栽培
生物
粮食产量
适应(眼睛)
产量(工程)
农学
普通大麦
禾本科
基因-环境相互作用
蒸腾作用
动物科学
基因型
园艺
植物
光合作用
遗传学
基因
材料科学
神经科学
冶金
作者
Pilar Muñoz,Jordi Voltas,J. L. Araus,Ernesto Igartua,I. Romagosa
出处
期刊:Plant Breeding
[Wiley]
日期:1998-12-01
卷期号:117 (6): 531-535
被引量:56
标识
DOI:10.1111/j.1439-0523.1998.tb02202.x
摘要
Abstract The objective of this study was to characterize grain yield and adaptation of barley cultivars released in recent decades in north‐eastern Spain. Ten six‐rowed and 10 two‐rowed barley genotypes were grown in eight environments. Mean yields varied among environments between 1.7 and 5.8 tha −1 . New releases showed higher mean yields and were specifically adapted to nonlimiting growing conditions. The average genetic advances were estimated as 40.7 and 32.9 kg ha −1 years −1 for two‐ and six‐rowed genotypes, respectively, in the four most productive environments. Old genotypes, with lower overall grain yields, were specifically adapted to the poorer sites. A negative genetic gain, estimated as ‐14.8kg ha −1 years −1 . was reorded for six‐rowed culiivars in the four poorest sites. No significant association was observed between heading date and year of release. Variations in carbon isotope discrimination (Δ) were examined to assess whether changes in adaptation could be partially explained by shifts in the genoiypic transpiration efficiency (TE) over time, in the most favourable environments, new releases showed the highest grain yields and carbon isotope discrimination values (Δ). By contrast, older cultivars had constitutively? lower Δs and therefore higher TEs. These results suggest a genetic association between low TE and yield potential and specific adaptation to stress‐free conditions so that selection for yield under favourable conditions could have resulted in an indirect downward genetic shift in the TE of modern cultivars.
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