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Found 10 records similar to Parasite fauna of Etheostoma nigrum (Percidae: Etheostomatinae) in localities of varying pollution stress in the St. Lawrence River, Quebec, Canada

Federal

Increased productivity from sewage effluents can enhance species richness locally. Results from a study of Spottail shiners (Notropis hudsonius) in 1999 showed that prevalence and the mean number of myxozoan parasite species per host were higher downstream of the wastewater outflow from the Island of Montreal than upstream in the St. Lawrence River, Quebec, Canada. This was attributed to organic enrichment of the sediments which presumably lead to increased densities of oligochaetes, the alternate hosts, downstream of Montreal. Spottail shiners subsequently were collected every August/early September in 2001–2004 to examine the stability and repeatability of these patterns.

Last Updated: Jul. 28, 2021
Date Published: May 4, 2018
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  Spottail Shiner (Notropis hudsonius), Fish, parasite communities, Myxozoans, St. Lawrence Action Plan (SLAP), St. Lawrence River, Parasites, Environment, Biota
Federal

The Richelieu River, Quebec, is a highly-regulated waterway subject to numerous anthropogenic influences from municipal effluents and agricultural activities. Parasite communities in 234 spottail shiners (Notropis hudsonius) were examined from 4 localities in late spring 2003 and 2004. Parasite component community similarity among localities could not be directly linked to available upstream water quality measurements or anthropogenic activity and was best explained by precipitation. This study suggests that fish parasite species composition and richness in the Richelieu River are influenced by environmental parameters which in turn ultimately are driven by a combination of climatic conditions and anthropogenic activities in the watershed.

Last Updated: Jul. 29, 2021
Date Published: May 4, 2018
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  Spottail Shiner (Notropis hudsonius), Fish, parasite communities, precipitation, St. Lawrence Action Plan (SLAP), Richelieu River, Parasites, Environment, Biota
Federal

The study examines the parasite communities in Athabasca River Trout-perch (Percopsis omiscomaycus) at five sites along the main stem of the Athabasca River to explore whether any observed changes in parasite abundance or community structure might correlate with small-scale variations in water chemistry, sediment characteristics, water and sediment pollution, larger-scale landscape use patterns, distance among sites, and upstream-downstream gradients.

Last Updated: Jul. 29, 2021
Date Published: Jan. 14, 2019
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  Athabasca River trout-perch (Percopsis omiscomaycus), Fish, parasite communities, Athabasca River, Parasites, Environment, Biota
Federal

In this study, seven non‐specific biomarkers were compared in Spottail Shiners (Notropis hudsonius Clinton) from localities receiving urban and industrial effluents and relatively clean localities in the St Lawrence River, Canada. Pigmented macrophages are involved in a variety of functions including the detoxification and recycling of exogenous and endogenous material, responses to foreign material or infectious agents, and antigen recognition. Pigmented macrophage aggregates are focal accumulations of pigmented macrophages found in the spleen, kidney, liver and other organs of fishes. They may respond to toxicants or exposure to infectious agents such as viruses or bacteria either by increasing in number and size or by changing the shape of the aggregation.

Last Updated: Jul. 29, 2021
Date Published: May 4, 2018
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  Spottail Shiner (Notropis hudsonius), Fish, parasite communities, St. Lawrence Action Plan (SLAP), pigmented macrophages, St. Lawrence River, Parasites, Environment, Biota
Federal

Multiple metabolic, immune and reproductive effects have been reported in fish residing in effluent-impacted sites. Natural stressors such as parasites also have been shown to impact the responses of organisms to chronic exposure to municipal effluent in the St. Lawrence River (Quebec, Canada). In order to comprehensively evaluate the cumulative impacts of anthropogenic and natural stressors on the health of yellow perch, differential mRNA transcription profiles were examined in juvenile females collected from effluent-impacted and upstream sites with low or high infection levels of the larval trematode Apophallus brevis. Transcriptomics was used to identify biological pathways associated with environmental exposure.

