Abstract
The branched spike introduced from T. turgidum in common wheat was controlled by two recessive genes (sb1 and sb2). The effect of specific sb on the development and spike characters can be accurately determined by using isogenic lines (NILs), which, however, were not usually available. In this study, four genotypes having different combinations of the two sb genes with a common genetic background cv. Taishan were produced by continuous backcrossing and determined by crossing and test-crossing. The four NILs included one line with branched spike, DR (sb1sb1 sb2sb2), and three lines with normal spike, SR1 (sb1sb1 Sb2Sb2), SR2 (Sb1Sb1 sb2sb2), and DD (Sb1Sb1 Sb2Sb2). These NILs were grown during two growing seasons (2008–2009 and 2009–2010) to investigate the effects of sb genes on agronomic and spike characters. The results showed that SR1 postponed significantly the days to heading and the days to anthesis, and SR2 decreased significantly grain number by reducing the fertile floret in a spike. DR not only displayed the branched spike but also had great effects on agronomic and spike characters. In DR, the days to maturate was significantly postponed, and the number of fertile floret and grain number increased in a spike, but the grain set reduced significantly. This indicated the sb combinations have different effects on the agronomic and spike characters. This research made foundation for analyses of mechanisms of branched spike formation and associated properties in hexaploid wheat in future.
Highlights
The main components of wheat yield are the spike number per unit land area, the number of grains per spike, and the average weight of those grains
The results showed that SR1 postponed significantly the days to heading and the days to anthesis, and SR2 decreased significantly grain number by reducing the fertile floret in a spike
Branched spike wheat lines fen33 was crossed with normal spike wheat cv
Summary
The main components of wheat yield are the spike number per unit land area, the number of grains per spike, and the average weight of those grains. Spikelets are borne on branched rachides and a branched spike might offer more possibility for spikelet than a normal spike. This kind of wheat has potential to increase greatly the productivity of the crop (Koric, 1969; Li et al, 2000). Two types of branched spike have been reported: turgidum (regular) and vavilovii (irregular). The first one is specific for spike of T. turgidum L., and this type of branching was called supernumerary spikelet (Coffman, 1924; Peng et al, 2004; Aliyeva et al, 2011)
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