Breaking Uniculm Growth Habit of Spring Cereals at High Latitudes by Crop Management. I. Leaf Area Index and Biomass Accumulation

Spring cereals are commonly sown at high rates in Finland with the result that, under long day conditions, tillering is suppressed. If the apical dominance maintained by the shoot apex can be broken through altered crop management the possibility exists that the increased tillering allows a reduction in seeding rate. The objective of our study was to assess the effects of mechanical and chemical treatments, aimed at breaking the uniculm growth habit, on changes in green leaf area and consequently on biomass accumulation and partitioning in two spring oat, two spring barley, and two spring wheat cultivars. Results indicated that single applications of gibberellic acid (GA3), chlormequat chloride (CCC), and urea had no overall, persistent, advantageous effect on crop growth, even though occasional, temporary increases in LAI, and accumulation and partitioning of biomass, were recorded. Changes in crop structure, however, did not solely result from the increased contribution of tillers; treatments also accelerated main shoot growth. Following damage to the main shoot caused by mechanical treatments in particular, one of the tillers rapidly replaced the main shoot. Therefore, a low seeding rate associated with treatments aiming at breaking apical dominance cannot substitute for a high seeding rate at high latitudes. This was particularly the case in 1992 when early summer drought—prevalent in southern Finland - resulted in peak values of LAI as low as ≤ 2 for wheat and ≤ 3 for oats and barley.