Seed Number as a Function of Growth. A Comparative Study in Soybean, Sunflower, and Maize

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Seed Number as a Function of Growth. A Comparative Study in Soybean, Sunflower, and Maize

Claudia R.C. Vega*, Fernando H. Andrade, Víctor O. Sadras, Sergio A. Uhart and Oscar R. Valentinuz

Unidad Integrada INTA Balcarce - Facultad de Ciencias Agrarias UNMP. CC 276, 7620 Balcarce, Argentina

* Corresponding author (clavega{at}mdp.edu.ar)

Seed number, the main yield component of cereals and oil-seedspecies, strongly depends on the physiological status of thecrop during a critical period for seed set. Using a comparativeapproach including three species with contrasting reproductivestrategies, we investigated the relationship between seed numberper plant (SNP) and plant growth rate during the critical periodfor seed set (PGR_C). Indeterminate soybean [Glycine max (L.)Merr.], sunflower (Helianthus annuus L.), and maize (Zea maysL.) crops were grown under a wide range of plant densities togenerate contrasting availability of resources per plant. Growthof individual plants was estimated by a novel, nondestructivemethod based on relationships between actual shoot dry matterand morphometric variables, including stem diameter, plant height,and dimensions of reproductive structures. Seed number per plantranged from 0 to 890 in soybean, 0 to 4096 in sunflower, and0 to 1348 in maize and PGR_C (g d^-1) from 0.01 to 4.3 in soybean,0.3 to 17.6 in sunflower, and 0.4 to 12.3 in maize. Our studyshowed that (i) the relationship between SNP and PGR_C was linearin soybean, reflecting the reproductive plasticity of this species,and curvilinear in sunflower and maize, reflecting morphogeneticrestrictions to generate reproductive sinks under favorablegrowing conditions; (ii) the PGR_C threshold below which no seedwas set varied among species, being negligible in soybean, closeto 0.35 g d^-1 in sunflower, and 1 g d^-1 in maize. Quantitativerelationships between seed number and plant growth rate duringthe critical period of seed set could be useful for crop modeling.

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				S. P. Conley, L. Abendroth, R. Elmore, E. P. Christmas, and M. Zarnstorff Soybean Seed Yield and Composition Response to Stand Reduction at Vegetative and Reproductive Stages Agron. J., October 21, 2008; 100(6): 1666 - 1669. [Abstract] [Full Text] [PDF]

				T. Sarlangue, F. H. Andrade, P. A. Calvino, and L. C. Purcell Why Do Maize Hybrids Respond Differently to Variations in Plant Density? Agron. J., June 5, 2007; 99(4): 984 - 991. [Abstract] [Full Text] [PDF]

				K. E. D'Andrea, M. E. Otegui, A. G. Cirilo, and G. Eyherabide Genotypic Variability in Morphological and Physiological Traits among Maize Inbred Lines--Nitrogen Responses Crop Sci., April 25, 2006; 46(3): 1266 - 1276. [Abstract] [Full Text] [PDF]

				D. B. Egli and W. P. Bruening Shade and Temporal Distribution of Pod Production and Pod Set in Soybean Crop Sci., August 1, 2005; 45(5): 1764 - 1769. [Abstract] [Full Text] [PDF]

				F. H. Andrade and P. E. Abbate Response of Maize and Soybean to Variability in Stand Uniformity Agron. J., July 13, 2005; 97(4): 1263 - 1269. [Abstract] [Full Text] [PDF]

				L. Echarte, F. H. Andrade, C. R. C. Vega, and M. Tollenaar Kernel Number Determination in Argentinean Maize Hybrids Released between 1965 and 1993 Crop Sci., September 1, 2004; 44(5): 1654 - 1661. [Abstract] [Full Text] [PDF]

				F. H. Andrade, P. Calvino, A. Cirilo, and P. Barbieri Yield Responses to Narrow Rows Depend on Increased Radiation Interception Agron. J., September 1, 2002; 94(5): 975 - 980. [Abstract] [Full Text] [PDF]

				D. B. Egli and W. P. Bruening Synchronous Flowering and Fruit Set at Phloem-Isolated Nodes in Soybean Crop Sci., September 1, 2002; 42(5): 1535 - 1540. [Abstract] [Full Text] [PDF]