Add to ORKGPulse crops included in a crop rotation can reduce nitrogen (N) requirements via biological N2 fixation (BNF) and provide greater carbon (C) inputs to soil than non-pulse crops in rotation. The goal of this research was to estimate the BNF and C input to soil by various pulse crops (chickpea, lentil and field pea) grown in rotation with pulse crops and non-pulse crops. Soil cores from three crop rotations (chickpea-wheat, lentil-wheat and pea-wheat) were collected from Swift Current, SK. Additional soil cores from two rotations (canola-wheat and wheat-canola) were extracted from a field used for commercial cropping in Central Butte, SK. The 15N dilution method and continuous labelling with depleted 13CO2 were used to estimate BNF and 13C i...
As soybean acreage is expanding in western Canada, research is required to assess soybean production...
Non-Peer ReviewedGrain legumes can improve the yield of succeeding cereal crops through nitrogen and...
This study investigates the effect of different crop rotation systems on carbon (C) and nitrogen (N)...
Pulse crops included in a crop rotation can reduce nitrogen (N) requirements via biological N2 fixat...
Pulse crops grown in prairie crop rotations can provide greater carbon (C) inputs than non-pulse cro...
Nitrogen (N) is often the most limiting nutrient in prairie crop production and is applied in the gr...
Non-Peer ReviewedPulse crops included in cereal and oilseed crop rotations can provide environmental...
Pulse crops have been long associated with biological dinitrogen fixation and therefore improve the ...
Even though the sustainability of crop rotation with pulses has been demonstrated by ancient civiliz...
Non-Peer ReviewedThe Pulse Research Network is a national research network aimed at optimizing the ...
Pulse crops make significant contributions to the economy and environmental sustainability of wester...
Improving soil quality with the inclusion of pulse crops in wheat-based cropping systems may help pr...
Crop productivity is typically affected by various soil–plant factors systematically as they influen...
The inclusion of a pulse crop in a rotation often leads to higher seed yields for the succeeding ce...
There is a demand for new recommendations for pulse seeding rates that will meet the needs of organi...
As soybean acreage is expanding in western Canada, research is required to assess soybean production...
Non-Peer ReviewedGrain legumes can improve the yield of succeeding cereal crops through nitrogen and...
This study investigates the effect of different crop rotation systems on carbon (C) and nitrogen (N)...
Pulse crops included in a crop rotation can reduce nitrogen (N) requirements via biological N2 fixat...
Pulse crops grown in prairie crop rotations can provide greater carbon (C) inputs than non-pulse cro...
Nitrogen (N) is often the most limiting nutrient in prairie crop production and is applied in the gr...
Non-Peer ReviewedPulse crops included in cereal and oilseed crop rotations can provide environmental...
Pulse crops have been long associated with biological dinitrogen fixation and therefore improve the ...
Even though the sustainability of crop rotation with pulses has been demonstrated by ancient civiliz...
Non-Peer ReviewedThe Pulse Research Network is a national research network aimed at optimizing the ...
Pulse crops make significant contributions to the economy and environmental sustainability of wester...
Improving soil quality with the inclusion of pulse crops in wheat-based cropping systems may help pr...
Crop productivity is typically affected by various soil–plant factors systematically as they influen...
The inclusion of a pulse crop in a rotation often leads to higher seed yields for the succeeding ce...
There is a demand for new recommendations for pulse seeding rates that will meet the needs of organi...
As soybean acreage is expanding in western Canada, research is required to assess soybean production...
Non-Peer ReviewedGrain legumes can improve the yield of succeeding cereal crops through nitrogen and...
This study investigates the effect of different crop rotation systems on carbon (C) and nitrogen (N)...
