Add to ORKGThe aim of this study was to evaluate different management systems to close the yield gap in soybean production. A soybean experiment was established in Scandia, KS, evaluating five management systems under both rainfed and irrigated conditions. For the 2017 season, dryland and irrigated average yields were similar (63–65 bu/a) due to herbicide injury on the irrigated phase. In both water scenarios, intensification (high input) increased yields compared with common practice (low input) systems. Under irrigation, a consistent response to a balanced nutrition program was documented
In an effort to maximize yields, many soybean growers have begun moving to intensive, input-based so...
In previous research, physiological responses to agronomic variables to help us explain yield respon...
Soybean yield differences are a combination of the genotype, environmental conditions, and managemen...
Three soybean research trials were conducted during the 2016 growing season. Two studies were conduc...
During 2015, four soybean research trials were conducted in dryland and irrigated environments. Two ...
Two soybean research trials were conducted at Scandia, KS, in dryland and irrigated environments. Th...
The aim of this study was to evaluate different management strategies for improving yield productivi...
In soybean (Glycine max [L.] Merr.), maintaining favorable growth conditions (e.g., water, solar rad...
Doctor of PhilosophyDepartment of AgronomyIgnacio CiampittiPotential yield (PY) is defined by the yi...
Doctor of PhilosophyDepartment of AgronomyIgnacio CiampittiPotential yield (PY) is defined by the yi...
Double-crop (DC) soybeans (Glycine max L.) are gaining popularity as an alternative system to intens...
Crop performance and yield varies as a function of the growing environment and soil properties withi...
Double-crop soybean has great potential to increase profits and the use of agricultural land. Howeve...
In an effort to maximize yields, many soybean growers have begun moving to intensive, input-based so...
Field experiments were conducted at the North Central Kansas Experiment Field near Scandia, KS, in t...
In an effort to maximize yields, many soybean growers have begun moving to intensive, input-based so...
In previous research, physiological responses to agronomic variables to help us explain yield respon...
Soybean yield differences are a combination of the genotype, environmental conditions, and managemen...
Three soybean research trials were conducted during the 2016 growing season. Two studies were conduc...
During 2015, four soybean research trials were conducted in dryland and irrigated environments. Two ...
Two soybean research trials were conducted at Scandia, KS, in dryland and irrigated environments. Th...
The aim of this study was to evaluate different management strategies for improving yield productivi...
In soybean (Glycine max [L.] Merr.), maintaining favorable growth conditions (e.g., water, solar rad...
Doctor of PhilosophyDepartment of AgronomyIgnacio CiampittiPotential yield (PY) is defined by the yi...
Doctor of PhilosophyDepartment of AgronomyIgnacio CiampittiPotential yield (PY) is defined by the yi...
Double-crop (DC) soybeans (Glycine max L.) are gaining popularity as an alternative system to intens...
Crop performance and yield varies as a function of the growing environment and soil properties withi...
Double-crop soybean has great potential to increase profits and the use of agricultural land. Howeve...
In an effort to maximize yields, many soybean growers have begun moving to intensive, input-based so...
Field experiments were conducted at the North Central Kansas Experiment Field near Scandia, KS, in t...
In an effort to maximize yields, many soybean growers have begun moving to intensive, input-based so...
In previous research, physiological responses to agronomic variables to help us explain yield respon...
Soybean yield differences are a combination of the genotype, environmental conditions, and managemen...