Effect of stripe rust on the yield response of wheat to nitrogen

Nitrogen (N) is the most important fertiliser element determining the productivity of wheat. N nutrition is known to affect the level of stripe rust infection, with higher N associated with increased disease severity. Stripe rust, caused by Puccinia striiformis f. sp. tritici, is a major yield-limiting disease of wheat in Australia. This paper describes experiments designed to investigate the agronomic response to the interaction of various levels of N application and stripe rust severity in wheat varieties differing in response. Experimental plots were established in crop seasons 2006 and 2007 on the Liverpool Plains of northern NSW, Australia. Yield, biomass, grain protein content (GPC) and harvest index (HI) data were recorded. Increased rates of N increased the severity of stripe rust during grain filling. N application also increased yield and GPC in all varieties in both years. Stripe rust reduced the yield of the rust-susceptible wheat varieties, and GPC and proportion of added N recovered in the grain were also reduced in one year but not the other. It was evident from our experiment that stripe rust caused yield loss accompanied by either no change or reduction in GPC, indicating that the total amount of N entering the grain was reduced by stripe rust. The effects of stripe rust on N yield are most likely associated with reduced uptake of N during grain filling.

[1]  J. E. Parlevliet,et al.  Effects of nitrogen fertilization on disease severity and infection type of yellow rust on wheat genotypes varying in quantitative resistance. , 1995 .

[2]  Michael Gooding,et al.  The influence of foliar diseases, and their control by fungicides, on the protein concentration in wheat grain: a review , 2002, The Journal of Agricultural Science.

[3]  I. Holford,et al.  Nitrogen response characteristics of wheat protein in relation to yield responses and their interactions with phosphorus , 1992 .

[4]  J. Mossé Nitrogen-to-protein conversion factor for ten cereals and six legumes or oilseeds. A reappraisal of its definition and determination. Variation according to species and to seed protein content , 1990 .

[5]  Corinne Robert,et al.  Wheat leaf photosynthesis loss due to leaf rust, with respect to lesion development and leaf nitrogen status. , 2004, The New phytologist.

[6]  N. Paveley,et al.  Nitrogen per unit leaf area affects the upper asymptote of Puccinia striiformis f.sp. tritici epidemics in winter wheat , 2004 .

[7]  J. F. Brown,et al.  Effect of nitrogen nutrition of the host on the epidemiology of Puccinia striiformis f.sp. tritici and crop yield in wheat , 1991, Australasian Plant Pathology.

[8]  R. Roche,et al.  Late foliar diseases in wheat crops decrease nitrogen yield through N uptake rather than through variations in N remobilization. , 2008, Annals of botany.

[9]  C. Lannou,et al.  Wheat leaf rust uredospore production and carbon and nitrogen export in relation to lesion size and density. , 2002, Phytopathology.