The Manitoba Great Lakes Program

The Manitoba Great Lakes (MBGL) program is led by researchers at the Centre for Earth Observation Science (CEOS) at the University of Manitoba, and is a multi-disciplinary collaboration dedicated to conducting research and providing data for science-based decision making in the Hudson Bay Watershed....

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Format: Dataset
Language:unknown
Published: Canadian Watershed Information Network (CanWIN) 2023
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Online Access:https://search.dataone.org/view/sha256:f2b118359e1e03d8994f0d7fbb10d3ae960e56cb27873ce1b84c4354c880ca8f
id dataone:sha256:f2b118359e1e03d8994f0d7fbb10d3ae960e56cb27873ce1b84c4354c880ca8f
record_format openpolar
spelling dataone:sha256:f2b118359e1e03d8994f0d7fbb10d3ae960e56cb27873ce1b84c4354c880ca8f 2024-11-03T19:45:07+00:00 The Manitoba Great Lakes Program 2023-01-01T00:00:00Z https://search.dataone.org/view/sha256:f2b118359e1e03d8994f0d7fbb10d3ae960e56cb27873ce1b84c4354c880ca8f unknown Canadian Watershed Information Network (CanWIN) Lake Waterhen Remote sensing data Carbon fluxes Lake Winnipeg Basin Lake Winnipegosis Lake Manitoba Nelson River watershed Climate change Freshwaters Manitoba Dataset 2023 dataone:urn:node:CANWIN 2024-11-03T19:19:20Z The Manitoba Great Lakes (MBGL) program is led by researchers at the Centre for Earth Observation Science (CEOS) at the University of Manitoba, and is a multi-disciplinary collaboration dedicated to conducting research and providing data for science-based decision making in the Hudson Bay Watershed. The upper Manitoba Great Lakes (Lake Manitoba, Winnipegosis and Waterhen) include the 27th (Winnipegosis) and 32nd (Manitoba) largest lakes in the world. They are important drinking water sources for the people who live near their shores, and important recreational and fisheries resources for the region and the Province as a whole. Moreover, they help to protect Lake Winnipeg by filtering nutrients and contaminants in runoff from its western watershed. In particular, the operation of the Portage Diversion during flood events has effectively shifted significant fractions of the Assiniboine River nutrient and contaminant load from the south basin of Lake Winnipeg to the south basin of Lake Manitoba, with undocumented impacts on the latter. <br /> Currently, the physical, chemical, biological and geological processes in the lakes are not well understood. Therefore, we have a poor ability to predict responses to change in factors such as climate, fishing pressure, and nutrient or contaminant loading from the watershed, or to understand impacts carried downstream to Lake Winnipeg, into Hudson Bay and the arctic. For example, climate change impacts include direct lake warming, which intensifies in-lake chemical and biological processes, and increasingly intense precipitation events. It is likely that this has led to increased runoff and more frequent flooding, and hence, increasing nutrient and contaminant transport from the watershed to the lakes, but we have no data to support this speculation. In Lake Manitoba, commercial catch of the most valuable species, pickerel, has declined by more than half since the 1980s. This may be due to pike in-migration through the Portage Diversion, or to high fishing pressure; we have too little information to know the cause. Most recently, in the summer of 2021, zebra mussel larvae were discovered in Lake Manitoba; again, without better information, the impact of this invasive species is a matter of conjecture. Overall, lake management and governance are being decided without adequate scientific support. <br /> The MBGL program deploys moorings to measure physical and biological parameters in the lakes. Through various initiatives, including graduate programs, we also collect nutrient, biological and physical data from the MBGL lakes as well as the surrounding watersheds. Other projects include studying nutrient forcing of algal biomass and associated algal toxins. We look at water quality indicators such as chlorophyll, suspended solids and dissolved organic carbon and can use them to create visualizations such as maps of chlorophyll concentration in surface water. These methods combined with satellite data can be used for early detection of algal blooms and identify potential sites where algal toxins may occur. <br /> Through our multi-disciplinary research the MBGL program will provide biological and physical data to support science-based decision making in the Hudson Bay Watershed, at local, regional and hemispherical scales Dataset Arctic Climate change Hudson Bay Nelson River Canadian Watershed Information Network (CanWIN) (via DataONE) Arctic Hudson Bay Hudson Basin Lake ENVELOPE(-71.750,-71.750,67.083,67.083)
