Browse > Article
http://dx.doi.org/10.7836/kses.2016.36.2.001

An Analysis of Relationships between Plant Growth and Temperature Characteristics Measured with Thermographic Camera  

Park, Sang-Mi (Dept. of ESE, KNUT)
Nam, Da-Hyun (Dept. of ESE, KNUT)
Kim, Ji-Hyung (Dept. of ESE, KNUT)
Jo, Geon-Young (Dept. of ESE, KNUT)
Kim, Ha-Yang (Dept. of ESE, KNUT)
Kim, Jeongbae (Department of Energy System Engineering, Korea National University of Transportation)
Publication Information
Journal of the Korean Solar Energy Society / v.36, no.2, 2016 , pp. 1-7 More about this Journal
Abstract
This study was experimentally performed to analyze the growth characteristics of a plant(wax tree or privet) using the surface temperature measured from thermal images captured using a thermal camera with water and cider. To do that, this study measured every each 12 hours the surface temperature and the stem temperature of leaves attached to the plant sample until the plants wilt on summer season in the laboratory room. From the experimental results, this study revealed that the temperature of front and back of the leaves is a little different due to the pore. The mean surface temperature of a leaf in cider is $0.52^{\circ}C$ higher than that of a leaf in water. The phenomena that the leaves of plants fall could be also demonstrated using the surface temperature. Before a leaf is falling from the tree, the temperature of the stem is lowered about $2^{\circ}C$ than those of other parts in a leaf. This result can be validated from previous result performed in University of Wisconsin.
Keywords
Wax tree; Plant growth; Liquids; Thermal camera; Surface temperature;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Song, J. C, Lee G. C, Jeon S. H, Lee M. D, and Jo G. H, Effect on Growth of Plant with Earthworm Casting, Resource Recovery of Organic Material, Vol. 1, pp. 237-258, 1994.
2 Bae J. G, Joo Y. S, and Park J. S, Salt Concentration of its Food Waste Composting and Effect on Growth of Plant, Resource Recovery of Organic Material, Vol. 10, pp. 103-111, 2002.
3 Kang H. Y, Kim S. H, Kim Y. J, and Park S. S, Effect on Growth of Plant with extracted from Rice Straw Jipchoaek and Antibiotic Effects, The Korean Federation for Environmental Health Association of Origin, Vol. 108, pp. 178-186, 2009.
4 Kim E. S, Kim H. J, Ahn J. H, Kim D. G, Lee G. C, and Suh G. U, Effect on the Temperature is a Cow Parsnip Seed Germination, Korea Resources Botanic Society Academic Symposium, pp. 131, 2012.
5 Park J. Y and Kim J, Experimental Basic Study on Growth Characteristics of Plant with Various Liquids, KSES Spring Conference Proceedings, pp. 122-124, 2014.
6 Park S. M, Jo G. Y, and Kim J., Experimental Basic Study on Growth Characteristics of Plant with the Liquid(I), KSES Autumn Conference Proceedings, pp. 255-257, 2014.
7 Park S. M, Kim J. H, Kim H. Y, Jo G. Y, and Kim J, Experimental Study on Growth Characteristics in Leaves of a Plant, KSES Spring Conference Proceedings, pp. 12-12, 2015.
8 Park S. M, Nam D. H, Kim J. H, Kim H. Y, Jo G. Y, and Kim J, Experimental Study on Growth Characteristics in Leaves of various Plants with various Liquid Conditions, KSPBT Annual Conference Proceedings, pp. 65-65, 2015.
9 Enoch H. Z and Olesen J. M, Plant Response to Irrigation with Water Enriched with Carbon Dioxide, New Phytologist, Vol. 125, pp. 249-258, 1993.   DOI
10 Choi J. I, Yu K. W, Seon J. H, and Paek K. Y, Photosynthesis and Stomatal Conductance of Nine Foliage Plants as Affected by Photosynthetic Photon Flux Density and CO2 Concentration, KOR. J. HORT. SCI. & TECH., Vol. 16, pp. 132, 1998.
11 Jwa S. M, Kand S. B, and Moon D. K, Effects of Diurnal Range of Temperature and Enhanced CO2 on Photosynthesis and Growth of Early-maturing Satsuma Mandarin, KOR. J. HORT. SCI. & TECH., Vol. 17, pp. 663, 1999.
12 Lim J. T, Kim H. J, Chung S. J, and Lee B. S, Effects of Photosynthesis Rate of Hydroponically Grown Cucumber Plants as Affected by Light Intensity, Temperature, Carbon Dioxide and Leaf Nitrogen Content, Proceedings of Protected Horticulture and Plant Factory, Vol. 8, pp. 187-191, 1999.
13 Ro H. M, Kim P. G, Lee I. B, and Yiem M. S, Photosynthetic and Morphometric Responses of Apple Trees after Three Years of Exposure to Elevated Carbon Dioxide and Temperature, Proceedings of KOR. J. HORT. SCI. & TECH., pp. 40, 2001.
14 Lichtenthaler K. H and Miehe J. A, Fluorescence Imaging as a Diagnostic Tool for Plant Stress, Trends in Plant Science, Vol. 2, pp. 316-320, 1997.   DOI
15 Chung B. C and Lee C. H, Analysis on Growth Characteristics of Plants using Thermal Imaging Technology, BioWave, Vol. 3, pp. 1-12, 2001.