Grants and Contributions

About this information

In June 2016, as part of the Open Government Action Plan, the Treasury Board of Canada Secretariat (TBS) committed to increasing the transparency and usefulness of grants and contribution data and subsequently launched the Guidelines on the Reporting of Grants and Contributions Awards, effective April 1, 2018.

The rules and principles governing government grants and contributions are outlined in the Treasury Board Policy on Transfer Payments. Transfer payments are transfers of money, goods, services or assets made from an appropriation to individuals, organizations or other levels of government, without the federal government directly receiving goods or services in return, but which may require the recipient to provide a report or other information subsequent to receiving payment. These expenditures are reported in the Public Accounts of Canada. The major types of transfer payments are grants, contributions and \'other transfer payments\'.

Included in this category, but not to be reported under proactive disclosure of awards, are (1) transfers to other levels of government such as Equalization payments as well as Canada Health and Social Transfer payments. (2) Grants and contributions reallocated or otherwise redistributed by the recipient to third parties; and (3) information that would normally be withheld under the Access to Information Act and the Privacy Act.

1175177 records

$149,066.00

Mar 24, 2024

Academia

Agreement:

Quantifying and modeling the spatiotemporal dynamics of induced electric fields to mitigate space weather

Agreement Number:

23SUSTDYNA

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

Geomagnetic disturbances pose a continuing threat to Canada’s technological infrastructure; understanding and modeling these disturbances is a crucial step to mitigating this threat. This proposal fills critical gaps in our current knowledge of geomagnetic disturbances and will quantify the drivers and spatial and temporal dynamics of these disturbances. The proposal will further develop a novel machine learning model of geomagnetic disturbances which will aid stakeholders and forecasters in making operational decisions to limit the impact of space weather. The work accomplished here is strategically aligned with CSA's Priorities and Objectives and will help to elevate Canada’s research reputation.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Thunder Bay, Ontario, CA P7B 5E1

Academia

Agreement:

Investigating Space Plasma Dynamics and Ionospheric Response to Energetic Particle Precipitation

Agreement Number:

23SUSTPART

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

Investigating the complex dynamics of space plasma and its interactions with energetic particles is essential to fully understand our Earth’s magnetosphere-ionosphere system. This research project explores wave-particle interactions, electron precipitation, and their impacts on the ionosphere. By utilizing new ground-based observations, ionospheric modelling, employing various in-situ measurements and machine learning techniques, it will enhance the understanding of the magnetosphere-ionosphere system and pave the way for practical applications in space weather monitoring and prediction.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Calgary, Alberta, CA T2N 1N4

$150,000.00

Mar 24, 2024

Academia

Agreement:

Improving the satellite record of Hunga Tonga volcanic aerosol

Agreement Number:

23SUASAERO

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

This project will focus on analysis of data from the CSA-supported OSIRIS instrument. We will analyze the retrieved aerosol and investigate the systematic impacts in order to understand the limitations of the OSIRIS measurements of Hunga Tonga aerosol. This research responds directly to CSA objectives by applying satellite data analysis of this record breaking volcanic eruption to improve understanding of extreme events and climate change. This work will transfer knowledge to government to improve climate prediction and adaptation. This project will train young researchers and contribute to new understanding of satellite remote sensing and the study of climate from space.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Saskatoon, Saskatchewan, CA S7N 5C9

Academia

Agreement:

Observation and simulation of the thermodynamic anomalies associated with deep convective overshoots

Agreement Number:

23SUASTHER

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

Overshooting deep convection is an extreme weather condition that is affected by but also feeds back to climate change. Its complex nature makes it difficult to represent it in global climate models and to observe it with satellites. We propose to integrate satellite measurements with high-resolution numerical modeling to improve the characterization of the cloud, humidity, temperature (including that inside clouds) and radiation fields associated with overshooting convection. The research will help improve Canada’s capacity for climate and weather prediction and strengthen its leadership role in Satellite Earth Observation.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Montreal, Quebec, CA H3A 0G4

Academia

Agreement:

High-latitude Lake and River Dynamics Resources Hazards and Climate Change

Agreement Number:

23SUESHIGH

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

High-latitude surface water dynamics are complex, fast-moving, and driven by snow, rainfall, ice, and permafrost. Modeling efforts to understand the mechanisms, and to predict variability due to natural processes and climate change, often lack basic hydraulic measurements, or the spatial and temporal coverage, or the information is poor. In particular, glacial lake dynamics are poorly constrained, yet critically important as they can induce positive feedbacks to the glacier (via rapid melting). The proposed research will use ICESat-2 laser altimetry data to investigate how glacial lake elevations and discharge vary as the lakes grow or shrink in area.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Calgary, Alberta, CA T2N 1N4

