Joanna Wilson

Associate Professor in Environmental Physiology, McMaster University

Professor Wilson's research focuses on the evolution the effects of environmental contaminants on aquatic species

Media

Women of Distinction — I see you

The Hamilton Spectator, November 24, 2015Online

URL: http://www.thespec.com/opinion-story/6131965-women-of-distinction-i-see-you/

I never expected a standing ovation. Especially considering that my message was "I see you." But when I won a YWCA Hamilton Women of Distinction Award for my contributions to Science and Technology last April, that is exactly what happened...

McMaster forum discusses changing climate, growing concerns about water

The Hamilton Spectator, April 19, 2016Online

URL: http://www.thespec.com/news-story/6503121-mcmaster-forum-discusses-changing-climate-growing-concerns-about-water/

"We have places that have too much water and places with too little water and lots of places that don't have clean water. We have to start talking about how we are going to deal with that," said Joanna Wilson, an associate professor of biology at McMaster, and an organizer of the event...

Mac researchers go fishing for eggs

The Hamilton Spectator, December 17, 2014Online

URL: http://www.thespec.com/news-story/5211324-mac-researchers-go-fishing-for-eggs/

"We collect the adults and strip the eggs from the females by massaging their bellies," explains lead researcher Joanna Wilson, an associate biology professor at Mac. The sperm is collected the same way — by massaging the males' bellies. It's the only efficient way to get the eggs and sperm together, says Wilson. If they leave it to Mother Nature, the eggs are deposited "down to the cobble" of the lake, making them almost impossible to get at...

Thermal stress and the heat shock response in embryonic and young of the year juvenile lake whitefish

Published by Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology

2016 We investigated the effects of thermal stress on embryonic (fin flutter, vitelline circulation stage) and young of the year (YOY) juvenile lake whitefish by characterizing the kinetics of the heat shock response (HSR). Lake whitefish were subjected to one of three different heat shock (HS) temperatures (3, 6, or 9 °C above control) for six different lengths of time (0.25, 0.50, 1, 2, 3, or 4 h) followed by a 2 h recovery period at the control temperature of 2 °C or 14 °C for embryos and YOY juveniles, respectively. The duration of the HSR was examined by allowing the fish to recover for 1, 2, 4, 8, 12, 16, 24, 36, or 48 h following a 2 h HS. In embryos, at the fin flutter stage, only hsp70 mRNA levels were upregulated in response to the various HS treatments. By comparison, all three typically inducible hsps, hsp90α, hsp70 and hsp47, were upregulated in the YOY juveniles. In both instances the HSR was long lasting, but much more so in embryos where hsp70 mRNA levels continued to increase for 48 h after a 2 h HS and remained significantly higher than untreated controls. Collectively our data indicate that both embryo and YOY juvenile lake whitefish have a robust HSR which permits them to survive a 4 h, 9 °C HS. Moreover, both life history stages are capable of triggering a HSR following a moderate 3 °C HS which is likely an important protective mechanism against environmental stressors during embryogenesis and early life history stages of lake whitefish.

URL: http://www.sciencedirect.com/science/article/pii/S1095643315003074

Incubation of lake whitefish (Coregonus clupeaformis) embryos in cooling water discharge and the impacts of fluctuating thermal regimes on development

Published by Canadian Journal of Fisheries and Aquatic Sciences

2016 Thermal discharges released from industrial cooling water systems represent a potential environmental risk to fish species that spawn in nearshore waters. We investigated the impacts of in situ incubation of lake whitefish (Coregonus clupeaformis) embryos in the vicinity of a nuclear generating station. Over 3 consecutive years, fertilized embryos were deployed in Lake Huron using custom-built incubation chambers coupled with data loggers to monitor water temperature. Temperatures at sites in the vicinity of the thermal discharge were significantly elevated compared with reference locations, with mean winter temperatures up to 3 °C warmer. Temperatures were also more variable at these sites, with a significantly greater daily temperature range and rate of change. Embryos developing at discharge sites were significantly larger with smaller yolks than those from the reference stations, suggesting an advanced growth. This increased growth was supported by thermal data, with discharge sites predicted to be more than 10% advanced based on growth rate modelling. These temperature changes and increase in development rate are below thresholds for embryonic mortality but could potentially impact posthatch larval survival.

URL: http://www.nrcresearchpress.com/doi/abs/10.1139/cjfas-2015-0286#.V0RVPSMrIy4

Fine-Scale Ecological and Genetic Population Structure of Two Whitefish (Coregoninae) Species in the Vicinity of Industrial Thermal Emissions

Published by PLOS ONE

2016 Thermal pollution from industrial processes can have negative impacts on the spawning and development of cold-water fish. Point sources of thermal effluent may need to be managed to avoid affecting discrete populations. Correspondingly, we examined fine-scale ecological and genetic population structure of two whitefish species (Coregonus clupeaformis and Prosopium cylindraceum) on Lake Huron, Canada, in the immediate vicinity of thermal effluent from nuclear power generation. Niche metrics using δ13C and δ15N stable isotopes showed high levels of overlap (48.6 to 94.5%) in resource use by adult fish captured in areas affected by thermal effluent compared to nearby reference locations. Isotopic niche size, a metric of resource use diversity, was 1.3- to 2.8-fold higher than reference values in some thermally affected areas, indicative of fish mixing. Microsatellite analyses of genetic population structure (Fst, STRUCTURE and DAPC) indicated that fish captured at all locations in the vicinity of the power plant were part of a larger population extending beyond the study area. In concert, ecological and genetic markers do not support the presence of an evolutionarily significant unit in the vicinity of the power plant. Thus, future research should focus on the potential impacts of thermal emissions on development and recruitment.

