A new simple canopy photosynthesis measurement system

2017 XIII International Engineering Congress (CONIIN) Pub Date : 2017-05-01 DOI:10.1109/CONIIN.2017.7968182

Jhonam Arellano-Beltrán, E. Rico-García, César Iván Hernández-Pérez

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引用次数: 1

Abstract

Over the year's new techniques have been developed to measure the photosynthetic rate of plants in order to predict yields in crops or to establish strategies for the production and use of energy inputs such as supplemental light and carbon dioxide mainly. In recent years' techniques, have been developed that measure photosynthetic activity in plants at the level of a single leaf or even the entire plant, the latter being the technique that best fits the actual behavior of plants. The objective of this study is to propose a low-cost technique to measure photosynthesis in complete plants. This is done through the coupling of two techniques already developed: one is the measurement of the canopy CO2 exchange rates (CCER) and the other is the measurement of leaf surface using digital photographs. As a result, a CO2 monitoring chamber with polycarbonate panels was obtained in which the CO2 uptake of a tomato plant was measured, also it was possible to measure the leaf surface. Finally, using this system with tomato plants, we observed that at a temperature of 18 °C inside the chamber, the photosynthetic rate is higher than at 28 °C and 38 °C.

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一种新的简单冠层光合作用测量系统

在过去的一年中，已经开发了新的技术来测量植物的光合速率，以便预测作物的产量或制定生产和使用能源投入的战略，例如补充光和主要是二氧化碳。近年来，人们开发了一些技术，可以在单叶甚至整个植物的水平上测量植物的光合作用活动，后者是最适合植物实际行为的技术。本研究的目的是提出一种低成本的技术来测量完整植物的光合作用。这是通过结合两种已经发展起来的技术来完成的:一种是测量冠层二氧化碳交换率(CCER)，另一种是使用数码照片测量叶片表面。因此，获得了一个带有聚碳酸酯面板的二氧化碳监测室，在该室中可以测量番茄植株的二氧化碳吸收量，也可以测量叶片表面。最后，将该系统应用于番茄植株，我们观察到，在室内温度为18℃时，光合速率高于28℃和38℃时。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 XIII International Engineering Congress (CONIIN)

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