Nitrogen availability and drought influence wheat (Triticum aestivum L.) gr
ain yields in the semiarid and subhumid Pampas region of Argentina. The app
lication of fertilizers containing osmoprotectants, such as glycine-betaine
, to crop canopies might reduce crop losses caused by environmental stresse
s. The objectives of this study were (a) to determine the effects on wheat
grain yields of the foliar application of a commercial fertilizer with glyc
ine-betaine, and (b) to establish, under farmers' field conditions, the rel
ation between soil properties and the productivity of wheat crops treated w
ith the same product. Two experiments were conducted in the north-western p
art of the Buenos Aires province of Argentina on Typic Hapludolls and Entic
Hapludolls. In the first, the treatments were N fertilization (0, 23 and 4
6 kg ha(-1)) and the foliar application to the wheat crop, in the vegetativ
e stages, of a foliar fertilizer containing N, P, Zn and glycinebetaine (0
and 2.51 ha(-1)). The second experiment was carried out on 10 farmers' fiel
ds, for each of which the treatment was the foliar application to the wheat
crop, in the vegetative stages, of the same foliar fertilizer (0 and 2.51
ha(-1)). In both experiments, the grain yield, the individual grain weight,
the number of grains per spike and the spike and plant density at the phys
iological maturity of the crops were determined. Soil organic matter (SOM)
and available P were determined in each of the 10 fields of the second expe
riment. Wheat grain yields were increased by N fertilization and glycinebet
aine treatment. The number of grains per spike was higher in the treatments
with glycinebetaine application. In the farmers' fields, the grain yields
of the treatments with the application of the product with glycinebetaine w
ere, on average, 18% higher than those of the non-treated plots, with great
er responses at sites with low SOM levels. We conclude that, in subhumid re
gions with a dry period between the tillering and flowering stages of wheat
, the foliar application of foliar fertilizers containing glycinebetaine at
the vegetative stages of crop development enhances grain yields by increas
ing the number of grains per spike. This response is independent of the SOM
level or the N fertilization rate.