用于研究葡萄园水分胁迫代谢成分的综合田间尺度表型分析

Integrative field scale phenotyping for investigating metabolic components of water stress within a vineyard.

作者信息

Gago Jorge, Fernie Alisdair R, Nikoloski Zoran, Tohge Takayuki, Martorell Sebastiá, Escalona José Mariano, Ribas-Carbó Miquel, Flexas Jaume, Medrano Hipólito

机构信息

Research Group on Plant Biology under Mediterranean Conditions, Universitat de les Illes Balears, cta. de Valldemossa Km 7.5, 07122 Palma de Mallorca, Illes Balears, Spain.

Max-Planck-Institut für Molekulare Pflanzenphysiologie, 14476 Potsdam-Golm, Germany.

出版信息

Plant Methods. 2017 Oct 30;13:90. doi: 10.1186/s13007-017-0241-z. eCollection 2017.

DOI:10.1186/s13007-017-0241-z

PMID:29093742

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5663058/

Abstract

BACKGROUND

There is currently a high requirement for field phenotyping methodologies/technologies to determine quantitative traits related to crop yield and plant stress responses under field conditions.

METHODS

We employed an unmanned aerial vehicle equipped with a thermal camera as a high-throughput phenotyping platform to obtain canopy level data of the vines under three irrigation treatments. High-resolution imagery (< 2.5 cm/pixel) was employed to estimate the canopy conductance ( ) via the leaf energy balance model. In parallel, physiological stress measurements at leaf and stem level as well as leaf sampling for primary and secondary metabolome analysis were performed.

RESULTS

Aerial correlated significantly with leaf stomatal conductance ( ) and stem sap flow, benchmarking the quality of our remote sensing technique. Metabolome profiles were subsequently linked with and via partial least square modelling. By this approach malate and flavonols, which have previously been implicated to play a role in stomatal function under controlled greenhouse conditions within model species, were demonstrated to also be relevant in field conditions.

CONCLUSIONS

We propose an integrative methodology combining metabolomics, organ-level physiology and UAV-based remote sensing of the whole canopy responses to water stress within a vineyard. Finally, we discuss the general utility of this integrative methodology for broad field phenotyping.

摘要

背景

目前对于田间表型分析方法/技术的要求很高，以便在田间条件下确定与作物产量和植物胁迫反应相关的数量性状。

方法

我们使用配备热成像相机的无人机作为高通量表型分析平台，以获取三种灌溉处理下葡萄藤的冠层水平数据。利用高分辨率图像（<2.5厘米/像素）通过叶片能量平衡模型估算冠层导度（）。同时，进行了叶片和茎水平的生理胁迫测量以及用于初级和次级代谢组分析的叶片采样。

结果

空中冠层导度与叶片气孔导度（）和茎干液流显著相关，这验证了我们遥感技术的质量。随后通过偏最小二乘建模将代谢组谱与冠层导度和气孔导度联系起来。通过这种方法，已证明在模式物种的受控温室条件下，苹果酸和黄酮醇在气孔功能中起作用，在田间条件下也具有相关性。

结论

我们提出了一种综合方法，将代谢组学、器官水平生理学和基于无人机的整个葡萄园对水分胁迫的冠层反应遥感相结合。最后，我们讨论了这种综合方法在广泛田间表型分析中的一般实用性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87ba/5663058/21754a60d83f/13007_2017_241_Fig1_HTML.jpg

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用于研究葡萄园水分胁迫代谢成分的综合田间尺度表型分析

Integrative field scale phenotyping for investigating metabolic components of water stress within a vineyard.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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