Genetic Diversity in Nitrogen Fertiliser Responses and N Gas Emission in Modern Wheat

Abstract: Crops assimilate nitrogen (N) as ammonium via the glutamine synthetase/glutamate synthase (GS/GOGAT) pathway which is of central importance for N uptake and potentially represents a bottle neck for N fertiliser-use efficiency. The aim of this study was to assess whether genetic diversity for N-assimilation capacity exists in wheat and could be exploited for breeding. Wheat plants rapidly, within 6 h, responded to N application with an increase in GS activity. This was not accompanied by an increase in GS gene … Show more

“…Both varieties were included in the wheat pangenome sequencing project (Walkowiak et al, 2020 ). Seeds were surface sterilized and pre‐germinated seeds transplanted into fully fertilized potting mix as described by (Oszvald et al, 2022 ). Plants were well‐watered throughout to avoid drought as a confounding variable.…”

Novel molecules and target genes for vegetative heat tolerance in wheat

“…Both varieties were included in the wheat pangenome sequencing project (Walkowiak et al, 2020 ). Seeds were surface sterilized and pre‐germinated seeds transplanted into fully fertilized potting mix as described by (Oszvald et al, 2022 ). Plants were well‐watered throughout to avoid drought as a confounding variable.…”

Novel molecules and target genes for vegetative heat tolerance in wheat

Inhibition mechanism of atrazine on soybean growth insight from the plant nitrogen fixation and rhizobia diversity inhabiting in nodules and rhizosphere soil