Increasing grain yield is always a priority in wheat breeding. A genome - wide association study (GWAS) was conducted in 3 l ocations across 2 years under two irrigation regimes using 262 photoperiod non - sensitive spring wheat collection to identify quantitative trait loci (QTL) associated with yield and yield components. Significant marker - trait associations (MTAs) were identif ied in the GWAS and validated using 8 nested association mapping (NAMs) created by TriticeaeCAP (TCAP) for traits grain yield (GY), spikelet number per spike (SNS), kernel number per spike (KNS), and kernel weight (KW). After validation, 12 QTL for GY, 12 QTL for SNS, 1 QTL for KNS, and 20 QTL for KW were reported in the present study. Multiple QTL showed consistent high effects across environments without the confounding effects of heading date and plant height. These validated QTL are useful sources for i mproving wheat grain yield under diverse environments
Junli, Z., Shiferaw, G., Eligio, B., Marco, M., Joshua, H., Carter, A.H., et al. (2017). P0862: Genome Mapping, Tagging & Characterization: Wheat, Barley, Oat, and related Identification and Validation of QTL for Yield Components under Contrasting Water Treatments in a Collection of Spring Wheat from North America.
P0862: Genome Mapping, Tagging & Characterization: Wheat, Barley, Oat, and related Identification and Validation of QTL for Yield Components under Contrasting Water Treatments in a Collection of Spring Wheat from North America
Marco Maccaferri;
2017
Abstract
Increasing grain yield is always a priority in wheat breeding. A genome - wide association study (GWAS) was conducted in 3 l ocations across 2 years under two irrigation regimes using 262 photoperiod non - sensitive spring wheat collection to identify quantitative trait loci (QTL) associated with yield and yield components. Significant marker - trait associations (MTAs) were identif ied in the GWAS and validated using 8 nested association mapping (NAMs) created by TriticeaeCAP (TCAP) for traits grain yield (GY), spikelet number per spike (SNS), kernel number per spike (KNS), and kernel weight (KW). After validation, 12 QTL for GY, 12 QTL for SNS, 1 QTL for KNS, and 20 QTL for KW were reported in the present study. Multiple QTL showed consistent high effects across environments without the confounding effects of heading date and plant height. These validated QTL are useful sources for i mproving wheat grain yield under diverse environmentsI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
