Genetic improvement of grain yield and associated traits in the southern China winter wheat region: 1949 to 2000

Zhou, Yang; Zhu, Huasheng; Cai, Sheng; He, Zhonghu; Zhang, X. K.; Xia, X. C.; Zhang, G. S.

doi:10.1007/s10681-007-9376-8

Cited by 70 publications

(63 citation statements)

References 20 publications

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“…However, any further reductions in plant height will limit aboveground biomass. We found no significant increase in aboveground biomass at maturity with year of release, which is consistent with other studies [17,27,43]. In future, higher yields will require breeder commitment to increasing aboveground biomass [28], which can be supported by increasing the resistance of different internodes to lodging without reducing plant height.…”

Section: Plant Height and Internode Lengthsupporting

confidence: 91%

“…Yields of winter wheat in the western Yellow and Huai Valley increased by 3.95g m −2 yr −1 from 1948 to 2012, more than that in Nanjing (14 kg ha −1 yr −1 ), similar to that in Chengdu (41 kg ha −1 yr −1 ) in southern China [27], and less than the 60 kg ha −1 yr −1 in the northern wheat region of China [20], 62 kg ha −1 yr −1 in Shandong Province [22], 57.5 kg ha −1 yr −1 in the southern Yellow and Huai Valley [28], and 51.30 and 70 kg ha −1 yr −1 reported in Henan Province [18,29,30]. Some researchers believe that increases in yield are directly related to TGW or grain number per spike [18,31,32]; this study found that TGW contributed more to yield increases than GN (Table 3).…”

Section: Evolution Of Yield and Yield-related Traitsmentioning

confidence: 81%

Section: Evolution Of Yield and Yield-related Traitsmentioning

confidence: 89%

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Contribution of Proximal and Distal Grains Within Spikelets in Relation to Yield and Yield Components in the Winter Wheat Production Region of China From 1948 to 2012

et al. 2019

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Grain number and weight within a spikelet are major yield components which determine the grain yield in wheat. The objective of this study was to explore genetic gains in grain performance within wheat spikelets at the individual grain level and its effect on grain yield and evaluate genetic progress in stem internode length and other yield-related traits. We conducted field experiments across three growing seasons in the western Yellow and Huai Valley of China; incorporating 17 bread wheat cultivars released from 1948 to 2012. Yields were significantly correlated with year of release. Yield gains equated to 3.95 g m−2 yr−1 in response to increases in total grain weight per m2 (GW) in proximal (G1 and G2) and distal (G3 and G4) grains, despite a decline in the proportional contribution of proximal grains to yield and increase in the proportional contribution of distal grains to yield with year of release. Grain number per m2 (GN), thousand-grain weight (TGW), and harvest index (HI) increased with year of release, but plant height decreased. Both grain number per spikelet of proximal and distal grain contributed to the increase in total GN. However, the contribution ratio of GN in proximal grains to total GN declined, and the proportion in distal grains increased. Average single grain weight (SGW) increased linearly at G1, G2, G3, and G4 with year of release and contributed to the increase in TGW. The G3 and G4 grain positions had much lower individual grain weights but increased at a faster rate than G1 and G2. At G1, G2, and G3 grain positions, from bottom to top spikelets, the newly released cultivars had the heaviest grains and the old cultivars had the lightest grains. New cultivars had more spikelets than old cultivars and the number of grains (proximal and distal grains) in the apical spike increased with year of release. The length of five internodes decreased significantly with year of release, more so in the upper than lower internodes, all of which contributed to the decline in plant height. In summary, increasing the number and weight of distal grains could increase grain yield, TGW, and GN.

