Publications
Riparian zone equilibrium and actual evapotranspiration in a first order agricultural catchment in Southern Ontario, Canada. Agricultural water management, 86(3), 240-248. Elsevier.
. (2006). Retention of phosphorus in soils receiving bunker silo effluent. Journal of Environmental Management, 323, 116147. Academic Press.
. (2022). Release of phosphorus from crop residue and cover crops over the non-growing season in a cool temperate region. Agricultural water management, 189, 39-51. Elsevier.
. (2017). Relationship between soil CO2 fluxes and soil moisture: Anaerobic sources explain fluxes at high water content. Geoderma, 434, 116493. Elsevier.
. (2023). Relation of soil-, surface-, and ground-water distributions of inorganic nitrogen with topographic position in harvested and unharvested portions of an aspen-dominated catchment in the Boreal Plain. Canadian journal of forest research, 36(9), 2090-2103. NRC Research Press Ottawa, Canada.
. (2006). Preliminary assessment of greenhouse gas emissions from a constructed fen on post-mining landscape in the Athabasca oil sands region, Alberta, Canada. Ecological engineering, 95, 119-128. Elsevier.
. (2016). Preferential Flow in Vertisolic Soils with and without Organic Amendments. Agricultural & Environmental Letters, 3(1). The American Society of Agronomy, Crop Science Society of America, and Soil ….
. (2018). Potential phosphorus mobilization from above-soil winter vegetation assessed from laboratory water extractions following freeze–thaw cycles. Canadian Water Resources Journal/Revue canadienne des ressources hydriques, 42(3), 276-288. Taylor & Francis.
. (2017). Potential influence of nutrient availability along a hillslope: Peatland gradient on aspen recovery following fire. Ecohydrology, 11(5), e1955.
. (2018). Potential carbon losses from boreal pond and riparian areas: influence of temperature and drought. Dynamics and Biogeochemistry of River Corridors and Wetlands, 294, 10-18. IAHS Publication.
. (2005). Phosphorus transport in agricultural subsurface drainage: A review. Journal of environmental quality, 44(2), 467-485. The American Society of Agronomy, Crop Science Society of America, and Soil ….
(2015). Phosphorus runoff from Canadian agricultural land: A dataset for 30 experimental fields. Data in Brief, 38, 107405. Elsevier.
. (2021). Phosphorus runoff from Canadian agricultural land: A cross-region synthesis of edge-of-field results. Agricultural Water Management, 255, 107030. Elsevier.
. (2021). Phosphorus dynamics in agricultural surface runoff at the edge of the field and in ditches during overbank flooding conditions in the Red River Valley. Canadian Water Resources Journal/Revue canadienne des ressources hydriques, 1–13. Taylor & Francis.
. (2023). Phosphate retention in an agricultural stream using experimental additions of phosphate. Hydrological processes, 17(18), 3649-3663. Wiley Online Library.
. (2003). P-FLUX: A phosphorus budget dataset spanning diverse agricultural production systems in the United States and Canada. Journal of Environmental Quality, 51, 451–461.
(2022). Performance of simple low-cost edge-of-field filters for mitigating P losses in surface runoff from agricultural fields. Agricultural Water Management, 284, 108362. Elsevier.
(2023). Organic matter accumulation and salinity change in open water areas within a saline boreal fen in the Athabasca Oil Sands Region, Canada. CATENA, 165, 425-433. Elsevier.
. (2018). Observed and projected climate change in the Churchill region of the Hudson Bay Lowlands and implications for pond sustainability. Arctic, Antarctic, and Alpine Research, 46(1), 272-285. Taylor & Francis.
. (2014). Nutrient uptake and short-term responses of phytoplankton and benthic algal communities from a subarctic pond to experimental nutrient enrichment in microcosms. Arctic, antarctic, and alpine research, 46(1), 191-205. Taylor & Francis.
. (2014).