Increasing Barley Grain Numbers Per Ear
The number of grains in each ear of barley depends on the number of fertile spikelets on the central stem of the ear. In barley, each spikelet contains only one floret, while wheat spikelets contain two to five fertile florets. All barley, spikelets form in threes, however, in two-row barley only the floret in the central spikelet is fertile, whereas in six-row barley, florets in all three spikelets are fertile.
Crop management, particularly nutrition, can significantly influence both grains per ear and ears per sq m. Together these determine the number of grains per sq m. Grains per sq m and the size of individual grains determines the total storage capacity during the grain filling period. In winter barley, grain yield is most strongly related to grain number; therefore, early management decisions to optimise tiller production and survival are particularly important.
The grain number is itself a function of the number of fertile shoots per unit area and the number of grains per head. The grower therefore needs to consider the nutrients that can have an impact on the grain numbers / ear which are mainly nitrogen, potassium, copper, zinc, boron and manganese.
Nitrogen
By using the nitrogen to create the correct leaf canopy and therefore final grain site numbers, the result is more grains / ear at harvest.
Number of grain sites on the main tiller ear in barley
Copper and zinc
Copper and zinc are both important in achieving a high grain number in the ear/spike.
Manganese
Deficiency of manganese will result in a reduction of grain numbers / ear.
Boron
Boron is well documented at having an effect on pollen viability and therefore deficiency can lead to a reduction in the number of grain sites per spike. A measurement used to observe the effect of boron is Grain Set Index and normally expressed as a %. A high Grain Set Index is the target as this will lead to more grains per ear / spike. Care needs to be taken with boron as if applied at the incorrect timing and rate, yield reduction through decreased tillers can result.
These very large differences / effects show how important boron is as an essential plant nutrient.