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Section: Plant Height and Internode Lengthsupporting

confidence: 91%

Section: Evolution Of Yield and Yield-related Traitsmentioning

confidence: 81%

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Contribution of Proximal and Distal Grains Within Spikelets in Relation to Yield and Yield Components in the Winter Wheat Production Region of China From 1948 to 2012

et al. 2019

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“…Various researchers have reported genetic progress in yield potential and agronomic and physiological characteristics of wheat cultivars in diff erent regions (Waddington et al, 1986;Hucl and Baker, 1987;Slafer and Andrade, 1989;Calderini et al, 1995;Sayre et al, 1997;Ortiz-Monasterio et al, 1997;Brancourt-Hulmel et al, 2003;Shearman et al, 2005;Zhou et al 2007aZhou et al , 2007bGraybosch and Peterson, 2010). Mean annual genetic gains for spring wheat ranged from 0.5% during 1982 to 1985 in Canada (Hucl and Baker, 1987) to 1.5% during 1950 to 1982 in Mexico (Waddington et al, 1986).…”

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confidence: 99%

Genetic Gains in Grain Yield and Physiological Traits of Winter Wheat in Shandong Province, China, from 1969 to 2006

et al. 2012

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Knowledge on the changes in yield potential and associated physiological traits is essential for understanding the main yield‐limiting factors and guiding future breeding strategies. Our objective was to identify physiological traits associated with genetic gains in grain yield of winter wheat (Triticum aestivum L.) in Shandong province, China. Thirteen milestone cultivars and two advanced lines released from 1969 to 2006 were examined over 3 yr at Tai'an during 2006 to 2009. The genetic gain in grain yield was 62 kg ha−1 yr−1, largely associated with increased kernels per square meter, biomass, and harvest index (HI) and reduced plant height. Significant genetic changes were also observed especially for apparent leaf area index (LAI) at heading and anthesis, chlorophyll content (Chl) at anthesis, photosynthesis rate during grain filling, and stem water‐soluble carbohydrate (WSC) content at anthesis. Comparing genotypes having Rht‐D1b and others with both Rht‐D1b and Rht8c (Rht‐D1b+Rht8c) showed increased grain yield, thousand kernel weight, kernels per spike, kernel weight per spike, HI, canopy temperature depression, and Chl at anthesis and LAI at heading with the latter but no difference in height. The results suggested that genetic gains in grain yield in Shandong province were mainly contributed by increases in kernels per square meter and biomass, which were achieved through improving crop photosynthesis at and after heading, and the source for grain filling may have benefited from increased WSC in stems at anthesis.

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“…It is common to present the gain per year as a percentage of the mean yield for the crop under study. In this way, most rates of progress correspond to less than 1% (e.g., Zhou et al, 2007a). Peng et al (2000) evaluated the genetic gain for irrigated rice, based on 12 rice cultivars developed at the International Rice Research Institute (IRRI), in the period of 1966 to 1995, resulting in a genetic gain of 75 to 81 kg ha −1 yr −1 , corresponding to 1% per year.…”

mentioning

confidence: 99%

Results of 25 Years of Upland Rice Breeding in Brazil

et al. 2011

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The objective of this study was to estimate the results ofthe upland rice {Oryza sativa L.) breeding program conducted by the Brazilian Agricultural Research Corporation (Embrapa) and collaborators over the period of 1984 to 2009 covering 25 annual steps of improvement. The best lines generated by this program are evaluated in "value for cultivation and use (VCU) trials." This study used data from 603 VCU trials conducted in seven Brazilian States. The group of lines entering VCU in each year was faken as a sample of the elife program in that year. Best linear unbiased estimates (BLUEs) of the means of groups were computed, and the regression of the BLUEs on years was taken as an estimate of the efficiency of the breeding program.

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Genetic improvement of grain yield and associated traits in the southern China winter wheat region: 1949 to 2000

Cited by 70 publications

References 20 publications

Contribution of Proximal and Distal Grains Within Spikelets in Relation to Yield and Yield Components in the Winter Wheat Production Region of China From 1948 to 2012

Contribution of Proximal and Distal Grains Within Spikelets in Relation to Yield and Yield Components in the Winter Wheat Production Region of China From 1948 to 2012

Genetic Gains in Grain Yield and Physiological Traits of Winter Wheat in Shandong Province, China, from 1969 to 2006

Results of 25 Years of Upland Rice Breeding in Brazil

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