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<cfAbstr cfLangCode='EN' cfTrans='o'>Variability of the Photosynthetically Active Radiation (PAR) measured at the ground-

based solar radiation monitoring station at the Chisinau site from 2004 to 2006 is analyzed. 
Series of days with observations for clear sky conditions was selected from the original PAR 
and solar radiation datasets to study relationship between PAR and global, diffuse and direct 
solar irradiance, and to evaluate conversion factor for converting PAR values measured with 
specific PAR sensor from photosynthetic photon flux to PAR in energy units. This selection is 
necessary to neglect the influence of loudiness upon the measured data. There was proposed 
a simple power type relationship approximating diurnal variability of PAR and depending on 
aerosol optical depth. There was demonstrated strong positive correlation between daily totals of PAR and global solar radiation both for clear sky and all-sky conditions, and respective 

linear equations between these parameters are proposed. Monthly mean values of daily ratios 
of PAR and global solar radiation for all-sky conditions show distinct seasonal variation with 
large values observed during cloudy months specific to fall and winter seasons. It is attributed 
to predominant absorption of solar radiation on aerosols, gases and in clouds occurring outside of PAR spectral domain. For very clear days of observations the growth of daily mean 
ratio of PAR and solar irradiance was due to increase of aerosol optical depth. There was supposed a simple linear relationship for evaluation of incoming PAR through direct and diffuse 
solar radiation by applying specific weighting coefficients. For all-sky and for clear sky conditions weighting coefficients amount to ~0.46 and ~0.59, respectively. Analysis of radiometric data acquired during one of the clearest day in time series of observation gives conversion 

factor which amounts to ~4.65.  flux to PAR in energy units. This selection is 
necessary to neglect the influence of cloudiness upon the measured data. There was proposed 
a simple power type relationship approximating diurnal variability of PAR and depending on 
aerosol optical depth. There was demonstrated strong positive correlation between daily totals 
of PAR and global solar radiation both for clear sky and all-sky conditions, and respective 
linear equations between these parameters are proposed. Monthly mean values of daily ratios 
of PAR and global solar radiation for all-sky conditions show distinct seasonal variation with 
large value to predominant absorption of solar radiation on aerosols, gases and in clouds occurring outside of PAR spectral domain. For very clear days of observations the growth of daily mean 
ratio of PAR and solar irradiance was due to increase of aerosol optical depth. There was supposed a simple linear relationship for evaluation of incoming PAR through direct and diffuse 
solar radiation by applying specific weighting coefficients. For all-sky and for clear sky conditions weighting coefficients amount to ~0.46 and ~0.59, respectively. Analysis of radiometric data acquired during one of the clearest day in time series of observation gives conversion factor which amounts to ~4.65. </cfAbstr>
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@article{ibn_3789,
author = {Aculinin, A.A.},
title = {Photosynthetically active radiation in Moldova },
journal = {Moldavian Journal of the Physical Sciences},
year = {2008},
volume = {7 (1)},
pages = {115-123},
month = {Feb},
abstract = {(EN) Variability of the Photosynthetically Active Radiation (PAR) measured at the ground-

based solar radiation monitoring station at the Chisinau site from 2004 to 2006 is analyzed. 
Series of days with observations for clear sky conditions was selected from the original PAR 
and solar radiation datasets to study relationship between PAR and global, diffuse and direct 
solar irradiance, and to evaluate conversion factor for converting PAR values measured with 
specific PAR sensor from photosynthetic photon flux to PAR in energy units. This selection is 
necessary to neglect the influence of loudiness upon the measured data. There was proposed 
a simple power type relationship approximating diurnal variability of PAR and depending on 
aerosol optical depth. There was demonstrated strong positive correlation between daily totals of PAR and global solar radiation both for clear sky and all-sky conditions, and respective 

linear equations between these parameters are proposed. Monthly mean values of daily ratios 
of PAR and global solar radiation for all-sky conditions show distinct seasonal variation with 
large values observed during cloudy months specific to fall and winter seasons. It is attributed 
to predominant absorption of solar radiation on aerosols, gases and in clouds occurring outside of PAR spectral domain. For very clear days of observations the growth of daily mean 
ratio of PAR and solar irradiance was due to increase of aerosol optical depth. There was supposed a simple linear relationship for evaluation of incoming PAR through direct and diffuse 
solar radiation by applying specific weighting coefficients. For all-sky and for clear sky conditions weighting coefficients amount to ~0.46 and ~0.59, respectively. Analysis of radiometric data acquired during one of the clearest day in time series of observation gives conversion 

factor which amounts to ~4.65.  flux to PAR in energy units. This selection is 
necessary to neglect the influence of cloudiness upon the measured data. There was proposed 
a simple power type relationship approximating diurnal variability of PAR and depending on 
aerosol optical depth. There was demonstrated strong positive correlation between daily totals 
of PAR and global solar radiation both for clear sky and all-sky conditions, and respective 
linear equations between these parameters are proposed. Monthly mean values of daily ratios 
of PAR and global solar radiation for all-sky conditions show distinct seasonal variation with 
large value to predominant absorption of solar radiation on aerosols, gases and in clouds occurring outside of PAR spectral domain. For very clear days of observations the growth of daily mean 
ratio of PAR and solar irradiance was due to increase of aerosol optical depth. There was supposed a simple linear relationship for evaluation of incoming PAR through direct and diffuse 
solar radiation by applying specific weighting coefficients. For all-sky and for clear sky conditions weighting coefficients amount to ~0.46 and ~0.59, respectively. Analysis of radiometric data acquired during one of the clearest day in time series of observation gives conversion factor which amounts to ~4.65. },
url = {https://ibn.idsi.md/vizualizare_articol/3789},
}

