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Plant Light Interception Can Be Explained via Computed Tomography Scanning: Demonstration with Pyramidal Cedar (Thuja occidentalis Fastigiata)

机译：可以通过计算机断层扫描来解释植物光的截获：金字塔形雪松（金钟柏（Thuja occidentalisFastigiata））的演示

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Background and AimsLight interception by the leaf canopy is a key aspect of plant photosynthesis, which helps mitigate the greenhouse effect via atmospheric CO2 recycling. The relationship between plant light interception and leaf area was traditionally modelled with the Beer–Lambert law, until the spatial distribution of leaves was incorporated through the fractal dimension of leafless plant structure photographed from the side allowing maximum appearance of branches and petioles. However, photographs of leafless plants are two-dimensional projections of three-dimensional structures, and sampled plants were cut at the stem base before leaf blades were detached manually, so canopy development could not be followed for individual plants. Therefore, a new measurement and modelling approach were developed to explain plant light interception more completely and precisely, based on appropriate processing of computed tomography (CT) scanning data collected for developing canopies.

机译：背景与目的冠层对光的拦截是植物光合作用的关键方面，它有助于通过大气CO2的循环利用来减轻温室效应。传统上，用比尔-兰伯特定律对植物的光截获与叶面积之间的关系进行建模，直到通过从侧面拍摄的无叶植物结构的分形维数纳入叶的空间分布，从而最大程度地看到树枝和叶柄。但是，无叶植物的照片是三维结构的二维投影，在手动取下叶片之前，已在茎基部切割了已取样的植物，因此无法跟踪单个植物的冠层发育情况。因此，基于收集到的用于发育冠层的计算机断层扫描（CT）扫描数据的适当处理，开发了一种新的测量和建模方法，以更完整，更准确地解释植物光的拦截。

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期刊名称 Annals of Botany
作者
Pierre Dutilleul; Liwen Han; Donald L. Smith;
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年(卷),期 2008(101),1
年度 2008
页码 19–23
总页数 5
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专利

1. Plant Light Interception Can Be Explained via Computed Tomography Scanning: Demonstration with Pyramidal Cedar (Thuja occidentalis, Fastigiata) [J] . Pierre Dutilleul Liwen Han and Donald L. Smith Annals of Botany . 2008,第1期

机译：可以通过计算机断层扫描来解释植物光的截获：金字塔形雪松（金钟柏（Thuja occidentalis，Fastigiata））的演示
2. Light-use efficiency and photosynthetic capacity of northern white-cedar (Thuja occidentalis L.) cuttings originated from layering and seed. [J] . Man RongZhou, Lu PengXin, Parker W. C., Northern Journal of Applied Forestry . 2013,第2期

机译：北方白柏（Thuja occidentalis L.）插条的光利用效率和光合能力源自分层和种子。
3. Development of Northern White-Cedar ( Thuja occidentalis L.) Plantations within and outside Deer Yards [J] . Olivier Villemaire-C?té, Jean-Claude Ruel, Luc Sirois Forests . 2017,第9期

机译：鹿场内外的北部白雪松（金钟柏）人工林的开发
4. Biomonitoring Of Atmospheric Metal Pollution Using Northern White-Cedar (Thuja Occidentalis) Leaves [C] . Levente Levei, Oana Cadar, Eniko Kovacs, International Conference of Processes in Isotopes and Molecules . 2020

机译：使用北方白雪松（Thuja Occidentalis）叶片的大气金属污染生物监逻
5. Arbuscular mycorrhizal fungi of northern white cedar ( Thuja occidentalis L.): Habitat effects on fungal communities and inoculum effects on plant growth on acid peat soils. [D] . Anwar, Guswarni. 2016

机译：北方白柏（金钟柏）的丛枝菌根真菌：生境对酸性泥炭土壤上真菌群落的影响和接种物对植物生长的影响。
6. Higher fine-scale genetic structure in peripheral than in core populations of a long-lived and mixed-mating conifer - eastern white cedar (Thuja occidentalis L.) [O] . Madhav Pandey, Om P Rajora 2012

机译：相比于长寿和交配的针叶树-东部白柏（Thuja occidentalis L.）的核心种群其外围的细尺度遗传结构更高
7. Plant Light Interception Can Be Explained via Computed Tomography Scanning: Demonstration with Pyramidal Cedar (Thuja occidentalis, Fastigiata) [O] . Dutilleul, Pierre, Han, Liwen, Smith, Donald L. 2007

机译：可以通过计算机断层扫描来解释植物光的截获：金字塔形雪松（金钟柏（Thuja occidentalis，Fastigiata））的演示

Plant Light Interception Can Be Explained via Computed Tomography Scanning: Demonstration with Pyramidal Cedar (Thuja occidentalis Fastigiata)

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