Source limitations due to leaf rust (caused by Puccinia triticina) during grain filling in wheat
Román A. Serrago A C and Daniel J. Miralles A BA Cátedra de Cerealicultura, Departamento de Producción Vegetal, Universidad de Buenos Aires and CONICET, Av. San Martin 4453, C1417DSE, Buenos Aires, Argentina.
B IFEVA, Facultad de Agronomía, Universidad de Buenos Aires, CONICET, Av. San Martin 4453, C1417DSE, Buenos Aires, Argentina.
C Corresponding author. Email: serrago@agro.uba.ar
Crop and Pasture Science 65(2) 185-193 https://doi.org/10.1071/CP13248
Submitted: 12 July 2013 Accepted: 20 December 2013 Published: 19 February 2014
Abstract
Late foliar diseases (especially leaf rust) reduce assimilate supply during post-anthesis, determining fewer assimilates per grain and thereby inducing grain weight reductions. Although the assimilate reduction hypothesis is the most accepted to explain decreases in grain weight due to late foliar diseases, it has not been clearly established whether those reductions could be completely ascribed to source limitations or whether diminished grain weight could be the consequence of reductions in grain weight potential. The objective of this work was to determine whether grain weight reductions due to leaf rust during grain filling could be associated with source–sink limitations. Two experiments (during 2007 and 2008 growing seasons) including healthy and diseased wheat crops were conducted under field conditions. Source–sink manipulation treatments and grain water content measurements were made to test the source- and sink- limitation hypotheses due to the appearance of late foliar diseases during grain filling. Leaf rust was induced to appear exclusively during grain filling, and in both years, it reduced grain yield and grain weight in both experiments. However, except for distal grains, there were no significant differences between healthy and diseased plots in maximum grain water content, indicating that late foliar diseases did not affect the potential size of the grains. The reserves stored in stems were remobilised to the growing grains in both healthy and diseased crops. However, the reserves remaining at physiological maturity were significantly reduced in diseased crops. Reduction in grain number by trimming the spikes increased the grain weight in diseased but not in healthy crops. Grain weight of trimmed spikes in diseased crops reached similar values to those of healthy crops. These results support the hypothesis that foliar diseases could cause source limitation for grain filling beyond differences in grain weight potential when the crops are severely affected by late foliar diseases such as leaf rust.
Additional keywords: grain weight, late foliar diseases, radiation interception/absorption, source–sink relationship.
References
Alvarez Prado S, Gallardo JM, Serrago RA, Kruk BC, Miralles DJ (2013) Comparative behavior of wheat and barley associated with field release and grain weight determination. Field Crops Research 144, 28–33.| Comparative behavior of wheat and barley associated with field release and grain weight determination.Crossref | GoogleScholarGoogle Scholar |
Annone JG, García R, Botta G, Ivancovich A (2001) Pérdidas de rendimiento ocasionadas por la “Roya de la Hoja” y la “Mancha Amarilla” del trigo: estimaciones en el norte de la Provincia de Buenos Aires. Revista de Tecnología Agropecuaria VI, 21–23.
Bancal M-O, Robert C, Ney B (2007) Modelling wheat growth and yield losses from late epidemics of foliar diseases using loss of green leaf area per layer and pre-anthesis reserves. Annals of Botany 100, 777–789.
| Modelling wheat growth and yield losses from late epidemics of foliar diseases using loss of green leaf area per layer and pre-anthesis reserves.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXhtlyhs7jJ&md5=4af9542e53753109348dc5013e2ceb55CAS | 17686762PubMed |
Bingham IJ, Walters DR, Foulkes MJ, Paveley ND (2009) Crop traits and the tolerance of wheat and barley to foliar disease. Annals of Applied Biology 154, 159–173.
| Crop traits and the tolerance of wheat and barley to foliar disease.Crossref | GoogleScholarGoogle Scholar |
Borrás L, Slafer GA, Otegui ME (2004) Seed dry weight response to source–sink manipulations in wheat, maize and soybean: a quantitative reappraisal. Field Crops Research 86, 131–146.
| Seed dry weight response to source–sink manipulations in wheat, maize and soybean: a quantitative reappraisal.Crossref | GoogleScholarGoogle Scholar |
Brocklehurst PA (1977) Factors controlling grain weight in wheat. Nature 266, 348–349.
