欢迎您来到博普特科技官方网站!

土壤仪器电话

010-82794912

品质至上,客户至上,您的满意就是我们的目标

当前位置:  首页 > 新闻动态

科学家利用Plantarray植物功能生理表型测量系统发表蔬菜育种文章

发表时间: 点击:210

来源:北京博普特科技有限公司

分享:

最近,科学家利用Plantarray植物功能生理表型测量系统,发表了题“Leveraging 'golden-hour'WUE for developing uperior vegetable varieties with optimal water-saving and growth traits”的文章,该文提出了一种系统地筛选和利用植物育种中GHW性状的方法,有可能为实现节水和植物生长之间的平衡提供解决方案。

利用“黄金时段”WUE开发具有最佳节水和生长性状的上等蔬菜品种

摘要

创造高产和节水的作物品种依赖于对作物用水和光合生理学的深刻理解。目前,改善作物干旱响应的主流策略集中在气孔的调节上。然而,虽然减少气2024-05-07孔的诱导可以提高水分利用效率 (WUE),但它会导致光合同化能力的下降,因为气孔是 CO2 摄入和水蒸发的共享管道。随着表型组学的进步,最近的研究揭示了植物光合作用和蒸腾作用(Tr)调控模式的差异。根据基因型的不同,清晨,当光照强度充足但蒸气压不足 (VPD) 较低时,被称为高用水效率 (WUE) 的“黄金时段”。在这个窗口期,植物可以在低VPD环境中以较低的Tr水平获得更高的光合作用强度。这对于节水条件下的高效生物质生产非常有利。因此,通过气孔控制对WUE进行精确和更明智的调节对于解决节水和产量之间的微妙平衡至关重要。本文介绍了黄金时WUE(GHW)性状的概念和意义,并阐明了使用现代表型技术对该性状进行定量和高通量筛选的方法。在此基础上,提出了一种系统地筛选和利用植物育种中GHW性状的方法。这种拟议的方法有可能为实现节水和植物生长之间的平衡提供解决方案。 

Leveraging 'golden-hour'WUE for developing uperior vegetable varieties with optimal water-saving and growth traits 

Abstract

Creating high-yielding and water-efficient crop varieties relies on a profound understanding of crop water usage and photosynthetic physiology. Currently, the prevailing strategies for improving drought response in crops center around the regulation of stomata. However, while reducing stomatal onductance can boost water use efficiency (WUE), it results in a decline in photosynthetic assimilation capacity, because stomata function as a shared conduit for both CO2 intake and water evaporation. With the advancement of phenomics, recent research has unveiled disparities in the regulatory patterns of photosynthesis and transpiration (Tr) in plants. Depending on the genotype, the early morning period, when light intensity is sufficient yet vapor pressure deficit (VPD) is low, is referred to as the 'golden hours'for high water use efficiency (WUE). During this window, plants can attain higher photosynthetic intensity with lower Tr levels in a low VPD environment. This is highly advantageous for efficient biomass production under water-saving conditions. Thus, precise and more judicious modulation of WUE through stomatal control becomes pivotal in addressing the delicate balance between water conservation and yield. This perspective paper introduces the concept and significance of the golden-hour WUE (GHW) trait and elucidates the methods for quantitative and high-throughput screening of this trait using modern phenotyping techniques. Building upon this foundation, a systematic approach for screening and leveraging the GHW traits in plant breeding is proposed. This proposed approach holds the potential to offer a solution for achieving a balance between water-saving and plant growth.

1687832420287754.png


创造高产和节水的作物品种依赖于对作物用水和光合生理学的深刻理解。目前,改善作物干旱响应的主流策略集中在气孔的调节上。然而,虽然减少气孔的诱导可以提高水分利用效率 (WUE),但它会导致光合同化能力的下降,因为气孔是 CO2 摄入和水蒸发的共享管道。随着表型组学的进步,最近的研究揭示了植物光合作用和蒸腾作用(Tr)调控模式的差异。根据基因型的不同,清晨,当光照强度充足但蒸气压不足 (VPD) 较低时,被称为高用水效率 (WUE) 的“黄金时段”。在这个窗口期,植物可以在低VPD环境中以较低的Tr水平获得更高的光合作用强度。这对于节水条件下的高效生物质生产非常有利。因此,通过气孔控制对WUE进行精确和更明智的调节对于解决节水和产量之间的微妙平衡至关重要。本文介绍了黄金时WUE(GHW)性状的概念和意义,并阐明了使用现代表型技术对该性状进行定量和高通量筛选的方法。在此基础上,提出了一种系统地筛选和利用植物育种中GHW性状的方法。这种拟议的方法有可能为实现节水和植物生长之间的平衡提供解决方案。

1721030832980582.png

1721030843191326.png

Leveraging 'golden-hour'WUE for developing uperior vegetable varieties with optimal water-saving and growth traits 

Abstract

Creating high-yielding and water-efficient crop varieties relies on a profound understanding of crop water usage and photosynthetic physiology. Currently, the prevailing strategies for improving drought response in crops center around the regulation of stomata. However, while reducing stomatal onductance can boost water use efficiency (WUE), it results in a decline in photosynthetic assimilation capacity, because stomata function as a shared conduit for both CO2 intake and water evaporation. With the advancement of phenomics, recent research has unveiled disparities in the regulatory patterns of photosynthesis and transpiration (Tr) in plants. Depending on the genotype, the early morning period, when light intensity is sufficient yet vapor pressure deficit (VPD) is low, is referred to as the 'golden hours'for high water use efficiency (WUE). During this window, plants can attain higher photosynthetic intensity with lower Tr levels in a low VPD environment. This is highly advantageous for efficient biomass production under water-saving conditions. Thus, precise and more judicious modulation of WUE through stomatal control becomes pivotal in addressing the delicate balance between water conservation and yield. This perspective paper introduces the concept and significance of the golden-hour WUE (GHW) trait and elucidates the methods for quantitative and high-throughput screening of this trait using modern phenotyping techniques. Building upon this foundation, a systematic approach for screening and leveraging the GHW traits in plant breeding is proposed. This proposed approach holds the potential to offer a solution for achieving a balance between water-saving and plant growth.

  • 土壤仪器品牌德国steps
  • 土壤仪器品牌奥地利PESSL
  • 土壤仪器品牌荷兰MACView
  • 土壤仪器品牌德国INNO_Concept
  • 土壤仪器品牌比利时WIWAM
  • 土壤仪器品牌德国GEFOMA
  • 土壤仪器品牌奥地利schaller
  • 土壤仪器品牌荷兰PhenoVation
  • 土壤仪器品牌法国Hi-phen系统
  • 土壤仪器品牌Videometer
  • 土壤仪器品牌比利时INDUCT(OCTINION)
  • 土壤仪器品牌美国EGC
  • 土壤仪器品牌HAIP
  • 土壤仪器品牌植物遗传资源学报