Open Government Portal

Found 10 records similar to Nearshore Nuisance Benthic Algae Data (2012- )

Federal

Water quality monitoring data collected in priority tributaries to provide nutrient concentration data to estimate nutrient loads to the waters of the Great Lakes. Data is collected to advance the science to understand and address the complex problem of recurrent toxic and nuisance algae in the Great Lakes. The majority of the data is focused on Lake Erie, the smallest, shallowest of the Great Lakes, and most susceptible to nearshore water quality issues. Water quality monitoring is conducted to establish current nutrient loadings from selected Canadian tributaries; to enhance the knowledge of the factors that affect tributary and nearshore water quality, ecosystem health, and algae growth; to establish binational lake ecosystem objectives, phosphorus objectives, and phosphorous load reduction targets, and to support the development of a binational nearshore assessment and management framework.

Last Updated: Aug. 5, 2022
Date Published: Sep. 3, 2018
Organization: Environment and Climate Change Canada
Formats: HTML TXT
Keywords:  Water quality, Great Lakes, Trends, Status, Nutrients, Loads, Ecosystem, Transboundary, Major ions
Federal

Water quality monitoring data collected in priority tributaries to provide nutrient concentration data to estimate nutrient loads to the waters of the Great Lakes. Data is collected to advance the science to understand and address the complex problem of recurrent toxic and nuisance algae in the Great Lakes. The majority of the data is focused on Lake Erie, the smallest, shallowest of the Great Lakes, and most susceptible to nearshore water quality issues. Water quality monitoring is conducted to establish current nutrient loadings from selected Canadian tributaries; to enhance the knowledge of the factors that affect tributary and nearshore water quality, ecosystem health, and algae growth; to establish binational lake ecosystem objectives, phosphorus objectives, and phosphorous load reduction targets, and to support the development of a binational nearshore assessment and management framework.

Last Updated: May 13, 2022
Date Published: Sep. 3, 2018
Organization: Environment and Climate Change Canada
Formats: HTML
Keywords:  Water quality, Great Lakes, Trends, Status, Nutrients, Loads, Ecosystem, Transboundary, Monitoring
Federal

Water quality and ecosystem health data used to conduct a cumulative effects assessment of Lake Superior nearshore waters in support of the Great Lakes Water Quality Agreement are included in this dataset. Data related to nearshore stressors is integrated into an overall assessment in a three-phased approach: 1) classification of the nearshore into Regional Units using physical processes and lake characteristics; 2) overall assessment of the state (cumulative stress) of each Regional Unit; and 3) integrate additional information related to nearshore areas of high ecological value. Assessment data is presented within a 100 metre depth zone along the coast. For purposes of determining stress on nearshore waters it is necessary to consider the zones of influence and zones of impact.

Last Updated: Dec. 20, 2021
Date Published: Dec. 20, 2021
Organization: Environment and Climate Change Canada
Formats: HTML
Keywords:  Great Lakes, Water quality, Environment, cumulative, assessment, Monitoring, Ecosystem, Transboundary, Water
Federal

Water quality and ecosystem health data used to conduct a cumulative effects assessment of Lake Ontario, Niagara River and St. Lawrence River nearshore waters in support of the Great Lakes Water Quality Agreement are included in this dataset. Data related to nearshore stressors is integrated into an overall assessment in a three-phased approach: 1) classification of the nearshore into Regional Units using physical processes and lake characteristics; 2) overall assessment of the state (cumulative stress) of each Regional Unit; and 3) integrate additional information related to nearshore areas of high ecological value. Assessment data is presented within a 30 metre depth zone along the coast. For purposes of determining stress on nearshore waters it is necessary to consider the zones of influence and zones of impact.

Last Updated: Dec. 17, 2021
Date Published: Sep. 8, 2015
Organization: Environment and Climate Change Canada
Formats: CSV
Keywords:  Aquatic ecosystems, Great Lakes, Water quality, Environment, cumulative, assessment, Monitoring, Ecosystem, Transboundary
Federal

Water quality and ecosystem health data used to conduct a cumulative effects assessment of Lake Erie, St. Clair River, Lake St. Clair and Detroit River nearshore waters in support of the Great Lakes Water Quality Agreement are included in this dataset. Data related to nearshore stressors is integrated into an overall assessment in a three-phased approach: 1) classification of the nearshore into Regional Units using physical processes and lake characteristics; 2) overall assessment of the state (cumulative stress) of each Regional Unit; and 3) integrate additional information related to nearshore areas of high ecological value. Assessment data is presented within a 15 metre depth zone along the coast. For purposes of determining stress on nearshore waters it is necessary to consider the zones of influence and zones of impact.

