Nitrogen use efficiency in forage yield of tropical maize populations

The objective of our study was to characterize and determine the patterns of genetic control in relation to tolerance and efficiency of nitrogen use by means of a complete diallel cross involving contrasting inbred progenies of tropical maize based on a univariate approach within the perspective of a multivariate mixed model. Eleven progenies, previously classified regarding the tolerance and responsiveness to nitrogen, were crossed in a complete diallel cross. Fifty-five hybrids were obtained. The hybrids and the progenies were evaluated at two different nitrogen levels, in two locations. The grain yield was measured as well as its yield components. The heritability values between the higher and lower nitrogen input environment did not differ among themselves. It was observed that the general combining ability values were similar for both approaches univariate and multivariate, when it was analyzed within each location and nitrogen level. The estimate of variance of the specific combining ability was higher than general combining ability estimate and the ratio between them was 0.54. The univariate and multivariate approaches are equivalent in experiments with good precision and high heritability. The nonadditive genetic effects exhibit greater quantities than the additive genetic effects for the genetic control of nitrogen use efficiency.

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Nitrate reductase and glutamine synthetase activities in S1 endogamic families of the maize populations Sol da Manhã NF and Catetão

Revista Brasileira de Fisiologia Vegetal ◽

10.1590/s0103-31312001000100010 ◽

2001 ◽

Vol 13 (1) ◽

pp. 88-102

Author(s):

ALTAIR TOLEDO MACHADO ◽

LADASLAV SODEK ◽

ERNESTO PATERNIANI ◽

MÂNLIO SILVESTRE FERNANDES

Keyword(s):

Nitrate Reductase ◽

Glutamine Synthetase ◽

Nutrient Solution ◽

Nitrogen Use Efficiency ◽

Nitrogen Use ◽

Breeding Programs ◽

Lattice Design ◽

Maize Populations ◽

Use Efficiency ◽

Planting Season

The possibility of improving nitrogen use efficiency in maize was investigated using S1 endogamic families of the populations Sol da Manhã NF and Catetão. A simple 10 X 10 lattice design was adopted and the trials carried out at the experimental field of MITLA AGRÍCOLA LTDA, in Uberlândia, State of Minas Gerais, during the 1994/95 planting season. Based on grain production figures, the three best and three worst performing S1 endogamic families were selected for this study. These were pooled to form four sub-populations denominated NFB, NFR (the best and worst families, respectively, of the Sol da Manhã NF variety), CATB and CATR (the best and worst families, respectively, of the Catetão variety). Each of these sub-populations was evaluated under greenhouse conditions. The experimental design was factorial with treatments arranged in randomized blocks. Sample replicates consisted of pots with four plants. Feeding with modified Hoagland’s nutrient solution began on the seventh day after sowing. The study involved four nitrogen regimes, where varying proportions of NO3- and NH4+ were formulated, such that the nutrient solution contained the following mixtures: 75% NO3- : 25% NH4+; 25% NO3- : 75% NH4+; 50% NO3- : 50% NH4+ (all high N mixtures) and 5% NO3- : 5% NH4+ (low N mixture). Twenty-five days after planting, the activities of the enzymes nitrate reductase and glutamine synthetase (transferase and synthetase assays) were determined for the leaves using the third topmost expanded leaf of the four plants in each pot. The data show that glutamine synthetase (transferase assay) and nitrate reductase activities were efficient in discriminating the S1 endogamic families and could therefore be useful biochemical parameters in breeding programs seeking nitrogen use efficiency.

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