$150,000.00

Mar 24, 2024

Academia

Agreement:

Integrating Satellite Earth Observations with Earth-System Modelling to Constrain the Drainage of the Mackenzie River

Agreement Number:

23SUESMACK

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

The Mackenzie River Basin (MRB) in Canada’s North is one of the most important river systems in North America with competing needs of humans, ecosystems and industry. Climate change has altered temperature and precipitation patterns in the region, and is expected to intensify in the coming decades. Scientists rely on computer models of the water cycle to make predictions that can help society to adapt to this change. This proposal uses satellite measurements of the atmosphere and land surface to help improve these models, to make more accurate predictions of water availability for society and industry in the MRB.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Waterloo, Ontario, CA N2L 3G1

$225,000.00

Mar 24, 2024

Academia

Agreement:

Integrating Terrestrial Boreal Carbon Estimates with Space-Based Observations of Carbon Flux to Improve National Carbon Reporting

Agreement Number:

23SUESCARB

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

At high Canadian latitudes, warming is increasing which is having significant impacts on permafrost stability, disturbance regimes, and vegetation. Despite advancements in carbon observation efforts they remain sparse. This proposal will validate a new modelling framework (CAN-TG) focused on northern Canada ecosystems to predict carbon accumulation and flux. The model is remote sensing focused and will be calibrated and validated using observations from CSA supported missions. The project will advance CSA priorities by providing estimates of carbon flux for national reporting, increase use of data acquired with CSA support and increase the number of scientists with PhDs in Canada.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Vancouver, British Columbia, CA V6T 1Z3

Academia

Agreement:

RCM-derived sea-ice deformation at high resolution for advanced Prediction of Arctic sea-iCE

Agreement Number:

23SUESDEFO

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

When internal loads from surface winds and ocean current reach critical threshold in shear, compression or tension, sea ice floes slide relative to another along fracture planes where large amounts of heat, moiture and salt are exchanged between the ocean and atmosphere. We propose to use the Synthetic Aperture Radar (SAR) images from the Canadian RADARSAT Constellation Mission to create a new high-resolution (1 km) sea ice deformation dataset with full Arctic coverage and higher temporal resolution when compared with existing RADARSAT-1-derived products. This new data set will be used to develop a new granular-physics sea ice model.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Montreal, Quebec, CA H3A 0G4

Academia

Agreement:

Advancing Arctic Sea Ice Monitoring using Next-Generation Radar Satellite

Agreement Number:

23SUESMONI

Duration: from Mar 24, 2024 to Sep 30, 2026
Description:

This project focuses on improving Arctic sea ice monitoring from satellite technology. By combining C-band and L-band synthetic aperture radar (SAR) imagery and developing a machine learning algorithm, the project aims to enhance the accuracy of sea ice information. Collaboration with international institutions and access to data from the upcoming NASA-ISRO SAR mission (NISAR) will contribute to the project's success. The research team will also gather field data to validate the satellite observations. Ultimately, the project will advance our understanding of sea ice and provide more reliable information for the Canadian Arctic.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Montreal, Quebec, CA H3A 0G4

Academia

Agreement:

Drone and tower -based L-Band radiometers for support to the Fine-resolution Explorer for Salinity Carbon and Hydrology FRESCH

Agreement Number:

23SUESFRES

Duration: from Mar 24, 2024 to Mar 31, 2027
Description:

SMOS and SMAP missions have shown the unprecedented capability of L-Band radiometry to monitor central variables related to the energy, water and carbon cycles. However, despite the unique capacity of L-Band radiometry, no missions are planned to continue L-band observations. A team of twelve scientists, are proposing a new L-band radiometry mission (FRESCH). They propose to improve approaches using L-Band radiometry in Canadian northern regions using drone and ground-based L-Band radiometers. The work will be crucial to the preparison of the FRESCH proposal and will ensure that the Canadian community will be well placed to participate into the scientic studies of FRESCH.

Organization: Canadian Space Agency
Program Name: Class Grant and Contribution Program to Support Research, Awareness and Learning in Space Science and Technology
Location: Trois-Rivières, Quebec, CA G9A 5H7