Computer Reconstruction of Plant Growth and Chlorophyll Fluorescence Emission in Three Spatial Dimensions

Plant leaves grow and change their orientation as well their emission of chlorophyll fluorescence in time. All these dynamic plant properties can be semi-automatically monitored by a 3D imaging system that generates plant models by the method of coded light illumination, fluorescence imaging and com...

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Main Authors: Ladislav Nedbal, David Šebela, Chandra Bellasio, Radek Tesař, Julie Olejníčková
Format: Article
Language:English
Published: MDPI AG 2012-01-01
Series:Sensors
Subjects:
Online Access:http://www.mdpi.com/1424-8220/12/1/1052/
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spelling doaj-c91c39dbcda94bd789fd130901ef51322020-11-24T21:15:33ZengMDPI AGSensors1424-82202012-01-011211052107110.3390/s120101052Computer Reconstruction of Plant Growth and Chlorophyll Fluorescence Emission in Three Spatial DimensionsLadislav NedbalDavid ŠebelaChandra BellasioRadek TesařJulie OlejníčkováPlant leaves grow and change their orientation as well their emission of chlorophyll fluorescence in time. All these dynamic plant properties can be semi-automatically monitored by a 3D imaging system that generates plant models by the method of coded light illumination, fluorescence imaging and computer 3D reconstruction. Here, we describe the essentials of the method, as well as the system hardware. We show that the technique can reconstruct, with a high fidelity, the leaf size, the leaf angle and the plant height. The method fails with wilted plants when leaves overlap obscuring their true area. This effect, naturally, also interferes when the method is applied to measure plant growth under water stress. The method is, however, very potent in capturing the plant dynamics under mild stress and without stress. The 3D reconstruction is also highly effective in correcting geometrical factors that distort measurements of chlorophyll fluorescence emission of naturally positioned plant leaves.http://www.mdpi.com/1424-8220/12/1/1052/3D reconstructionchlorophyll fluorescence imagingleaf arealeaf angleplant growthcoded light
collection DOAJ
language English
format Article
sources DOAJ
author Ladislav Nedbal
David Šebela
Chandra Bellasio
Radek Tesař
Julie Olejníčková
spellingShingle Ladislav Nedbal
David Šebela
Chandra Bellasio
Radek Tesař
Julie Olejníčková
Computer Reconstruction of Plant Growth and Chlorophyll Fluorescence Emission in Three Spatial Dimensions
Sensors
3D reconstruction
chlorophyll fluorescence imaging
leaf area
leaf angle
plant growth
coded light
author_facet Ladislav Nedbal
David Šebela
Chandra Bellasio
Radek Tesař
Julie Olejníčková
author_sort Ladislav Nedbal
title Computer Reconstruction of Plant Growth and Chlorophyll Fluorescence Emission in Three Spatial Dimensions
title_short Computer Reconstruction of Plant Growth and Chlorophyll Fluorescence Emission in Three Spatial Dimensions
title_full Computer Reconstruction of Plant Growth and Chlorophyll Fluorescence Emission in Three Spatial Dimensions
title_fullStr Computer Reconstruction of Plant Growth and Chlorophyll Fluorescence Emission in Three Spatial Dimensions
title_full_unstemmed Computer Reconstruction of Plant Growth and Chlorophyll Fluorescence Emission in Three Spatial Dimensions
title_sort computer reconstruction of plant growth and chlorophyll fluorescence emission in three spatial dimensions
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2012-01-01
description Plant leaves grow and change their orientation as well their emission of chlorophyll fluorescence in time. All these dynamic plant properties can be semi-automatically monitored by a 3D imaging system that generates plant models by the method of coded light illumination, fluorescence imaging and computer 3D reconstruction. Here, we describe the essentials of the method, as well as the system hardware. We show that the technique can reconstruct, with a high fidelity, the leaf size, the leaf angle and the plant height. The method fails with wilted plants when leaves overlap obscuring their true area. This effect, naturally, also interferes when the method is applied to measure plant growth under water stress. The method is, however, very potent in capturing the plant dynamics under mild stress and without stress. The 3D reconstruction is also highly effective in correcting geometrical factors that distort measurements of chlorophyll fluorescence emission of naturally positioned plant leaves.
topic 3D reconstruction
chlorophyll fluorescence imaging
leaf area
leaf angle
plant growth
coded light
url http://www.mdpi.com/1424-8220/12/1/1052/
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