Abstract
Since 1995 the Finnish Agri-Environmental Program has set limits for nitrogen (N) and phosphorus (P) fertiliser application rates in agriculture. The decrease in N and P fertiliser recommendations, and especially the decrase in N and P amounts applied in practice, has raised the question of whether N and P application rates are too low to produce high quality yields. The test weight, 1000 grain weight and protein concentrations measured in 19902005 by the Cereal Inspection Unit of the Finnish Food Safety Authority were analysed against soil type, location and NP fertiliser data. The purpose of this study was to document and statistically analyse changes in fertiliser use, important quality factors and the connection between fertiliser use and grain quality of spring barley (Hordeum vulgare L.), oats (Avena sativa L.), winter rye (Secale cereale L.) as well as spring and winter wheat (Triticum aestivum L.). Applications of N and P fertiliser, test weight and 1000 grain weight have decreased in Finland since 1990-1994. Protein content began to decrease in 19951999, but then increased in 20002005. The statistical analysis showed that reduced N application rates are associated with lower test weight, 1000 grain weight and grain protein concentration. In addition, low P application rates were associated with reduced 1000 grain weight and protein concentration in some instances, although protein concentration also increased in winter wheat grain. The magnitude of grain quality reduction was not solely explicable through N and P application rates. During the observation period many other factors changed in Finnish cereal production and, for example, the decrease in cereal prices, increase of reduced tillage and low investments in drainage and liming could have been associated with decreased grain quality.;
Highlights
Introduction grain quality componentsP supply during early crop development has a large effect on yield potential, but there might be a requirement for an external supply of P during flowering and grain filling, as discussed by Grant et al (2001)
The purpose of this study was to investigate the changes in fertiliser use, important grain quality factors and interactions among them
The decrease has been statistically significant for all cereals on all soils with the exception of winter rye from
Summary
Introduction grain quality componentsP supply during early crop development has a large effect on yield potential, but there might be a requirement for an external supply of P during flowering and grain filling, as discussed by Grant et al (2001). Trends in annual cereal yields on Finnish farms show negligible increases (Fig.1, Slafer and PeltonenSainio 2001), Finnish variety trial data indicated continuous increase in the annual yields of all cereal species in 1973–2003 (Öfversten et al.2004). This suggests that the genetic improvement of cereal varieties in trials does not translate into yield increases under actual farming conditions. Grain number is considered to be the more flexible and important of these two yield components (Peltonen-Sainio et al 2007, Rajala et al 2007). While increased application of N fertiliser usually increases the number of tillers and the number of grains per head, under Finnish conditions the increase in tiller number is not necessary if seed emergence is good
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