Last Updated: Jul. 29, 2021
Date Published: Mar. 26, 2019
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  St. Lawrence River, Yellow perch (Perca flavescens), RNA-sequencing, Waste Water Treatment Plant (WWTP), wastewater effluent, parasites, Strategic Technology Applications of Genomics in the Environment (STAGE), St. Lawrence Action Plan (SLAP), Environment
Federal

Temporal changes (1970–2016) in St. Lawrence River wetlands were assessed between Cornwall and Québec to assess wetland response to cumulative anthropogenic pressures in the watershed. Emergent wetlands area and biomass of submerged aquatic vegetation (SAV) were contrasted among five regions subjected to sharply different water level/discharge regime (stabilized, semi-natural, tidal), nutrient concentrations and shoreline use (rural to urbanized). Between 1970 and 2016, over the growing season, St. Lawrence River mean water level have dropped and mean water temperature increased. Reductions in phosphorus concentrations were observed over time both in water and in SAV tissues, in phase with improvements of urban wastewater treatment and phosphorus reduction in upstream Lake Ontario.

Last Updated: Feb. 21, 2022
Date Published: Mar. 26, 2019
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  St. Lawrence River, Lake Saint-Pierre, Lake Saint-Louis, submerged aquatic vegetation (SAV), macrophytes, wetlands, nitrogen depletion, phosphorus, water level
Federal

The specific composition, biomass, vertical distribution and metal content of submerged and emergent aquatic plants in the St. Lawrence were evaluated. The riparian vegetation community of the St. Lawrence is characterized by the presence of extensive wetlands in the floodplain, a border of emergent plants and vast underwater meadows dominated by American wild celery (Vallisneria americana), a strong indicator species of metal concentration.

Supplemental Information

The St. Lawrence Action Plan (SLAP) 2011 to 2026 (see http://planstlaurent.qc.ca/en/home.html) is the latest Canada-Quebec Agreement on the St. Lawrence and builds on the four previous agreements implemented since 1988.

For more information on SLAP, please visit https://www.canada.ca/en/environment-climate-change/services/environmental-funding/ecosystem-initiatives/st-lawrence-action-plan.html

Last Updated: Feb. 21, 2022
Date Published: Mar. 26, 2019
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  submerged aquatic vegetation, emergent aquatic vegetation, Vallisneria americana, macrophyte, metals, indicator, St. Lawrence Action Plan (SLAP), Environment
Federal

This program, led by Environment and Climate Change Canada (ECCC), is part of a larger national program serving to describe spatial and temporal patterns in water quality on many major rivers in Canada. In Waterton, physical and chemical variables are measured at water quality sites located on the two major rivers that originate in or flow through the park, the Waterton River and the Belly River. These sites are in the headwaters of major rivers that provide ecosystem services for many downstream users (e.g. drinking water) and are upstream of major point- and non-point source pollution.

Last Updated: Apr. 12, 2018
Date Published: Oct. 1, 2017
Organization: Parks Canada
Formats: CSV
Keywords:  water quality index, water samples, water chemistry parameters, surface water chemistry, Alberta
Federal

Restrictions in the utilization of polybrominated diphenyl ether (PBDE) mixtures have led to the increased usage of alternative flame retardant additives in a wide range of commercial applications. The present study examined the occurrence of established and emerging flame retardants (EFRs) in fish from a densely-populated urbanized sector of the St. Lawrence River (Montreal, Quebec, Canada). Thirty-eight PBDE congeners and sixteen EFRs were determined in fish belonging to three predatory species (yellow perch, northern pike, and muskellunge). The bioavailability of these EFRs in human-impacted aquatic ecosystems warrants further environmental assessment and toxicity testing.

Last Updated: Jul. 29, 2021
Date Published: May 4, 2018
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  emerging flame retardants (EFRs), polybrominated diphenyl ethers (PBDEs), dechloranes, contaminants, Fish, yellow perch (Perca flavescens), northern pike (Esox lucius), muskellunge (Esox masquinongy), St. Lawrence Action Plan (SLAP)
Federal

This study aimed to better understand in situ cumulative effects of anthropogenic stressors on the health of St. Lawrence River (QC, Canada) yellow perch (Perca flavescens) populations using high-throughput transcriptomics and a multi-biological level approach. Fish were collected in the upstream fluvial Lake Saint-François (LSF) with low degree of environmental perturbations; Lake Saint-Louis (LSL) considered having a moderate degree of anthropogenic stressors, and Lake Saint-Pierre (LSP) a sector where the perch population has been severely declining.

Last Updated: Jul. 29, 2021
Date Published: Mar. 26, 2019
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  St. Lawrence River, Lake Saint-Pierre, Lake Saint-Louis, Lake Saint-Francois, Yellow perch (Perca flavescens), RNA-sequencing, Genomics R&D Initiative (GRDI), Strategic Technology Applications of Genomicsin the Environment (STAGE), St. Lawrence Action Plan (SLAP)
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