (Ontario, Canada), a highly impacted ecosystem, is well-studied, the diet, trophic position, and foraging behaviour of the invasive Round Goby (Neogobius melanostomus) in this area is not well understood. In this study, we compared digestive tract contents, foraging behaviour, and stable isotope values of Round Goby from sites of low and high sediment contamination in Hamilton Harbour. We also assessed prey availability by conducting sediment invertebrate abundance analyses at these sites. Regardless of site, Chironomids, Cladocerans, Copepods and Dreissenids were the most common food items found in Round Goby digestive tracts, and females always had heavier gut contents compared to males. Fish from the high contamination site consumed fewer prey items, had lower gut fullness scores, and fed at a lower trophic level based on lower δ13C and δ15N values. Our results suggest that Round Goby living in highly contaminated areas are feeding less than Round Goby from areas of lower contamination, but that these diet differences do not reflect differences in prey availability. Fish from the high contamination site also typically moved more slowly while foraging. Taken together, these results provide an analysis of the main prey items of Round Goby in Hamilton Harbour, and demonstrate how polluted environments can impact diet, trophic position, and foraging of an introduced fish species. [ABSTRACT FROM PUBLISHER]

Published

2017

6. A comparison of passive and active gear in fish community assessments in summer versus winter.

Author

Mehdi, Hossein, Lau, Samantha C., Synyshyn, Caitlyn, Salena, Matthew G., Morphet, Markelle E., Hamilton, Jonathan, Muzzatti, Melissa N., McCallum, Erin S., Midwood, Jonathan D., and Balshine, Sigal

Subjects

*FISH communities, *FISHING villages, *FISH populations, *ECOLOGICAL assessment, *SIZE of fishes

Abstract

• Sampling gear selectivity influences fish community estimates. • Gear selectivity is further influenced by seasonality. • We compared minnow trap, Windermere trap, and electrofishing catches across seasons. • Fish community metrics varied significantly across gear types in both seasons. • Fish body size was influenced by both gear type and seasonality. Fish populations and communities are monitored using a variety of sampling gears, each with their own inherent biases. Gear biases can arise from a number of factors, such as fish species characteristics (e.g., body shape/size, physiology, and behaviour), species habitat requirements, as well as the abiotic characteristics of sites sampled. Such factors and their effects on gear selectivity are also heavily influenced by seasonality. Consequently, understanding the effects of seasonal changes on gear selectivity is of vital importance, especially during the winter—a season seldom studied in freshwater systems. Here, we compared the selectivity, efficiency, and degree of biodiversity in fish communities sampled using three gear types: minnow traps, Windermere traps, and electrofishing during summer and winter in Hamilton Harbour, ON, Canada. Catch per unit effort was similar among gear types in the summer, whereas in the winter, minnow traps captured the most fish. Electrofishing samples were the most species rich and species diverse, but only during the summer. Additionally, sampling efficiency and the number of different species encountered was highest when all gear types were used in combination, followed by electrofishing alone, Windermere traps alone, and minnow traps alone in both seasons. Each gear type differed in its selectivity for certain species, which was further influenced by seasonality. This resulted in the fish communities caught within each gear type being dissimilar from one another. Our study highlights the importance of understanding gear type selectivity, particularly under different climatic conditions, and outlines the importance of incorporating multiple gear types in ecological assessments of fish populations and communities. [ABSTRACT FROM AUTHOR]

Published

2021

7. Municipal wastewater as an ecological trap: Effects on fish communities across seasons.

Author

Mehdi, Hossein, Lau, Samantha C., Synyshyn, Caitlyn, Salena, Matthew G., McCallum, Erin S., Muzzatti, Melissa N., Bowman, Jennifer E., Mataya, Kyle, Bragg, Leslie M., Servos, Mark R., Kidd, Karen A., Scott, Graham R., and Balshine, Sigal

Abstract

Municipal wastewater treatment plant (WWTP) effluents are a ubiquitous source of contamination whose impacts on fish and other aquatic organisms span across multiple levels of biological organization. Despite this, few studies have addressed the impacts of WWTP effluents on fish communities, especially during the winter—a season seldom studied. Here, we assessed the impacts of wastewater on fish community compositions and various water quality parameters during the summer and winter along two effluent gradients in Hamilton Harbour, an International Joint Commission Area of Concern in Hamilton, Canada. We found that fish abundance, species richness, and species diversity were generally highest in sites closest to the WWTP outfalls, but only significantly so in the winter. Fish community compositions differed greatly along the effluent gradients, with sites closest and farthest from the outfalls being the most dissimilar. Furthermore, the concentrations of numerous contaminants of emerging concern (CECs) in the final treated effluent were highest during the winter. Water quality of sites closer to the outfalls was poorer than at sites farther away, especially during the winter. We also demonstrated that WWTPs can significantly alter the thermal profile of effluent-receiving environments, increasing temperature by as much as ~9 °C during the winter. Our results suggest that wastewater plumes may act as ecological traps in winter, whereby fish are attracted to the favourable temperatures near WWTPs and are thus exposed to higher concentrations of CECs. This study highlights the importance of winter research as a key predictor in further understanding the impacts of wastewater contamination in aquatic ecosystems. Unlabelled Image • Fish communities sampled in the summer and winter along two effluent gradients • Higher abundance, richness, and diversity near effluent outfall, only in winter • Communities of fish closest and farthest from the outfall were most dissimilar. • WWTP effluents impacted water quality downstream, particularly in winter. • WWTP effluent quality (concentrations of CECs) was poorer in winter than summer. [ABSTRACT FROM AUTHOR]

Published

2021