Add to ORKGHigh wheat yields require large quantities of available plant food. For example, each bushel of spring or winter wheat will take up, in addition to the secondary and trace elements needed, the equivalent of approximately 2.4, .8, and 1.9 lbs of nitrogen (N), phosphorus (P2O5), and potassium (K2O) in the plant and grain
High yields of flax depend directly on reasonably high levels of available soil fertility. Total pla...
Soybeans in South Dakota respond to direct fertilization if soil test levels of phosphorus and potas...
The use of fertilizer is rapidly becoming recognized as an essential part of a good soil management ...
High wheat yields require large quantities of available plant food. For example, each bushel of spri...
High barley yields require large quantities of available plant nutrients. For example, the grain and...
High oat yields require large quantities of available plant nutrients. For example, each bushel of o...
The 5 million acres of small grain planted annually in South Dakota account for about 35% of the val...
Soil testing, recommended rates, and timing for fertilizing winter wheat with nitrogen, potassium, a...
This publication explains the nutrient requirements for corn as well as providing recommendations fo...
Each bushel of corn will take up approximately 1.4 lb of nitrogen (N), 0.5 lb of phosphate (P2O5), a...
The continuous production of farm crops without the return of a substantial quantity of the plant fo...
Nitrogen (N) fertilization has contributed greatly to improving the grain yield and protein content ...
It has been predicted that the cost of nitrogen fertilizer will soon triple. Consequently, N managem...
This publication provides guidance on the placement, effect of time of application on yield, soil mo...
Successful agriculture is dependent upon the maintenance of soil fertility. The problem of maintaini...
High yields of flax depend directly on reasonably high levels of available soil fertility. Total pla...
Soybeans in South Dakota respond to direct fertilization if soil test levels of phosphorus and potas...
The use of fertilizer is rapidly becoming recognized as an essential part of a good soil management ...
High wheat yields require large quantities of available plant food. For example, each bushel of spri...
High barley yields require large quantities of available plant nutrients. For example, the grain and...
High oat yields require large quantities of available plant nutrients. For example, each bushel of o...
The 5 million acres of small grain planted annually in South Dakota account for about 35% of the val...
Soil testing, recommended rates, and timing for fertilizing winter wheat with nitrogen, potassium, a...
This publication explains the nutrient requirements for corn as well as providing recommendations fo...
Each bushel of corn will take up approximately 1.4 lb of nitrogen (N), 0.5 lb of phosphate (P2O5), a...
The continuous production of farm crops without the return of a substantial quantity of the plant fo...
Nitrogen (N) fertilization has contributed greatly to improving the grain yield and protein content ...
It has been predicted that the cost of nitrogen fertilizer will soon triple. Consequently, N managem...
This publication provides guidance on the placement, effect of time of application on yield, soil mo...
Successful agriculture is dependent upon the maintenance of soil fertility. The problem of maintaini...
High yields of flax depend directly on reasonably high levels of available soil fertility. Total pla...
Soybeans in South Dakota respond to direct fertilization if soil test levels of phosphorus and potas...
The use of fertilizer is rapidly becoming recognized as an essential part of a good soil management ...