Photosynthetic Active Radiation, Solar Irradiance and the CIE Standard Sky Classification

Plant growth is directly related to levels of photosynthetic photon flux density, Qp. The improvement of plant-growth models therefore requires accurate estimations of the Qp parameter that is often indirectly calculated on the basis of its relationship with solar irradiation, RS, due to the scarcit...

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Bibliographic Details
Published in:Applied sciences 2020-11, Vol.10 (22), p.8007
Main Authors: García-Rodríguez, Ana, García-Rodríguez, Sol, Díez-Mediavilla, Montserrat, Alonso-Tristán, Cristina
Format: Article
Language:English
Subjects:
Atmospheric aerosols
Categories
CIE standard skies
Classification
Cloud cover
Datasets
Flux density
Identification and classification
Irradiance
Irradiation
Light pollution
Measurement
Photons
Photosynthesis
photosynthetic active radiation
Photosynthetically active radiation
Plant growth
Planting density
Radiation
Rain
Scanners
Sea level
Seasonal variations
solar irradiance
Solar radiation
Statistical analysis
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Summary:Plant growth is directly related to levels of photosynthetic photon flux density, Qp. The improvement of plant-growth models therefore requires accurate estimations of the Qp parameter that is often indirectly calculated on the basis of its relationship with solar irradiation, RS, due to the scarcity of ground measurements of photosynthetic photon flux density. In this experimental campaign in Burgos, Spain, between April 2019 and January 2020, an average value of the Qp/Rs ratio is determined on the basis of measurements at ten-minute intervals. The most influential factor in the Qp/Rs ratio, over and above any daily or seasonal pattern, is the existence of overcast sky conditions. The CIE standard sky classification can be used to establish an unequivocal characterization of the cloudiness conditions of homogeneous skies. In this study, the relation between the CIE standard sky type and Qp/Rs is investigated. Its conclusions were that the Qp/Rs values, the average of which was 1.93±0.15 μmol·J−1, presented statistically significant differences for each CIE standard sky type. The overcast sky types presented the highest values of the ratio, while the clear sky categories presented the lowest and most dispersed values. During the experimental campaign, only two exceptions were noted for covered and partial covered sky-type categories, respectively, sky types 5 and 9. Their values were closer to those of categories classified as clear sky according to the CIE standard. Both categories presented high uniformity in terms of illumination.
ISSN:2076-3417
2076-3417
DOI:10.3390/app10228007