institution Open Polar
collection Canadian Watershed Information Network (CanWIN) (via DataONE)
op_collection_id dataone:urn:node:CANWIN
language unknown
topic Lake Waterhen
Remote sensing data
Carbon fluxes
Lake Winnipeg Basin
Lake Winnipegosis
Lake Manitoba
Nelson River watershed
Climate change
Freshwaters
Manitoba
spellingShingle Lake Waterhen
Remote sensing data
Carbon fluxes
Lake Winnipeg Basin
Lake Winnipegosis
Lake Manitoba
Nelson River watershed
Climate change
Freshwaters
Manitoba
The Manitoba Great Lakes Program
topic_facet Lake Waterhen
Remote sensing data
Carbon fluxes
Lake Winnipeg Basin
Lake Winnipegosis
Lake Manitoba
Nelson River watershed
Climate change
Freshwaters
Manitoba
description The Manitoba Great Lakes (MBGL) program is led by researchers at the Centre for Earth Observation Science (CEOS) at the University of Manitoba, and is a multi-disciplinary collaboration dedicated to conducting research and providing data for science-based decision making in the Hudson Bay Watershed. The upper Manitoba Great Lakes (Lake Manitoba, Winnipegosis and Waterhen) include the 27th (Winnipegosis) and 32nd (Manitoba) largest lakes in the world. They are important drinking water sources for the people who live near their shores, and important recreational and fisheries resources for the region and the Province as a whole. Moreover, they help to protect Lake Winnipeg by filtering nutrients and contaminants in runoff from its western watershed. In particular, the operation of the Portage Diversion during flood events has effectively shifted significant fractions of the Assiniboine River nutrient and contaminant load from the south basin of Lake Winnipeg to the south basin of Lake Manitoba, with undocumented impacts on the latter. <br /> Currently, the physical, chemical, biological and geological processes in the lakes are not well understood. Therefore, we have a poor ability to predict responses to change in factors such as climate, fishing pressure, and nutrient or contaminant loading from the watershed, or to understand impacts carried downstream to Lake Winnipeg, into Hudson Bay and the arctic. For example, climate change impacts include direct lake warming, which intensifies in-lake chemical and biological processes, and increasingly intense precipitation events. It is likely that this has led to increased runoff and more frequent flooding, and hence, increasing nutrient and contaminant transport from the watershed to the lakes, but we have no data to support this speculation. In Lake Manitoba, commercial catch of the most valuable species, pickerel, has declined by more than half since the 1980s. This may be due to pike in-migration through the Portage Diversion, or to high fishing pressure; we have too little information to know the cause. Most recently, in the summer of 2021, zebra mussel larvae were discovered in Lake Manitoba; again, without better information, the impact of this invasive species is a matter of conjecture. Overall, lake management and governance are being decided without adequate scientific support. <br /> The MBGL program deploys moorings to measure physical and biological parameters in the lakes. Through various initiatives, including graduate programs, we also collect nutrient, biological and physical data from the MBGL lakes as well as the surrounding watersheds. Other projects include studying nutrient forcing of algal biomass and associated algal toxins. We look at water quality indicators such as chlorophyll, suspended solids and dissolved organic carbon and can use them to create visualizations such as maps of chlorophyll concentration in surface water. These methods combined with satellite data can be used for early detection of algal blooms and identify potential sites where algal toxins may occur. <br /> Through our multi-disciplinary research the MBGL program will provide biological and physical data to support science-based decision making in the Hudson Bay Watershed, at local, regional and hemispherical scales
format Dataset
title The Manitoba Great Lakes Program
title_short The Manitoba Great Lakes Program
title_full The Manitoba Great Lakes Program
title_fullStr The Manitoba Great Lakes Program
title_full_unstemmed The Manitoba Great Lakes Program
title_sort manitoba great lakes program
publisher Canadian Watershed Information Network (CanWIN)
publishDate 2023
url https://search.dataone.org/view/sha256:f2b118359e1e03d8994f0d7fbb10d3ae960e56cb27873ce1b84c4354c880ca8f
long_lat ENVELOPE(-71.750,-71.750,67.083,67.083)
geographic Arctic
Hudson Bay
Hudson
Basin Lake
geographic_facet Arctic
Hudson Bay
Hudson
Basin Lake
genre Arctic
Climate change
Hudson Bay
Nelson River
genre_facet Arctic
Climate change
Hudson Bay
Nelson River
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