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<description xml:lang='en' descriptionType='Abstract'>Variability of the Photosynthetically Active Radiation (PAR) measured at the ground-

based solar radiation monitoring station at the Chisinau site from 2004 to 2006 is analyzed. 
Series of days with observations for clear sky conditions was selected from the original PAR 
and solar radiation datasets to study relationship between PAR and global, diffuse and direct 
solar irradiance, and to evaluate conversion factor for converting PAR values measured with 
specific PAR sensor from photosynthetic photon flux to PAR in energy units. This selection is 
necessary to neglect the influence of loudiness upon the measured data. There was proposed 
a simple power type relationship approximating diurnal variability of PAR and depending on 
aerosol optical depth. There was demonstrated strong positive correlation between daily totals of PAR and global solar radiation both for clear sky and all-sky conditions, and respective 

linear equations between these parameters are proposed. Monthly mean values of daily ratios 
of PAR and global solar radiation for all-sky conditions show distinct seasonal variation with 
large values observed during cloudy months specific to fall and winter seasons. It is attributed 
to predominant absorption of solar radiation on aerosols, gases and in clouds occurring outside of PAR spectral domain. For very clear days of observations the growth of daily mean 
ratio of PAR and solar irradiance was due to increase of aerosol optical depth. There was supposed a simple linear relationship for evaluation of incoming PAR through direct and diffuse 
solar radiation by applying specific weighting coefficients. For all-sky and for clear sky conditions weighting coefficients amount to ~0.46 and ~0.59, respectively. Analysis of radiometric data acquired during one of the clearest day in time series of observation gives conversion 

factor which amounts to ~4.65.  flux to PAR in energy units. This selection is 
necessary to neglect the influence of cloudiness upon the measured data. There was proposed 
a simple power type relationship approximating diurnal variability of PAR and depending on 
aerosol optical depth. There was demonstrated strong positive correlation between daily totals 
of PAR and global solar radiation both for clear sky and all-sky conditions, and respective 
linear equations between these parameters are proposed. Monthly mean values of daily ratios 
of PAR and global solar radiation for all-sky conditions show distinct seasonal variation with 
large value to predominant absorption of solar radiation on aerosols, gases and in clouds occurring outside of PAR spectral domain. For very clear days of observations the growth of daily mean 
ratio of PAR and solar irradiance was due to increase of aerosol optical depth. There was supposed a simple linear relationship for evaluation of incoming PAR through direct and diffuse 
solar radiation by applying specific weighting coefficients. For all-sky and for clear sky conditions weighting coefficients amount to ~0.46 and ~0.59, respectively. Analysis of radiometric data acquired during one of the clearest day in time series of observation gives conversion factor which amounts to ~4.65. </description>
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<dc:description xml:lang='en'>Variability of the Photosynthetically Active Radiation (PAR) measured at the ground-

based solar radiation monitoring station at the Chisinau site from 2004 to 2006 is analyzed. 
Series of days with observations for clear sky conditions was selected from the original PAR 
and solar radiation datasets to study relationship between PAR and global, diffuse and direct 
solar irradiance, and to evaluate conversion factor for converting PAR values measured with 
specific PAR sensor from photosynthetic photon flux to PAR in energy units. This selection is 
necessary to neglect the influence of loudiness upon the measured data. There was proposed 
a simple power type relationship approximating diurnal variability of PAR and depending on 
aerosol optical depth. There was demonstrated strong positive correlation between daily totals of PAR and global solar radiation both for clear sky and all-sky conditions, and respective 

linear equations between these parameters are proposed. Monthly mean values of daily ratios 
of PAR and global solar radiation for all-sky conditions show distinct seasonal variation with 
large values observed during cloudy months specific to fall and winter seasons. It is attributed 
to predominant absorption of solar radiation on aerosols, gases and in clouds occurring outside of PAR spectral domain. For very clear days of observations the growth of daily mean 
ratio of PAR and solar irradiance was due to increase of aerosol optical depth. There was supposed a simple linear relationship for evaluation of incoming PAR through direct and diffuse 
solar radiation by applying specific weighting coefficients. For all-sky and for clear sky conditions weighting coefficients amount to ~0.46 and ~0.59, respectively. Analysis of radiometric data acquired during one of the clearest day in time series of observation gives conversion 

factor which amounts to ~4.65.  flux to PAR in energy units. This selection is 
necessary to neglect the influence of cloudiness upon the measured data. There was proposed 
a simple power type relationship approximating diurnal variability of PAR and depending on 
aerosol optical depth. There was demonstrated strong positive correlation between daily totals 
of PAR and global solar radiation both for clear sky and all-sky conditions, and respective 
linear equations between these parameters are proposed. Monthly mean values of daily ratios 
of PAR and global solar radiation for all-sky conditions show distinct seasonal variation with 
large value to predominant absorption of solar radiation on aerosols, gases and in clouds occurring outside of PAR spectral domain. For very clear days of observations the growth of daily mean 
ratio of PAR and solar irradiance was due to increase of aerosol optical depth. There was supposed a simple linear relationship for evaluation of incoming PAR through direct and diffuse 
solar radiation by applying specific weighting coefficients. For all-sky and for clear sky conditions weighting coefficients amount to ~0.46 and ~0.59, respectively. Analysis of radiometric data acquired during one of the clearest day in time series of observation gives conversion factor which amounts to ~4.65. </dc:description>
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