Hanh Thi Thuy NguyenDuong Thuy DangCuong Van Pham & Pierre Bertin

Linkhttps://doi.org/10.1007/s10681-016-1778-z

Breeding crops for better nitrogen use efficiency (NUE) is one of the primary objectives in modern agriculture to decrease nitrogen (N) fertiliser application. However, genetic information about the components of NUE is still limited. The present study aims to identify quantitative trait loci (QTLs) for agronomical NUE (agNUE) and its two components—absorption NUE (aNUE) and physiological NUE (pNUE)—and related traits. A population including 174 recombinant inbred lines derived from the cross IR64/Azucena was tested twice in hydroponics in the Yoshida solution at the vegetative phase with three different N concentrations: 1X (standard), 1/4X and 1/8X. The different components of NUE and several physiological and agronomical traits were determined after 4 weeks of N treatment. The results were submitted to composite interval mapping (CIM) and to joint QTL analysis for multiple traits. The CIM revealed 14 putative QTLs for NUE components and 63 QTLs for 12 physiological and agronomical traits. Six hotspots containing numerous QTLs were identified. All of them were confirmed through joint QTL analysis. Furthermore, four of them—(1) for aNUE and agNUE on chromosome 3; (2) for aNUE and agNUE on chromosome 8; (3) for both dry weight of stems + sheaths and dry weight of roots on chromosome 3; (4) for plant height on chromosome 1—were found repeatedly in several repetitions in our studies and have been identified also in previous studies. These finding may serve as a basis for further fine-mapping and candidate gene studies, therefore aiding the development of cultivars for sustainable agriculture.

Some picture in the study: