A lysimeter study to determine fate and transport of three agricultural herbicides under different water table management systems /

Jebellie, Seyed J.

January 1997

No description available.

Subirrigation -- Québec (Province).

Water table -- Québec (Province).

Soils -- Herbicide movement.

Water table management and cropping systems for intensive corn production

Kaluli, J. Wambua

January 1996

No description available.

Corn -- Québec (Province).

Water table -- Québec (Province).

Denitrification.

Water table management for cranberry production on sandy and peat soils Québec

Handyside, Patrick E.

January 2003

No description available.

Subirrigation -- Québec (Province).

Water table -- Québec (Province).

Denitrification in sandy loam soil as influenced by water table depth and nitrogen fertilization rate

Elmi, Abdirashid A.

January 1998

No description available.

Denitrification -- Québec (Province).

Water table -- Québec (Province).

Sandy loam soils -- Québec (Province).

Observations of water table heights and subsurface drain flows

Bostock, J. Gregory.

January 1984

No description available.

The effect of water table management on the migration of phosphorus and on grain corn yields

Stämpfli, Nicolas

January 2003

Due to recent research suggesting that water table management (WTM) can significantly reduce nitrate (NO3") loads in agricultural drainage, a study was carried out in 2001 and 2002 in Coteau-du-Lac, 60 km west of Montreal, to investigate the effect of water table management on the migration of phosphorus (P) via tile drainage and surface runoff. The second main objective was to study the influence of WTM on grain corn yields. Two drainage treatments were compared: conventional free drainage and WTM (combined controlled drainage and subirrigation) with a design water table depth at 0.6 m below the ground surface. Tile drainage and surface runoff were monitored and sampled automatically. Increased outflow volumes and concentrations - and therefore increased P loads - were measured in drainage water from plots under WTM. Plots under WTM also generally exhibited higher P loads in surface runoff. Higher P concentrations in surface runoff from plots under WTM were observed in surface runoff, especially during winter. Phosphorus loads from combined tile drainage and surface runoff were low compared with literature data (<0.4 kg/ha/year). However, the mean P concentrations in tile drainage were above Quebec's surface water quality standard of 0.03 mg total P/L during both growing seasons in plots under WTM, but not in plots with conventional free drainage. Mean P concentrations in surface runoff water routinely exceeded the criteria, except in plots with conventional free drainage in winter 2002. Therefore, P from tile drainage and surface runoff could contribute to the eutrophication of surface water. Based on these results, WTM increases P loads from the field, both in tile drainage and surface runoff. However, the well water used for subirrigation was found to contain P concentrations above Quebec's surface water quality standard, and this could partly explain the higher P concentrations found in water from plots under WTM. Water table management increased grain corn yields by 35% in both years. The growing seasons of 2001 and 2002 were among the driest ever recorded in Canada.

Water table -- Québec (Province).

Corn -- Soils -- Québec (Province).

Corn -- Yields -- Québec (Province).

Observations of water table heights and subsurface drain flows

Bostock, J. Gregory.

January 1984

No description available.

The effect of water table management on the migration of phosphorus and on grain corn yields

Stämpfli, Nicolas

January 2003

No description available.

Corn -- Yields -- Québec (Province).

Water table -- Québec (Province).

Corn -- Soils -- Québec (Province).