Abstract
The characteristics of masses of leaves should be considered while controlling the light environment for plant production. The term “canopy” is used to express the mass of leaves of multiple plants. The optical characteristics and photosynthetic properties of a canopy are sometimes different from those of a single leaf. One of the most important characteristics of a canopy is that there exists a photosynthetic photon flux density (PPFD) distribution on and within the canopy according to its leaf distribution pattern. In addition, the light spectral distribution within the canopy is different from that outside the canopy, owing to light absorption and reflection by leaves. Moreover, the light-photosynthetic curve of a canopy differs from that of a single leaf, showing higher or no light-saturated points. A basic method for estimating canopy photosynthesis is to sum up the photosynthetic rates of small parts of canopy that are assumed to be under uniform environmental conditions. An extinction coefficient is used to express light attenuation within a canopy as a function of LAI and to estimate average PPFD at each horizontal layer.
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References
Arvidsson S, Pérez-Rodríguez P, Mueller-Roeber B (2011) A growth phenotyping pipeline for Arabidopsis thaliana integrating image analysis and rosette area modeling for robust quantification of genotype effects. New Phytol 191:895–907
Fukai S (1999) Leaf area index and canopy light climate. In: Atwell BJ et al (eds) Plants in action. Macmillan Education Australia Pty Ltd, Melbourne, Available via DIALOG. http://plantsinaction.science.uq.edu.au/edition1/of subordinate document. Accessed 15 Dec 2015
Hirose T (2004) Development of the Monsi-Saeki theory on canopy structure and function. Ann Bot 95:483–494
Hirose T, Werger MJA (1987) Maximizing daily canopy photosynthesis with respect to the leaf nitrogen allocation pattern in the canopy. Oecologia 72:520–526
Ibaraki Y, Dutta Gupta S (2014) Image analysis for plants: basic procedures and techniques. In: Dutta Gupta S, Ibaraki Y (eds) Plant image analysis. CRC Press, Boca Raton, pp 25–40
Javanovic NZ, Annandale JG, Mhlauli NC (1999) Field water balance and SWB parameter determination of six winter vegetation species. Water S A 25:191–196
Jones HG (1992) Plants and microclimate: a quantitative approach to environmental plant physiology. Cambridge University Press, London
Kasperbauer MJ (1971) Spectral distribution of light in a tobacco canopy and effects of end-of-day light quality on growth and development. Plant Physiol 47:775–778
Kim HH, Goins GD, Wheeler RM et al (2004) Green-light supplementation for enhanced lettuce growth under red- and blue-light-emitting diodes. HortScience 39:1617–1622
Moffett WM (2000) What’s “Up”? A critical look at the basic terms of canopy biology. Biotropica 32:569–596
Monsi M, Saeki T (2005) On the factor light in plant communities and its importance for matter production. Ann Bot 95:549–567
Tei F, Scaife A, Aikman DP (1996) Growth of lettuce, onion, and red beet. 1. Growth analysis, light interception and radiation use efficiency. Ann Bot 78:633–643
Zhang D, Hu Z, Fan J et al (2014) A meta-analysis of the canopy light extinction coefficient in terrestrial ecosystems. Front Earth Sci 8:599–609
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Ibaraki, Y. (2016). Optical and Physiological Properties of a Plant Canopy. In: Kozai, T., Fujiwara, K., Runkle, E. (eds) LED Lighting for Urban Agriculture. Springer, Singapore. https://doi.org/10.1007/978-981-10-1848-0_9
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DOI: https://doi.org/10.1007/978-981-10-1848-0_9
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