| Factors controlling grain weight in wheat.Crossref | GoogleScholarGoogle Scholar |
Bryson RJ, Paveley ND, Clark WS, Sylvester-Bradley R, Scott RK (1997) Use of in-field measurements of green leaf area and incident radiation to estimate the effects of yellow rust epidemics on the yield of winter wheat. European Journal of Agronomy 7, 53–62.
| Use of in-field measurements of green leaf area and incident radiation to estimate the effects of yellow rust epidemics on the yield of winter wheat.Crossref | GoogleScholarGoogle Scholar |
Calderini DF, Abeledo LG, Savin R, Slafer GA (1999) Final grain weight in wheat as affected by short periods of high temperature during pre- and post-anthesis under field conditions. Functional Plant Biology 26, 453–458.
Carretero R, Serrago RA, Bancal MO, Perelló AE, Miralles DJ (2010) Absorbed radiation and radiation use efficiency as affected by foliar diseases in relation to their vertical position into the canopy in wheat. Field Crops Research 116, 184–195.
| Absorbed radiation and radiation use efficiency as affected by foliar diseases in relation to their vertical position into the canopy in wheat.Crossref | GoogleScholarGoogle Scholar |
Cornish PS, Baker GR, Murray GM (1990) Physiological responses of wheat (Triticum aestivum) to infection with Mycosphaerella graminicola causing Septoria tritici blotch. Australian Journal of Agricultural Research 41, 317–327.
| Physiological responses of wheat (Triticum aestivum) to infection with Mycosphaerella graminicola causing Septoria tritici blotch.Crossref | GoogleScholarGoogle Scholar |
Dimmock JPRE, Gooding MJ (2002) The effects of fungicides on rate and duration of grain filling in winter wheat in relation to maintenance of flag leaf green area. The Journal of Agricultural Science 138, 1–16.
| The effects of fungicides on rate and duration of grain filling in winter wheat in relation to maintenance of flag leaf green area.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38XjtFOmsrk%3D&md5=bc6da721912279f31c4b575d0137d430CAS |
Gambín BL, Borrás L, Otegui ME (2007) Kernel water relations and duration of grain filling in maize temperate hybrids. Field Crops Research 101, 1–9.
| Kernel water relations and duration of grain filling in maize temperate hybrids.Crossref | GoogleScholarGoogle Scholar |
Gooding MJ, Smith SP, Davies WP, Kettlewell PS (1994) Effects of late-season applications of propiconazole and tridemorph on disease, senescence, grain development and the breadmaking quality of winter wheat. Crop Protection 13, 362–370.
| Effects of late-season applications of propiconazole and tridemorph on disease, senescence, grain development and the breadmaking quality of winter wheat.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK2cXmt1Chs7o%3D&md5=703762e2c37695ed0e5b260011a80f1dCAS |
Gooding MJ, Dimmock JPRE, France J, Jones SA (2000) Green leaf area decline of wheat flag leaves: the influence of fungicides and relationships with mean grain weight and grain yield. Annals of Applied Biology 136, 77–84.
| Green leaf area decline of wheat flag leaves: the influence of fungicides and relationships with mean grain weight and grain yield.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXhsVGg&md5=940f4927b53c5fc165b8aa126189be61CAS |
Jenner CF (1979) Grain-filling in wheat plants shaded for brief periods after anthesis. Functional Plant Biology 6, 629–641.
Kruk BC, Calderini DF, Slafer GA (1997) Grain weight in wheat cultivars released from 1920 to 1990 as affected by post-anthesis defoliation. The Journal of Agricultural Science 128, 273–281.
| Grain weight in wheat cultivars released from 1920 to 1990 as affected by post-anthesis defoliation.Crossref | GoogleScholarGoogle Scholar |
Lamari L (2002) ‘ASSESS: Image analysis software for plant disease quantification.’ (APS, University of Manitoba: Winnipeg, Canada)
Miralles DJ, Slafer GA (1995) Individual grain weight responses to genetic reduction in culm length in wheat as affected by source-sink manipulations. Field Crops Research 43, 55–66.
| Individual grain weight responses to genetic reduction in culm length in wheat as affected by source-sink manipulations.Crossref | GoogleScholarGoogle Scholar |
Nicolas ME, Gleadow RM, Dalling MJ (1985) Effect of post-anthesis drought on cell division and starch accumulation in developing wheat grains. Annals of Botany 55, 433–444.
