Environmental stresses can reduce winter wheat (Triticum aestivum L.) stand
s to less than optimum densities, forcing producers to assess yield potenti
al from early season plant densities. Our objectives were to assess changes
in yield and associated traits resulting from varying spring plant densiti
es, and to determine if these responses varied by cultivar. Three hard red
winter wheat cultivars were grown at seven population densities in seven Mo
ntana environments. Plant density levels ranging from 10 to 100% of target
stand were achieved for each cultivar by planting 215 seeds m(-2) in the fa
ll and replacing winter wheat seed with spring wheat seed in proportion to
the desired spring survival for each treatment. Cultivars did not differ in
mean spring plant density or grain yield but differed for yield components
, test weight, and protein concentration. The response to increasing plant
density was generally not cultivar specific, as plant density interactions
with cultivar were significant only for kernels spike(-1) Grain yield incre
ased, as did spikes m(-2) and kernels m(-2): while kernel weight and kernel
s spike(-1) decreased with increasing spring plant density. Response to inc
reasing spring plant density varied with environment for ah traits, hut env
ironment effects and linear and quadratic plant density terms accounted for
95% of the variation in interaction means for all traits except tillers pl
ant(-1). Maximum grain yield occurred at 140 plants m(-2) and 21.5 plants m
(-2) produced winter wheat grain yield equal to spring wheat grain yield fo
r the same environments.