Genome-wide association analysis for heat tolerance of processes of anthesis in rice detected a large set of genes involved in adaptation to thermal stresses

Indica subpanel (I) in red; japonica (J) subpanel in blue; RWC_T0, relative water content before drought treatment; RWC_T1 to RWC_T4, relative water content after 1 to 4 weeks

Although the detected QTLs must be confirmed by other approaches, the number of associations linked to candidate genes involved in calcium-mediated ion homeostasis highlights

This study aimed at (i) heuristically phenotyping the ORYTAGE indica rice diversity panel using RIDEV V2, thereby considering fitted crop parameter values as genotypic traits;

Corrigendum: Crop-model assisted phenomics and genome- wide association study for climate adaptation of indica rice 2.. Published by Oxford University Press on behalf of the

Here, we report application of three GWAS methods to detect QTLs for spikelet fertility under high temperatures during the anthesis process, and for several other phenotypic traits,

DW2040: root mass in the 20 –40 cm segment; DW4060: root mass in the 40 –60 cm segment; DWB60: root mass below 60 cm; FYPP: phytochrome- associated serine/threonine

Rice as other plants, have several strategies to cope with salinity including minimizing the entry of toxic ions through roots, and/or maintaining low Na + /K + ratios at shoot

Heat induces sterility mostly by disrupting pollination and reducing pollen fertility during anthesis sensitive organ located at the top of the canopy and exposed to air