Effect of Ear Removal on CO2 Exchange and Activities of Ribulose Bisphosphate Carboxylase/Oxygenase and Phosphoenolpyruvate Carboxylase of Maize Hybrids and Inbred Lines 1

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The effects of ear removal on gas exchange traits, chlorophyll, and leaf N profiles, and activities of ribulose 1,5-bisphosphate carboxylase/oxygenase and phosphoenolpyruvate carboxylase were examined using four maize hybrids (B73 × Mo17, B73 × LH38, FS854, and CB59G × LH38) and four inbred lines (B73, Mo17, LH38, and CB59G) as experimental material. A diverse genotypic response to ear removal was observed which was generally typified by (a) greatly accelerated loss of chlorophyll, leaf N, enzyme activities, and CO2 exchange relative to controls for B73, B73 × Mo17, and B73 × LH38, (b) intermediate rate of decline for leaf constituents for FS854, LH38, and Mo17, or (c) loss of leaf constituents at similar or slower rates than for control plants for CB59G and CB59G × LH38. For all genotypes which had accelerated senescence relative to controls, loss of CO2 exchange activity was correlated with increased internal CO2 concentrations. Thus, it was concluded that metabolic factors and not stomatal effects were responsible for loss of CO2 exchange activity. Loss of chlorophyll, leaf N, and enzyme activities correlated well with loss of CO2 exchange activity only for some of the genotypes. Accelerated leaf senescence in response to ear removal for the inbred line B73 and the hybrids B73 × Mo17 and B73 × LH38, as well as the apparent delayed leaf senescence for the inbred line CB59G and the hybrid CB59G × LH38 show that the contrasting responses to ear removal, rapid versus delayed senescence, can be transmitted as dominant traits to F1 hybrids. The intermediate response by some genotypes, and the dominance of contrasting senescence traits, suggested a relatively complex inheritance for expression of the ear removal response.

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