Simulating light spectrum within a soybean canopy in an LED growth chamber

机译：在LED生长室中模拟豆荚内的光谱

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Knowledge on the effect of light spectra on different crops is important in the exploration of possibilities to regulate crop growth and quality with LED lighting. Functional structural plant modelling can be an important tool to cope with the large number of experimental treatments necessary to identify the effect of specific wavelengths and the interaction with other environmental factors. Therefore, the objectives were to create a virtual environment that can simulate light intensity and spectrum within a soybean canopy grown within an LED growth chamber. Measurements were made at two dates, on two plant sets and at two placements. Simulated light intensities were accurate with a R^{2 between 0.798 and 0.956; mean absolute percentage errors between 5.85 and 35.14 % and simulated change in light spectrum below the canopy changed similar to the measurements. The chosen GPUFlux model in GroIMP can be used for functional structural plant modelling in response to light spectra and intensity and to explore an optimal experimental design within an LED chamber.}

机译：关于光谱对不同作物的影响的知识对于通过LED照明来调节作物生长和质量的可能性的可能性很重要。功能性结构植物建模可以是应对大量实验处理的重要工具，以确定特定波长和与其他环境因素的相互作用所必需的。因此，目的是创建一个虚拟环境，可以模拟在LED生长室内生长的大豆顶层内的光强度和光谱。在两个植物套装和两个展示位置进行测量。模拟光强度用r表示准确^{2 在0.798和0.956之间;平均值在5.85和35.14％之间的绝对百分比误差和下层的光谱的模拟变化类似于测量值。檐叶中所选择的GPUFLUX模型可用于响应光谱和强度的功能结构植物建模，并探索LED室内的最佳实验设计。}

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《IEEE International Symposium on Plant Growth Modeling, Simulation, Visualization and Applications》|2018年|151p|共6页
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Tina Hitz; Michael Henke; Simone Graeff-H?nninger; Sebastian Munz;
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中图分类 TP391.9-53;
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Light emitting diodes; Sea measurements; Wavelength measurement; Agriculture; Optical variables measurement; Measurement uncertainty; Power measurement;

机译：发光二极管;海量;波长测量;农业;光学变量测量;测量不确定性;功率测量;

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1. Three-dimensional simulation of light spectrum and intensity within an LED growth chamber [J] . Hitz Tina, Henke Michael, Graeff-Hoenninger Simone, Computers and Electronics in Agriculture . 2019,第期

机译：LED生长室内光谱和强度的三维模拟
2. Whole-canopy gas exchanges in Coffea sp is affected by supra-optimal temperature and light distribution within the canopy: The insights from an improved multi-chamber system [J] . Rodrigues Weverton Pereira, Machado Filho Jose Altino, da Silva Jefferson Rangel, Scientia horticulturae . 2016,第Null期

机译：冠层内部超最佳温度和光分布会影响Coffea sp中的整个冠层气体交换：改进的多室系统的见解
3. The responses of light interception, photosynthesis and fruit yield of cucumber to LED-lighting within the canopy [J] . Trouwborst Govert, Oosterkamp Joke, Hogewoning Sander W., Physiologia plantarum . 2010,第3期

机译：黄瓜的光截获，光合作用和果实产量对冠层内LED照明的响应
4. Simulating light spectrum within a soybean canopy in an LED growth chamber [C] . Tina Hitz, Michael Henke, Simone Graeff-Hönninger, International Symposium on Plant Growth Modeling, Simulation, Visualization and Applications . 2018

机译：在LED生长室内模拟大豆冠层内的光谱
5. Dynamic modeling of crop productivity on a dual scale: Simulating soybean growth under controlled environments; assessing implications of increased crop yields on a global scale. [D] . Cavazzoni, James Michael. 1997

机译：双重尺度上的作物生产力动态建模：在受控环境下模拟大豆生长；在全球范围内评估作物增产的影响。
6. Quantification of light interception within image-based 3-D reconstruction of sole and intercropped canopies over the entire growth season [O] . Binglin Zhu, Fusang Liu, Ziwen Xie, 2020

机译：在整个生长季度在基于图像的三维唯一的唯一和间作檐篷中的光拦截的量化
7. Endothermy of dynastine scarab beetles (Cyclocephala colasi) associated with pollination biology of a thermogenic arum lily (Philodendron solimoesense) : Cyclocephala colasi beetles are facultative endotherms that spend most of their adult lives inside the inflorescences of Philodendron solimoesense, where ambient temperature (Ta) averages about 28°C due to floral thermogenesis. Measurements of respiration within a range of Ta showed that active beetles became spontaneously endothermic at Ta below 28°C but were rarely endothermic above it. There was no evidence of endothermy within the inflorescences, indicating that activities in the floral chamber can occur without the high energy expense of endothermy. Bouts of endothermy occurred at lower Ta in respirometer chambers mainly in the evening, when the insects normally fly from one inflorescence to another, and during the night, when they normally eat and mate within the inflorescence. Patterns of endothermy in individual episodes were studied in non-flying beetles with respirometry and infrared thermal imaging. Heat was generated in the thorax by oscillatory waves of respiration that were coupled with thoracic temperature (Tth) increases. Stationary beetles could regulate Tth at about 33°C independently of Ta between 16 and 29°C. At Ta20°C, this represents a 116-fold increase in metabolic rate over resting, ectothermic values. Endothermy was clearly a requirement for flight, and beetles departing inflorescences warmed to about 30°C before take-off. During flight, Tth was dependent on Ta, decreasing from 37 to 28°C at Ta of 37 to 20°C, respectively. The lowest Ta at which flight could occur was about 20°C. Thermal conductance of stationary, endothermic beetles increased at higher metabolic rates, probably because of increased ventilatory heat loss. [O] . Seymour, R.S., White, C.R., Gibernau, Marc 2009

机译：与产热香芋百合（Philodendron solimoesense）授粉生物学相关的动态圣甲虫（Cyclocephala colasi）吸热：Cyclocephala colasi甲虫是兼性吸热体，它们大部分成年生活都在Philodendron solimoesense的花序中，其平均温度（Ta）由于花的生热作用，温度约为28°C。在Ta范围内的呼吸测量表明，活跃的甲虫在Ta低于28°C时会自发吸热，而在Ta高于28°C时很少吸热。在花序中没有吸热的迹象，表明花室中的活动可以在没有高的吸热能量消耗的情况下发生。吸热的爆发主要发生在晚上，当昆虫通常从一个花序飞到另一个花序时，以及在晚上，它们通常在花序中进食并交配时，在呼吸计室的较低Ta处发生。在非飞行甲虫中通过呼吸测定法和红外热成像研究了单个发作中的吸热模式。伴随着胸温（Tth）升高的呼吸振荡波在胸腔中产生热量。固定甲虫可以在约33°C的温度下调节Tth，而与Ta在16至29°C之间的温度无关。在Ta20°C下，这表示其代谢速率比静止的，等温的升高116倍。吸热显然是飞行的要求，离开花序的甲虫在起飞前会升温到约30°C。在飞行过程中，Tth取决于Ta，在Ta从37降至20°C时，Tth分别从37°C降至28°C。可能发生飞行的最低Ta约为20°C。固定的，吸热的甲虫的热导率以较高的代谢率增加，这可能是由于通风热损失增加所致。

Simulating light spectrum within a soybean canopy in an LED growth chamber

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