Pepler S, Gooding MJ, Ford KE, Ellis RH (2005) A temporal limit to the association between flag leaf life extension by fungicides and wheat yields. European Journal of Agronomy 22, 363–373.
| A temporal limit to the association between flag leaf life extension by fungicides and wheat yields.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXjt1Wjsro%3D&md5=b5f918fd19d708019a87fdda27b0e398CAS |
Robert C, Bancal M-O, Nicolas P, Lannou C, Ney B (2004) Analysis and modelling of effects of leaf rust and Septoria tritici blotch on wheat growth. Journal of Experimental Botany 55, 1079–1094.
| Analysis and modelling of effects of leaf rust and Septoria tritici blotch on wheat growth.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2cXjs1WrtLc%3D&md5=a0399add31768848a07bcfda9290e828CAS | 15073221PubMed |
Ruske RE, Gooding MJ, Jones SA (2003) The effects of adding picoxystrobin, azoxystrobin and nitrogen to a triazole programme on disease control, flag leaf senescence, yield and grain quality of winter wheat. Crop Protection 22, 975–987.
| The effects of adding picoxystrobin, azoxystrobin and nitrogen to a triazole programme on disease control, flag leaf senescence, yield and grain quality of winter wheat.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3sXltl2gs7k%3D&md5=265579a265118e05e397ba89ebd6d3ceCAS |
Savin R, Slafer GA (1991) Shading effects on the yield of an Argentinian wheat cultivar. The Journal of Agricultural Science 116, 1–7.
| Shading effects on the yield of an Argentinian wheat cultivar.Crossref | GoogleScholarGoogle Scholar |
Schnyder H, Baum U (1992) Growth of the grain of wheat (Triticum aestivum L.). The relationship between water content and dry matter accumulation. European Journal of Agronomy 1, 51–57.
Serrago RA, Carretero R, Bancal MO, Miralles DJ (2009) Foliar diseases affect the eco-physiological attributes linked with yield and biomass in wheat (Triticum aestivum L.). European Journal of Agronomy 31, 195–203.
| Foliar diseases affect the eco-physiological attributes linked with yield and biomass in wheat (Triticum aestivum L.).Crossref | GoogleScholarGoogle Scholar |
Serrago RA, Carretero R, Bancal MO, Miralles DJ (2011) Grain weight response to foliar diseases control in wheat (Triticum aestivum L.). Field Crops Research 120, 352–359.
| Grain weight response to foliar diseases control in wheat (Triticum aestivum L.).Crossref | GoogleScholarGoogle Scholar |
Serrago RA, Alzueta I, Savin R, Slafer GA (2013) Understanding grain yield responses to source–sink ratios during grain filling in wheat and barley under contrasting environments. Field Crops Research 150, 42–51.
Singh BK, Jenner CF (1982) A modified method for the determination of cell number in wheat endosperm. Plant Science Letters 26, 273–278.
| A modified method for the determination of cell number in wheat endosperm.Crossref | GoogleScholarGoogle Scholar |
Slafer GA, Andrade FH (1991) Changes in physiological attributes of the dry matter economy of bread wheat (Triticum aestivum) through genetic improvement of grain yield potential at different regions of the world. Euphytica 58, 37–49.
| Changes in physiological attributes of the dry matter economy of bread wheat (Triticum aestivum) through genetic improvement of grain yield potential at different regions of the world.Crossref | GoogleScholarGoogle Scholar |
Slafer GA, Savin R (1994) Source-sink relationship and grain mass at different positions within the spike in wheat. Field Crops Research 37, 39–49.
| Source-sink relationship and grain mass at different positions within the spike in wheat.Crossref | GoogleScholarGoogle Scholar |
Sofield I, Evans LT, Cook MG, Wardlaw IF (1977) Factors influencing the rate and duration of grain filling in wheat. Functional Plant Biology 4, 785–797.
Waggoner PE, Berger RD (1987) Defoliation, disease, and growth. Phytopathology 77, 393–398.
Yemm EW, Willis AJ (1954) The estimation of carbohydrates in plant extract by anthrone. Biochemistry 57, 508–514.
Zadoks JC, Chang TT, Konzak CF (1974) A decimal code for the growth stages of cereals. Weed Research 14, 415–421.