Yield Responses to Narrow Rows Depend on Increased Radiation Interception

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Yield Responses to Narrow Rows Depend on Increased Radiation Interception

Fernando H. Andrade^*^,a, Pablo Calviño^b, Alfredo Cirilo^c and Pablo Barbieri^a

^a Unidad Integrada INTA Balcarce-Facultad de Ciencias Agrarias UNMP, CC 276, 7620 Balcarce, Buenos Aires, Argentina
^b Unidad Integrada INTA Balcarce-Facultad de Ciencias Agrarias UNMP and AACREA, CC 276, 7620 Balcarce, Buenos Aires, Argentina
^c INTA Pergamino, CC 276, 7620 Balcarce, Buenos Aires, Argentina

* Corresponding author (fandrade{at}balcarce.inta.gov.ar)

Received for publication November 27, 2001. The response of grain yield to narrow rows can be analyzed interms of the effect on the amount of radiation intercepted bythe crops. The objective of this work was to study the effectof row spacing on grain yield and radiation interception (RI)during the critical period for grain set in three crop species.Ten experiments were conducted with maize (Zea mays L.), sunflower(Helianthus annuus L.), or soybean [Glycine max (L.) Merr.]under irrigation or under dryland conditions without severedrought during flowering and grain filling. The treatments consistedof two row distances combined with other factors such as plantdensity, cultivar, defoliation, etc. Grain yield responses todecrease distance between rows were inversely proportional toRI achieved with the wide-row control treatment during the criticalperiod for grain number determination (r² = 0.62, 0.54, and0.86 for maize, soybean, and sunflower, respectively). Moreover,when row spacing was reduced, grain yield increases and RI increasesduring the critical periods for grain set were significantlyand directly correlated in the three crop species (r² = 0.71,0.64, and 0.94 for maize, soybean, and sunflower, respectively).For the conditions of these experiments, grain yield increasein response to narrow rows was closely related to the improvementin light interception during the critical period for grain set.

Abbreviations: MG, maturity group • PAR, photosynthetically active radiation • RI, radiation interception

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				P. R. Capristo, R. H. Rizzalli, and F. H. Andrade Ecophysiological Yield Components of Maize Hybrids with Contrasting Maturity Agron. J., June 26, 2007; 99(4): 1111 - 1118. [Abstract] [Full Text] [PDF]

				G. A. Maddonni, A. G. Cirilo, and M. E. Otegui Row Width and Maize Grain Yield Agron. J., October 3, 2006; 98(6): 1532 - 1543. [Abstract] [Full Text] [PDF]

				K. D. Subedi, B. L. Ma, and D. L. Smith Response of a Leafy and Non-Leafy Maize Hybrid to Population Densities and Fertilizer Nitrogen Levels Crop Sci., July 25, 2006; 46(5): 1860 - 1869. [Abstract] [Full Text] [PDF]

				C. A. Shapiro and C. S. Wortmann Corn Response to Nitrogen Rate, Row Spacing, and Plant Density in Eastern Nebraska Agron. J., April 11, 2006; 98(3): 529 - 535. [Abstract] [Full Text] [PDF]

				B. S. Sharratt and D. A. McWilliams Microclimatic and Rooting Characteristics of Narrow-Row versus Conventional-Row Corn Agron. J., June 17, 2005; 97(4): 1129 - 1135. [Abstract] [Full Text] [PDF]

				J. T. Edwards, L. C. Purcell, and E. D. Vories Light Interception and Yield Potential of Short-Season Maize (Zea mays L.) Hybrids in the Midsouth Agron. J., January 1, 2005; 97(1): 225 - 234. [Abstract] [Full Text] [PDF]