Lisa Kissing Kucek, Katherine Muller, Lais Bastos Martins, Virginia M. Moore, Chris Reberg-Horton, Steven B. Mirsky, John Englert, Laurie E. Drinkwater, Joel Douglas, Sarah S. Eagen, Twain Butler, Matthew R. Ryan, Allen Casey, Kerry Clark, Nancy Ehlke, John Hendrickson, John Guretzky, Holly Johnson, David Archer, Rebecca J. McGee, Shahjahan Ali, Amy Bartow, Valerie Bullard, Allen N. Burke, Richard Barrett, Christopher Bernau, Brandon Carr, Ryan Crawford, Kimberly Griffin, Esleyther Henriquez Inoa, Heidi Hillhouse, Mathew Humphrey, Margaret Smither-Kopperl, Sarah Krogman, Steven Lee, Annie Marion, Nicholas McGhee, Ian Silvernail, Prasanna Thevar, Sandra Wayman, Nick P. Wiering, Dustin Wiggans, Heathcliffe Riday
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引用次数: 0
Abstract
Among 50 environments in the United States, we screened 35 hairy vetch (Vicia villosa Roth.) lines for traits of interest to cover cropping. We analyzed the influence of genotype, environment, and the genotype-by-environment interaction (G × E) on biomass, vigor, winter survival, emergence, flowering time, and nitrogen fixation. To explore how environments and G × E impacted each trait, we associated environment predictions and G × E loadings with weather and soil parameters. Environment had the largest influence on all traits, representing more than half of the variance. Environment predictions were significantly associated with weather and/or soil parameters for each trait. Biomass was associated with growing degree days, winter survival with freezing degree days without snow cover, growth stage with shortwave radiation, and emergence with soil texture. The G × E interaction was larger than genotypic variance for all traits except for winter survival and flowering time. The G × E interaction loadings were associated with soil sand content for biomass, air temperature for fall vigor and emergence, and snow cover for winter survival. Although it represented the smallest proportion of total variance, genetic effects were significant for all traits except for emergence, Ndfa, %N, and C:N. New hairy vetch breeding lines were superior to all commercially available lines for biomass and winter survival. Biomass harvest timing did not significantly change line rank, indicating that top-performing lines can be used in diverse management systems. To select for high nitrogen contribution to subsequent crops, breeding programs can indirectly select for biomass rather than expensively evaluating symbiotic nitrogen fixation.
在美国的 50 个环境中,我们筛选了 35 个毛茸茸矢车菊(Vicia villosa Roth.)我们分析了基因型、环境以及基因型与环境交互作用(G × E)对生物量、活力、冬季存活率、出苗率、开花时间和固氮作用的影响。为了探索环境和 G × E 如何影响每个性状,我们将环境预测和 G × E 负载与天气和土壤参数联系起来。环境对所有性状的影响最大,占方差的一半以上。环境预测与每个性状的天气和/或土壤参数都有明显关联。生物量与生长度日相关,冬季存活率与无雪覆盖冰冻度日相关,生长阶段与短波辐射相关,出苗与土壤质地相关。除冬季存活率和开花时间外,所有性状的 G × E 交互作用均大于基因型变异。在生物量方面,G × E 交互作用载荷与土壤含沙量有关;在秋季活力和出苗方面,G × E 交互作用载荷与气温有关;在冬季存活率方面,G × E 交互作用载荷与积雪覆盖有关。虽然遗传效应在总变异中所占比例最小,但除出苗率、Ndfa、%N 和 C:N 外,遗传效应对所有性状都有显著影响。在生物量和冬季存活率方面,新的毛绒草育种品系优于所有市售品系。生物量收获时间对品系等级的影响不大,这表明表现优异的品系可用于不同的管理系统。为了选择对后续作物有高氮贡献的品系,育种计划可以间接选择生物量,而不是昂贵地评估共生固氮作用。
期刊介绍:
Articles in Crop Science are of interest to researchers, policy makers, educators, and practitioners. The scope of articles in Crop Science includes crop breeding and genetics; crop physiology and metabolism; crop ecology, production, and management; seed physiology, production, and technology; turfgrass science; forage and grazing land ecology and management; genomics, molecular genetics, and biotechnology; germplasm collections and their use; and biomedical, health beneficial, and nutritionally enhanced plants. Crop Science publishes thematic collections of articles across its scope and includes topical Review and Interpretation, and Perspectives articles.