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Does the Structure–Function Model GREENLAB Deal with Crop Phenotypic Plasticity Induced by Plant Spacing? A Case Study on Tomato

机译：结构功能模型GREENLAB是否处理了植物间隔诱导的作物表型可塑性？番茄案例研究

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Background and AimsPlant growth models able to simulate phenotypic plasticity are increasingly required because (1) they should enable better predictions of the observed variations in crop production, yield and quality, and (2) their parameters are expected to have a more robust genetic basis, with possible implications for selection of quantitative traits such as growth- and allocation-related processes. The structure–function plant model, GREENLAB, simulates resource-dependent plasticity of plant architecture. Evidence for its generality has been previously reported, but always for plants grown in a limited range of environments. This paper aims to test the model concept to its limits by using plant spacing as a means to generate a gradient of competition for light, and by using a new crop species, tomato, known to exhibit a strong photomorphogenetic response.

机译：背景和目标植物越来越需要能够模拟表型可塑性的植物生长模型，因为（1）它们应该能够更好地预测观察到的农作物产量，产量和质量变化，并且（2）它们的参数有望具有更强大的遗传基础，对定量特征选择的潜在影响，例如与增长和分配相关的过程。具有结构功能的工厂模型GREENLAB模拟了依赖资源的工厂架构的可塑性。先前已经报道了其普遍性的证据，但总是针对在有限环境范围内生长的植物。本文旨在通过使用植物间距作为产生光竞争梯度的方法，并使用已知表现出很强的光形态发生响应的新农作物物种番茄来测试模型概念的极限。

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期刊名称 Annals of Botany
作者
Qiaoxue Dong; Gaëtan Louarn; Yiming Wang; Jean-Francois Barczi; Philippe de Reffye;
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年(卷),期 2008(101),8
年度 2008
页码 1195–1206
总页数 12
原文格式 PDF
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1. Does the structure-function model GREENLAB deal with crop phenotypic plasticity induced by plant spacing? A case study on tomato. [J] . Dong QiaoXue, Louarn G., Wang YiMing, Annals of Botany . 2008,第8期

机译：结构函数模型GREENLAB是否处理由植物间距引起的作物表型可塑性？以番茄为例。
2. Does the Structure–Function Model GREENLAB Deal with Crop Phenotypic Plasticity Induced by Plant Spacing? A Case Study on Tomato [J] . Qiaoxue Dong1? Ga?tan Louarn12? Yiming Wang1 Jean-Francois Barczi3 and Philippe de Reffye34 Annals of Botany . 2008,第8期

机译：结构功能模型GREENLAB是否处理了植物间隔诱导的作物表型可塑性？番茄案例研究
3. Inducible phenotypic plasticity in plants regulates aquatic ecosystem functioning [J] . Jackrel Sara L., Morton Timothy C. Oecologia . 2018,第4期

机译：植物中的诱导表型可塑性调节水生生态系统功能
4. Use of a structure-function plant model to assess the morphogenetic plasticity. How does variation in phyllochron modify plant growth and development of Brassica napus in the GreenLab model? [C] . Jullien Alexandra, Mathieu Amelie, Ney Bertrand, Plant Growth Modeling, Simulation, Visualization and Applications . 2012

机译：使用结构功能植物模型评估形态发生可塑性。在GreenLab模型中，叶同步发生的变化如何改变甘蓝型油菜的植物生长和发育？
5. Integrating Plant Functional Traits, Genetics, Phenotypic Plasticity, and Community Structure to Assess the Impact of Climate Change on Native Plants in the Southwestern U.S [D] . Cooper, Hillary Florence. 2018

机译：整合植物功能性状，遗传学，表型可塑性和群落结构，以评估气候变化对美国西南部本土植物的影响
6. Plant Stress Responses and Phenotypic Plasticity in the Epigenomics Era: Perspectives on the Grapevine Scenario a Model for Perennial Crop Plants [O] . Ana M. Fortes, Philippe Gallusci -1

机译：表观基因组学时代的植物胁迫响应和表型可塑性：葡萄场景多年生作物模型的观点。
7. Does the Structure–Function Model GREENLAB Deal with Crop Phenotypic Plasticity Induced by Plant Spacing? A Case Study on Tomato [O] . Dong, Qiaoxue, Louarn, Gaëtan, Wang, Yiming, 2007

机译：结构功能模型GREENLAB是否处理了植物间隔诱导的作物表型可塑性？番茄案例研究
8. Improvement of Root and Tuber Crops by Induced Mutations. Conclusions and Recommendations of the First and Second Research CO-Ordination Meetings of the FAO/IAEA CO-Ordinated Research Programme on Improvement of Root and Tuber Crops and Similar Vegetatively Propagated Crop Plants in Tropical Countries by Induced Mutations Held in Pattaya, Thailand, 17-21 December 1984 and in Vienna, 2-6 June 1986 [R] . 1987

机译：诱导突变对块根和块茎作物的改良。粮农组织/国际原子能机构合作研究计划第一次和第二次研究协调会议的结论和建议通过诱发突变改善热带国家的根和块茎作物和类似的营养繁殖作物在泰国芭堤雅举行，17- 1984年12月21日和1986年6月2日至6日在维也纳

Does the Structure–Function Model GREENLAB Deal with Crop Phenotypic Plasticity Induced by Plant Spacing? A Case Study on Tomato

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