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本文引用的文献

1
Integrated responses of rosette organogenesis, morphogenesis and architecture to reduced incident light in Arabidopsis thaliana results in higher efficiency of light interception.拟南芥莲座叶器官发生、形态建成和结构对入射光减少的综合响应导致更高的光截获效率。
Funct Plant Biol. 2006 Jan;32(12):1123-1134. doi: 10.1071/FP05091.
2
A three-dimensional crown architecture model for assessment of light capture and carbon gain by understory plants.一种用于评估林下植物光捕获和碳增益的三维树冠结构模型。
Oecologia. 1996 Oct;108(1):1-12. doi: 10.1007/BF00333208.
3
Using virtual plants to analyse the light-foraging efficiency of a low-density cotton crop.利用虚拟植物分析低密度棉花作物的采光效率。
Ann Bot. 2008 May;101(8):1153-66. doi: 10.1093/aob/mcm316. Epub 2008 Jan 8.
4
AmapSim: a structural whole-plant simulator based on botanical knowledge and designed to host external functional models.AmapSim:一种基于植物学知识构建的全株结构模拟器,旨在承载外部功能模型。
Ann Bot. 2008 May;101(8):1125-38. doi: 10.1093/aob/mcm194. Epub 2007 Aug 31.
5
Simulations of virtual plants reveal a role for SERRATE in the response of leaf development to light in Arabidopsis thaliana.虚拟植物模拟揭示了锯齿蛋白在拟南芥叶片发育对光的响应中的作用。
New Phytol. 2007;175(3):472-481. doi: 10.1111/j.1469-8137.2007.02123.x.
6
Quantitative analysis of the phenotypic variability of shoot architecture in two grapevine (Vitis vinifera) cultivars.两个葡萄(欧亚种葡萄)品种茎尖结构表型变异性的定量分析。
Ann Bot. 2007 Mar;99(3):425-37. doi: 10.1093/aob/mcl276. Epub 2007 Jan 4.
7
Evaluating a three dimensional model of diffuse photosynthetically active radiation in maize canopies.评估玉米冠层中漫射光合有效辐射的三维模型。
Int J Biometeorol. 2006 Jul;50(6):349-57. doi: 10.1007/s00484-006-0032-0. Epub 2006 May 9.
8
Soluble sugars mediate sink feedback down-regulation of leaf photosynthesis in field-grown Coffea arabica.可溶性糖介导田间种植的阿拉伯咖啡叶片光合作用的库反馈下调。
Tree Physiol. 2006 Apr;26(4):517-25. doi: 10.1093/treephys/26.4.517.
9
Using L-systems for modeling source-sink interactions, architecture and physiology of growing trees: the L-PEACH model.使用L系统对生长树木的源库相互作用、结构和生理进行建模:L-PEACH模型。
New Phytol. 2005 Jun;166(3):869-80. doi: 10.1111/j.1469-8137.2005.01348.x.
10
Towards a generic architectural model of tillering in Gramineae, as exemplified by spring wheat (Triticum aestivum).以春小麦(Triticum aestivum)为例,构建禾本科植物分蘖的通用架构模型。
New Phytol. 2005 Jun;166(3):801-12. doi: 10.1111/j.1469-8137.2005.01337.x.

利用三维虚拟向日葵在器官、植株和小区水平模拟光捕获:器官截留的贡献、向日性的影响及基因型差异分析

Using a 3-D virtual sunflower to simulate light capture at organ, plant and plot levels: contribution of organ interception, impact of heliotropism and analysis of genotypic differences.

作者信息

Rey Hervé, Dauzat Jean, Chenu Karine, Barczi Jean-François, Dosio Guillermo A A, Lecoeur Jérémie

机构信息

CIRAD, UMR AMAP (botAnique et bioinforMatique de l'Architecture des Plantes), Montpellier, F-34398, France.

出版信息

Ann Bot. 2008 May;101(8):1139-51. doi: 10.1093/aob/mcm300. Epub 2008 Jan 24.

DOI:10.1093/aob/mcm300
PMID:18218705
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2710280/
Abstract

BACKGROUND AND AIMS

Light interception is a critical factor in the production of biomass. The study presented here describes a method used to take account of architectural changes over time in sunflower and to estimate absorbed light at the organ level.

METHODS

The amount of photosynthetically active radiation absorbed by a plant is estimated on a daily or hourly basis through precise characterization of the light environment and three-dimensional virtual plants built using AMAP software. Several treatments are performed over four experiments and on two genotypes to test the model, quantify the contribution of different organs to light interception and evaluate the impact of heliotropism.

KEY RESULTS

This approach is used to simulate the amount of light absorbed at organ and plant scales from crop emergence to maturity. Blades and capitula were the major contributors to light interception, whereas that by petioles and stem was negligible. Light regimen simulations showed that heliotropism decreased the cumulated light intercepted at the plant scale by close to 2.2% over one day.

CONCLUSIONS

The approach is useful in characterizing the light environment of organs and the whole plant, especially for studies on heterogeneous canopies or for quantifying genotypic or environmental impacts on plant architecture, where conventional approaches are ineffective. This model paves the way to analyses of genotype-environment interactions and could help establish new selection criteria based on architectural improvement, enhancing plant light interception.

摘要

背景与目的

光截获是生物量生产的关键因素。本文介绍的研究描述了一种用于考虑向日葵随时间的结构变化并在器官水平上估算吸收光的方法。

方法

通过对光环境的精确表征以及使用AMAP软件构建的三维虚拟植物,每日或每小时估算植物吸收的光合有效辐射量。在四个实验中对两种基因型进行了几种处理,以测试该模型、量化不同器官对光截获的贡献并评估向日性的影响。

主要结果

该方法用于模拟从作物出苗到成熟期间器官和植物尺度上吸收的光量。叶片和花盘是光截获的主要贡献者,而叶柄和茎的贡献可忽略不计。光照模拟表明,向日性使植物尺度上一天内累积截获的光减少了近2.2%。

结论

该方法有助于表征器官和整株植物的光环境,特别是对于非均匀冠层的研究或量化基因型或环境对植物结构的影响,而传统方法在此方面无效。该模型为分析基因型-环境相互作用铺平了道路,并有助于基于结构改良建立新的选择标准,增强植物的光截获能力。