Add to ORKGLime application is a key management strategy to control the acidifying effects promoted by long-term application of nitrogen (N) fertilizers and is also a source of calcium for the crops. Two field studies located in Mitchell County was carried out during 3 years (2016-2018), exploring the effect of lime application in wheat (first year), corn (second year), and soybean (third year) crops. After the first year, there was an increase in wheat yield of up to 8% with lime application. For corn (second year), liming showed a yield response of up to 10%. Soybean (third year) yield response to lime showed a 17% yield increase in one location, however, soybean yield response was inconsistent at the second location. The magnitude of response to li...
Agricultural limestone is commonly used in Iowa to maintain optimum soil pH for crops. There is insu...
Abstract from introductionSoil acidity is one of the most influential factors in limiting crop produ...
Agricultural soils utilized for corn (Zea mays L.) and soybean (Glycine max [L.] Merr.) production i...
The rapidly growing popularity and adoption of no-tillage systems of corn production have required u...
A lime rate and source study was implemented in 1996 at the Armstrong Research Farm to observe limin...
Crop root growth and grain yield can be affected by chemical modifications in the soil profile due t...
Non-Peer ReviewedThe continuous use ammonium–based fertilizers in crop production have the tendency ...
The objectives of this work were to (1) asses how Shoemaker-McLean-Pratt (SMP), Sikora, and Mehlich ...
Farmers growing corn and soybean in northwest Iowa have to consider the cost of ag lime when liming ...
Grain producers in northeast Iowa are interested in the effects of liming rates on crops and soils. ...
Agricultural limestone is commonly applied to maintain optimum soil pH for crops. There is insuffici...
Agricultural limestone is commonly used in Iowa to maintain optimum soil pH for crops. However, ther...
Soil test results indicate that approximately 50 percent of the cropland in Tennessee is too acid fo...
Non-Peer ReviewedEight field scale, lime demonstrations were established in 1985 and 1986, on sites ...
Soil acidity can reduce crop production by directly affecting roots and changing the availability of...
Agricultural limestone is commonly used in Iowa to maintain optimum soil pH for crops. There is insu...
Abstract from introductionSoil acidity is one of the most influential factors in limiting crop produ...
Agricultural soils utilized for corn (Zea mays L.) and soybean (Glycine max [L.] Merr.) production i...
The rapidly growing popularity and adoption of no-tillage systems of corn production have required u...
A lime rate and source study was implemented in 1996 at the Armstrong Research Farm to observe limin...
Crop root growth and grain yield can be affected by chemical modifications in the soil profile due t...
Non-Peer ReviewedThe continuous use ammonium–based fertilizers in crop production have the tendency ...
The objectives of this work were to (1) asses how Shoemaker-McLean-Pratt (SMP), Sikora, and Mehlich ...
Farmers growing corn and soybean in northwest Iowa have to consider the cost of ag lime when liming ...
Grain producers in northeast Iowa are interested in the effects of liming rates on crops and soils. ...
Agricultural limestone is commonly applied to maintain optimum soil pH for crops. There is insuffici...
Agricultural limestone is commonly used in Iowa to maintain optimum soil pH for crops. However, ther...
Soil test results indicate that approximately 50 percent of the cropland in Tennessee is too acid fo...
Non-Peer ReviewedEight field scale, lime demonstrations were established in 1985 and 1986, on sites ...
Soil acidity can reduce crop production by directly affecting roots and changing the availability of...
Agricultural limestone is commonly used in Iowa to maintain optimum soil pH for crops. There is insu...
Abstract from introductionSoil acidity is one of the most influential factors in limiting crop produ...
Agricultural soils utilized for corn (Zea mays L.) and soybean (Glycine max [L.] Merr.) production i...