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Report
Genetic diversity for photosynthesis in wheat under heat-stressed environments and its relationship to productivity
(CIMMYT, 1994)
Genetic variation in photosynthetic rate, stomatal conductance, leaf chlorophyll content, and dark respiration was studied in 16 wheat genotypes (Triticum aestivum L.) grown under high-temperature field conditions in central ...
Report
Results of the 1st International Heat Stress Genotype Experiment
(CIMMYT, 1992)
Fischer (1989) summarized the detrimental effects of high temperature on wheat growth as follows: Yield reduction can occur at temperatures above a mean as low as 150C, with the spike and grain growth phases being especially ...
Article
Wheat genomics and breeding: bridging the gap
(CABI, 2021)
Article
Article
Dynamics of floret development determining differences in spike fertility in an elite population of wheat
(Elsevier, 2015)
Further increases in wheat yield potential could be achieved through a better understanding of the dynamics of floret primordia generation/degeneration, a process which has received little attention. We quantified genotypic ...
Article
Genome-wide association study reveals genomic regions controlling root and shoot traits at late growth stages in wheat
(Oxford University Press, 2019)
Article
Article
Stay-green in spring wheat can be determined by spectral reflectance measurements (normalized difference vegetation index) independently from phenology
(Oxford University Press; Society for Experimental Biology, 2012)
The green area displayed by a crop is a good indicator of its photosynthetic capacity, while chlorophyll retention or ?stay-green? is regarded as a key indicator of stress adaptation. Remote-sensing methods were tested to ...
Article
Genetic variation for photosynthetic capacity and efficeincy in spring wheat
(Oxford University Press; Society for Experimental Biology, 2019)
Article
Variation in developmental patterns among elite wheat lines and relationships with yield, yield components and spike fertility
(Elsevier, 2016)
Developmental patterns strongly influence spike fertility and grain number, which are primarily determined during the stem elongation period (i.e. time between terminal spikelet phase and anthesis). It has been proposed ...