Last Updated: Dec. 20, 2021
Date Published: Dec. 20, 2021
Organization: Environment and Climate Change Canada
Formats: HTML
Keywords:  Great Lakes, Water quality, Environment, cumulative, assessment, Monitoring, Ecosystem, Transboundary, Water
Federal

Water quality and ecosystem health data used to conduct a cumulative effects assessment of Canadian Great Lakes nearshore waters in support of the Great Lakes Water Quality Agreement are included in this dataset. The data was collected by various government and non-government agencies and organizations and integrated into this dataset to allow the assessment to be conducted. By conducting a regular, systematic assessment of cumulative effects in the nearshore waters of the Great Lakes Environment and Climate Change Canada (ECCC) is able to identify areas of high quality and areas under stress. Knowledge of ecological thresholds, other Great Lakes assessments, stressor information, indicators and local and traditional ecological knowledge will be used to aid in: 1) the identification and mapping of high quality nearshore areas and areas that are or may become subject to high stress and; 2) the determination of factors and cumulative effects that are causing stress or threats.

Last Updated: Mar. 22, 2022
Date Published: Sep. 8, 2015
Organization: Environment and Climate Change Canada
Formats: HTML ESRI REST
Keywords:  Great Lakes, Water quality, Environment, cumulative stress, assessment, Monitoring, Ecosystem, Transboundary, Water
Federal

Eelgrass has been identified by the Quebec-Atlantic bioregion as a critical coastal habitat. Seagrasses are "coastal canaries"-- sensitive indicators of nearshore ecosystem health. Their distribution and condition are strong indicators of water quality and disturbance. Monitoring of bed extent and eelgrass condition is required to determine whether eelgrass beds are continuing to decline or are recovering, and to determine possible causes of decline so that management action can be considered.

Last Updated: Mar. 21, 2018
Date Published: Oct. 1, 2017
Organization: Parks Canada
Formats: CSV
Keywords:  Coastal, Eelgrass, lagoons, Nova Scotia
Federal

The coast of South-Eastern Georgian Bay has numerous bays and inlets. This area is an important resource for drinking water, recreation and fish habitat. While offshore water quality of Georgian Bay is not impaired, nearshore embayments and inlets, in some instances, have been reported to experience water quality degradation. Concerns include excess nutrients, increased frequency of cyanobacteria blooms and hypoxia.

Last Updated: Jul. 23, 2021
Date Published: Jun. 12, 2019
Organization: Environment and Climate Change Canada
Formats: HTML
Keywords:  nutrients, Lake Simcoe, South-East Georgian Bay, Water quality
Federal

Water quality and ecosystem health data collected in the Great Lakes and priority tributaries to determine baseline water quality status, long term trends and spatial distributions, the effectiveness of management actions, determine compliance with water quality objectives and identify emerging issues are included in this dataset.

Last Updated: May 13, 2022
Date Published: Sep. 8, 2015
Organization: Environment and Climate Change Canada
Formats: HTML TXT
Keywords:  Water quality, Water quality, Great Lakes, Trends, Status, Nutrients, Pesticides, Metals, Toxics
Federal

Blooms of filamentous benthic algae that plagued Lake Erie in the 1950s through 1970s were largely reduced through reductions of phosphorus (P) loading from point sources. Since the mid-1990s, these blooms have returned despite a period of relatively stable external P inputs. While increased loadings of dissolved P have been causally linked to cyanobacterial blooms in some parts of the lake, the impacts of ecosystem changes such as the effect of invasive species on nutrient cycling and availability have not been fully elucidated, leading to uncertainty as to the effectiveness of additional non-point P management actions. Here we use the oxygen isotope ratios (δ18OP) of phosphate in concert with measures of water quality along the northern shore of the east basin of Lake Erie to identify sources and pathways of P cycling and infer potential importance in relation to annual blooms of Cladophora that foul the shorelines of eastern Lake Erie.

Last Updated: Jul. 23, 2021
Date Published: Nov. 30, 2018
Organization: Environment and Climate Change Canada
Formats: CSV HTML
Keywords:  Water quality, nutrients, Great Lakes Nutrient Intiative (GLNI), oxygen iostopes, phosphorus, Lake Erie
Date modified: