Add to ORKGMaize plants can be N-use efficient or N-stress tolerant. The first have high yields in favorable environments but is drastically affected under stress conditions; whereas the second show satisfactory yields in stressful environments but only moderate ones under optimal conditions. In this context, our aim was to assess the possibility of selecting tropical maize lines that are simultaneously N-stress tolerant and N-use efficient and check for differences between simultaneous selection statistical methods. Sixty-four tropical maize lines were evaluated for Nitrogen Agronomic Efficiency (NAE) and Low Nitrogen Tolerance (LNTI) response indices and two per se selection indices, Low Nitrogen Agronomic Efficiency (LNAE) and Harmonic Mean of Rela...
Abstract: The objective of our study was to characterize and determine the patterns of genetic contr...
The objective of our study was to characterize and determine the patterns of genetic control in rela...
Aims: Effect of nitrogen supply and genotypic variation for different traits related to nitrogen use...
Nitrogen (N) limitation in maize crops is related to the fact that the efficiency of nitrogen fertil...
A better understanding of how maize responds to nitrogen (N) supply is required for both economic an...
Improvement in nitrogen-use efficiency (NUE) on maize is among the best strategies to mitigate the p...
n plant breeding programs that aim to obtain cultivars with nitrogen (N) use efficiency, the focus i...
This study aimed to verify the relationship between breeding for tolerance to low levels of soil nut...
Nitrogen (N) is an essential mineral nutrient required for maize (Zea mays L.) development. Increase...
Identifying maize inbred lines that are more efficient in nitrogen (N) use is an important strategy ...
Increasing low nitrogen (N) tolerance in maize is an important goal for food security and agricultur...
The development of adapted cultivars to nitrogen stress conditions is shown as an ecologically susta...
<div><p>Identifying maize inbred lines that are more efficient in nitrogen (N) use is an important s...
Increasing demand, soil cultivation pressure and adverse climate change effects necessitated maize p...
Nitrogen use efficiency (NUE) in maize (Zea mays L.) is an important trait to optimize yield with mi...
Abstract: The objective of our study was to characterize and determine the patterns of genetic contr...
The objective of our study was to characterize and determine the patterns of genetic control in rela...
Aims: Effect of nitrogen supply and genotypic variation for different traits related to nitrogen use...
Nitrogen (N) limitation in maize crops is related to the fact that the efficiency of nitrogen fertil...
A better understanding of how maize responds to nitrogen (N) supply is required for both economic an...
Improvement in nitrogen-use efficiency (NUE) on maize is among the best strategies to mitigate the p...
n plant breeding programs that aim to obtain cultivars with nitrogen (N) use efficiency, the focus i...
This study aimed to verify the relationship between breeding for tolerance to low levels of soil nut...
Nitrogen (N) is an essential mineral nutrient required for maize (Zea mays L.) development. Increase...
Identifying maize inbred lines that are more efficient in nitrogen (N) use is an important strategy ...
Increasing low nitrogen (N) tolerance in maize is an important goal for food security and agricultur...
The development of adapted cultivars to nitrogen stress conditions is shown as an ecologically susta...
<div><p>Identifying maize inbred lines that are more efficient in nitrogen (N) use is an important s...
Increasing demand, soil cultivation pressure and adverse climate change effects necessitated maize p...
Nitrogen use efficiency (NUE) in maize (Zea mays L.) is an important trait to optimize yield with mi...
Abstract: The objective of our study was to characterize and determine the patterns of genetic contr...
The objective of our study was to characterize and determine the patterns of genetic control in rela...
Aims: Effect of nitrogen supply and genotypic variation for different traits related to nitrogen use...
