Floral Asynchrony and Kernel Set in Maize Quantified by Image Analysis

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Floral Asynchrony and Kernel Set in Maize Quantified by Image Analysis

Paolo Bassetti and Mark E. Wesgate^*

Ctr. Richerche Agronomic, CH-6593, Cadenazzo, Switzerland
North Central Soil Conservation Res. Lab., Morris,MN 56267

^* Corresponding author.

A delay in the onset of silk emergence relative to pollen shedoften decreases kernel set in maize (Zea mays L.). Lack of pollen,failure of silks to emerge, and loss of silk receptivity allare probable causes for kernel loss. To date, it has not beenpossible to distinguish between these possibilities, due tothe lack of quantitative information on the intensity of pollenshed and progress of silk emergence under field conditions.Using a computer-aided image analysis system, we measured thedally progress of silk emergence and the intensity of pollenshed in the field. Kernel set also was measured on plants whosesilk emergence varied from 8 d before to 13 d after anthesis(DAA). About 200 silks emerged on the first day silks appearedand >90% of the florets had silks exposed within 3 d. Pollenshed followed a normal distribution with time, peaked 3 DAA,and ended 13 DAA. On ears with silks exposed to pollen for onlyone d, nearly all florets set kernels when pollen was shed atintensities greater than ${approx}$ 100 grains cm^–2 d^–lmm;however, percent set in apical floret positions decreased whenthe onset of silk emergence was delayed >3 DAA, despite pollenshed at a rate sufficient to ensure high kernel set. These resultsindicate that asynchrony between silk emergence and pollen sheddecreases kernel set because silks emerge after pollen amountbecomes limiting. In the current experiment, the intensity ofpollen shed limited kernel set only beyond 7 DAA. Also, silksemerged prior to anthesis remained receptive to pollen for atleast 5 d. This finding suggests that selection for silk emergenceprior to pollen shed (protogyny) may improve kernel set in maizeunder conditions known to delay silk emergence.

Contribution of the USDA-ARS in cooperation with the Univ. ofMinnesota Agric. Exp. Stn. Scientific Journal Series no. 20630

Received for publication June 22, 1993.

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				A. E. Fonseca, J. I. Lizaso, M. E. Westgate, L. Grass, and D. L. Dornbos Jr. Simulating Potential Kernel Production in Maize Hybrid Seed Fields Crop Sci., September 1, 2004; 44(5): 1696 - 1709. [Abstract] [Full Text] [PDF]

				S. R. Anderson, M. J. Lauer, J. B. Schoper, and R. M. Shibles Pollination Timing Effects on Kernel Set and Silk Receptivity in Four Maize Hybrids Crop Sci., March 1, 2004; 44(2): 464 - 473. [Abstract] [Full Text] [PDF]

				J. I. Lizaso, M. E. Westgate, W. D. Batchelor, and A. Fonseca Predicting Potential Kernel Set in Maize from Simple Flowering Characteristics Crop Sci., May 1, 2003; 43(3): 892 - 903. [Abstract] [Full Text] [PDF]

				M. E. Westgate, J. Lizaso, and W. Batchelor Quantitative Relationships between Pollen Shed Density and Grain Yield in Maize Crop Sci., May 1, 2003; 43(3): 934 - 942. [Abstract] [Full Text] [PDF]

				M. Uribelarrea, J. Carcova, M. E. Otegui, and M. E. Westgate Pollen Production, Pollination Dynamics, and Kernel Set in Maize Crop Sci., November 1, 2002; 42(6): 1910 - 1918. [Abstract] [Full Text] [PDF]

				A. E. Fonseca, M. E. Westgate, and R. T. Doyle Application of fluorescence microscopy and image analysis for quantifying dynamics of maize pollen shed Crop Sci., November 1, 2002; 42(6): 2201 - 2206. [Abstract] [Full Text] [PDF]

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