URL: http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0146656

Consistent differential resource use by sympatric lake (Coregonus clupeaformis) and round (Prosopium cylindraceum) whitefish in Lake Huron: a multi-time scale isotopic niche analysis

Published by Canadian Journal of Fisheries and Aquatic Sciences

2015 Lake (Coregonus clupeaformis) and round (Prosopium cylindraceum) whitefish are sympatric benthivores in Lake Huron that are thought to coexist via niche partitioning. However, little is known about long-term resource use and niche overlap across different temporal scales. We used a multiyear (2010–2012) and multi-tissue (liver, muscle, and bone layers) isotopic niche analysis to characterize and compare resource use by lake and round whitefish across several time scales. Lake whitefish consistently used more diverse, 13C-depleted (mean δ13C = −21.9‰) and 15N-enriched (mean δ15N = +9.3‰) resources than round whitefish (mean δ13C = −18.2‰; mean δ15N = +8.3‰). Niche overlap occurred only in liver, representing the spawning period, while niche segregation was highest in juvenile life stages. Individuals of both species made variable resource shifts among time periods, suggesting that spawning aggregations are composed of individuals representing a variety of feeding strategies and locations. Our study confirms that differential resource use is an important strategy for these fish as adults and demonstrates life-long niche partitioning beginning before age-2.

URL: http://www.nrcresearchpress.com/doi/abs/10.1139/cjfas-2015-0324#.V0RVxiMrIy4

Chronic effects of exposure to a pharmaceutical mixture and municipal wastewater in zebrafish

Published by Aquatic Toxicology

2013 Pharmaceuticals and personal care products (PPCPs) are discharged in municipal wastewater. Effects in aquatic organisms exposed to individual pharmaceuticals in the laboratory have raised concerns regarding the environmental impacts of PPCPs, yet environmental exposures are always to complex mixtures. In this study, adult zebrafish (Danio rerio) showed significantly decreased embryo production after a 6 week exposure to a pharmaceutical mixture (MIX; 0.5 and 10 μg L−1) of acetaminophen, carbamazepine, gemfibrozil and venlafaxine and to diluted wastewater effluent (WWE; 5% and 25%). Atretic oocytes and altered ovarian histology were significantly increased in female zebrafish exposed to both concentrations of MIX or WWE, which indicates a direct effect on oocyte development that may account for reduced embryo production. Apoptosis within the thecal and granulosa cell layers was identified in female zebrafish with atresia. Exposures to MIX or WWE at both concentrations severely altered kidney proximal tubule morphology, but no histological impacts on other organs were observed. Exposure of embryos to MIX or WWE at the high concentration significantly increased the incidence of developmental abnormalities. Embryo mortality was elevated with exposure to the high concentration of MIX. These studies indicate that chronic exposure of fish to pharmaceutical mixtures and wastewater impacts reproduction and induces histopathological changes, similar to what we have previously seen with single compound exposures. These data suggest that fish populations exposed to pharmaceuticals discharged in wastewater are at risk of negative impacts to reproductive capacity and health.

URL: http://www.sciencedirect.com/science/article/pii/S0166445X12003530

Biography

Joanna Wilson's research focuses on the evolution and function of cytochrome P450 enzymes and the effects of environmental contaminants on aquatic species. Her research intersects environmental physiology, ecology and evolution, and bioinformatics, and functional genomics. Environmental Physiology: interested in the physiological impacts of contaminants, particularly human pharmaceuticals, on aquatic species. Ecology and Evolution: studying the evolution of cytochrome P450 enzymes, a protein superfamily that is important for production and metabolism of steroid hormones and critical for drug metabolism. Bioinformatics and functional genomics: involved in annotation of cytochrome P450 genes in fish genomes, bioinformatics approaches in support of our evolutionary studies, and transcriptomics (using microarrays) to examine how contaminants alter gene expression in fish.

Recognition/Reconnaissance

YMCA Woman of Distinction in Sciences, Technology or Trades | Professional

Awarded for contributions to science and technology

Expertise

  • Transcriptomics
  • Physiology
  • Molecular Biology
  • Histology
  • Comparative Physiology
  • Combining Field and Laboratory Research
  • Endocrinology
  • Biochemistry

Education/Éducation

  • University of Victoria
    Biology
    M.Sc.
  • MIT and the Woods Hole Oceanographic Institution
    Biological Oceanography
    Ph.D.
  • McMaster University
    Biology and Pharmacology
    H.B.Sc.