Ongoing Projects and Collaborations
TITLE |
FUNDING AGENCY |
SUMMARY |
TIMELINE |
| Measuring methane emissions from cattle feedlots to improve policies for achieving net zero emissions by 2050 |
NSERC Alliance |
The main objective of this project is to evaluate new low-altitude aerial based CH4 mapping and monitoring techniques. The study will be conducted over the most intensive feedlots in Canada, stretching from south of Calgary to Lethbridge. Improved monitoring of CH4 emissions will contribute to higher accuracy in Canada’s national inventory of GHGs, as well as guide the industry in achieving its 33% reduction in emissions. | 2023-2026 |
| Réduire les émissions de N2O émanant des fertilisants organiques et inorganiques en utilisant des pratiques 4B et d’autres approches de conservation de l’azote dans les fermes du Québec – protocoles d’évaluation et de quantification |
MAPAQ (Programme d'appui à la lutte contre les changements climatiques en agriculture) |
This project aims to develop a Nitrogen Index for estimating the amount of N lost by nitrous oxide emissions and nitrate leaching to tile drainage with N fertilizer applications on different soil types under corn production | 2021-2024 |
|
Évaluation de scénarios de gestion intégrée et soutenable de l’eau dans le complexe tourbeux de Lanoraie - Projet Scelaneau |
MAPAQ |
Ce projet vise aÌ€ analyser des solutions techniques permettant de concilier les preÌleÌ€vements en eau pour l’irrigation des cultures et le maintien des fonctions hydrologiques et eÌcologiques du complexe tourbeux de Lanoraie. Plus d'informations disponibles . |
2021-2024 |
|
Optimizing water use efficiency in high value crops |
NSERC | We use the most recent developments in satellite technology and numerically powerful energy balance algorithms, to precisely estimate crop evapotranspiration (ETc) and crop water stress (CWS) over large irrigated regions. This enables irrigation applications on a near real-time basis, and is an unprecedented development in satellite mapping of ETc.Ìý Furthermore, when ETc and CWS are coupled with soil moisture derived from NASA’s SMAP platform, this will yield another unprecedented innovation using both crop and soil parameters to estimate irrigation applications. | 2020-2025 |
Ìý
Recently Completed Projects and Collaborations
TITLE |
FUNDING AGENCY |
TIMELINE |
| AGGP Phase II: An integrated socio-economic and biophysical framework for mitigating greenhouse gas emissions under agricultural water management systems in Eastern Canada | Agriculture and Agri-Food Canada | 2016-2021 |
| Soil-Plant-Water Dynamics and Water Productivity Benefits of Subsurface Drip Irrigation | NSERC Discovery Grant | 2014-2022 |
| Towards a better understanding of the soil-plant-atmosphere-water continuum | NSERC Research Tools and Instrument Grants | 2017-2018 |
| Finite element analysis of perforations for high density polyethylene pipes used in agricultural land drainage | Ìý | 2015-2018 |
| A water quality assessment framework for a safe food system | Max Bell Foundation | 2012-2017 |
|
Managing agricultural systems to protect Canada's freshwaterÌý |
NSERC Strategic Grant | 2013-2017 |
|
Application of variable rate irrigation technology for water efficiency and conservationÌý Ìý ÌýÌý |
NSERC Strategic Grant | 2013-2017 |
|
Advancing creative solutions for global developmentÌý ( |
NSERC Connect Grant | 2017 |
| AGGP Phase I | Agriculture and Agri-Food Canada | 2011-2015 |
| Improving food and nutrition security in CARICOM countries | CIDA/IDRC | 2011-2014 |
| Increasing water use efficiency in crop production systems | NSERC Discovery Grant | 2009-2014 |
| Extending CARIWIN training programs within the wider Caribbean Basin | AUCC/CIDA | 2013 |
| Development of training and extension material regarding greenhouse gas mitigation under water-managed production systems | Agriculture and Agri-Food Canada | 2013 |
for a more extensive list of Dr. Madramootoo's research.
