Spectral radiation

Last update: Jan. 2019

 

           

 

3 axes:

 

 

Bibliography Spectral

(In alphabetic order and and reverse chronological order)

Aculinin et al. 2016 Aculinin A., C. Brogniez, M. Bengulescu, D. Gillotay, et al. 2016. "Assessment of Several Empirical Relationships for Deriving Daily Means of UV-A Irradiance from Meteosat-Based Estimates of the Total Irradiance" Remote Sensing, MDPI, 2016, 8 (7), pp.537. UV-A from broadband

 

 

Jacovides et al. 2004 Jacovides, C. P., Timvios, F. S., Papaioannou, G., Asimakopoulos, D. N., and Theofilou, C. M.: Ratio of PAR to broadband solar radiation measured in Cyprus, Agr. Forest. Meteorol., 121, 135– 140, 2004. PAR from HC3

Content: Coeff to derive PAR from GHI optimized for Cyprus.

 

Kato et al. 1999 Kato S., T. Ackerman, J.  Mather, E. Clothiaux, 1999. "The k-distribution method and correlated-k approximation  for  shortwave  radiative  transfer  model" Journal of Quantitative Spectroscopy and Radiative Transfer 62, 109-121. DOI:10.1016/S0022-4073(98)00075-2. Kato

 

Kravietz et al. 2017 Kravietz A., S. Ka, L. Wald, A. Dugravot, A. Singh-Manoux, F. Moisan, A. Elbaz, 2017. "Association of UV radiation with Parkinson disease incidence: a nationwide French ecologic study" Environmental Research, 154, 50 - 56, doi: 10.1016/j.envres.2016.12.008 UV and Parkinson desease

 

Lefèvre et al. 2013 Lefèvre M., A. Oumbe, P. Blanc, B. Espinar, B. Gschwind, Z. Qu, L. Wald, M. Schroedter-Homscheidt, C. Hoyer-Klick, A. Arola, A. Benedetti, J. W. Kaiser, and J.-J.  Morcrette, 2013. "McClear: a new model estimating downwelling solar radiation at ground level in clear-sky conditions", Atmos. Meas. Tech., 6, 2403-2418, doi:10.5194/amt-6-2403-2013. McClear

Content: in addition to the description of CAMS McClear, this article provides a very restrictive algorithm to select clear sky instants. It consists of two successive filters. The first one is a constraint on the amount of diffuse irradiance with respect to the global irradiance since the direct irradiance is usually prominent in the case of clear sky. The second filter analyses the temporal variability of the global irradiance. If there is no cloud, the sky should be clear and steady for a long period.

 


 

McCree 1972 McCree, K. J.. "Test of current definitions of photosynthetically active radiation against leaf photosynthesis data", Agric. Meteorol., 10, 443–453, 1972 conversion factor from µmol/m2/s into W/m2

 

 

Opálková et al. 2018 Opálková, M., Navrátil, M., Špunda, V., Blanc, P., and Wald, L.. "A database of 10 min average measurements of solar radiation and meteorological variables in Ostrava, Czech Republic", Earth Syst. Sci. Data, 10, 837-846, https://doi.org/10.5194/essd-10-837-2018, 2018. GRD measurements, UV, PAR, broadband, Czech Republic

Content: Article which proposes an alternative of quality check for spectral radiation values.
https://doi.org/10.1594/PANGAEA.879722 proposes for free in-situ measurements for 3 sites (2 very close) close to Ostrava, in Czech Republic:

  • BGOU S1: lat=49.82754°, 18.32618°, 10 min data in UTC, end of interval, averages. Data from 2014-07-01-00-00 to 2016-12-31-22-50.
  • BGOU S2: idem except data start on 2014-07-02-08-00
  • NB: PHI (proche BGOU) provides meteo variables and air-pollutant information at a 1h time step.
  • CHMI S3: lat=49.82521°, 18.15932°, 10 min data in UTC, end of interval, averages. Data from 2014-07-07-13-00 to 2016-12-31-22-50.

Spectral bands: UVB: 280-315 nm, UVA 315-400 nm, PAR 400-700 nm, 510-700 nm, 600-700 nm, 610-680 nm, 690-780 nm, broadband 400-1100 nm.

Interesting citations in this article:

  • "Moreover, diffuse radiation is know for having a different blue/red ratio compared to direct radiation (Navratil et al. 2007)."
  • "We have adapted the approach of Korany et al. (2016) which applies to measurements of global and diffuse total irradiances."
  • "Some values are greater than the corresponding irradiance at TOA. These values were usually connectly with partly cloudy weather, when multiple scattering on the cloud edges could increase incident solar irradiation (Mims and Frederick, 1994)."

 

 

Szeicz 1974 Szeicz G., 1974. "Solar radiation for plant growth", J. Appl Ecol., Vol. 11, No. 2 (Aug., 1974), pp. 617-636. DOI: 10.2307/2402214 PAR from GHI, UK
Content: Coeff to derive PAR from GHI optimized for England.

 

Udo et Aro 1999 Udo, S. O. and Aro, T. O., 1999. "Global PAR related to global solar radiation for central Nigeria", Agr. Forest. Meteorol, 97, 21–31, 1999. https://doi.org/10.1016/S0168-1923(99)00055-6 PAR from broadband

Content: Coeff to derive PAR from GHI optimized for Nigeria.

 

Wald 2018 Lucien Wald, 2018. "A simple algorithm for the computation of the spectral distribution of the solar irradiance at surface"  [Research Report] MINES ParisTech. 2018. Spectral from broadband

 

Wald 2012 Wald L., 2012. "Elements on the Computation of UV Maps in the Eurosun Database" Internal Report. 2012. UV from broadband

 

Wandji Nyamsi et al. 2018 Wandji Nyamsi W., P. Blanc, J.A. Augustine, A. Arola, and L. Wald, 2018. "Deriving Photosynthetically Active Radiation at ground level in cloud-free conditions from Copernicus Atmospheric Monitoring Service (CAMS) products", Biogeosciences Discussion, doi: 10.5194/bg-2017-512. PAR from Kato

 

Wandji Nyamsi et al. 2017 Wandji Nyamsi W., M. R. A. Pitkänen, Y. Aoun, P. Blanc, A. Heikkilä, K. Lakkala, G. Bernhard, T. Koskela, A. V. Lindfors, A. Arola, et al., 2017. "A new method for estimating UV fluxes at ground level in cloud-free conditions" Atmospheric Measurement Techniques, European Geosciences Union, 2017, 10 (12), pp.4965-4978. DOI:10.5194/amt-10-4965- 2017. UV from Kato

 

Wandji Nyamsi 2015

Thèse de William Wandji Nyamsi W., 2015. "Vers une méthode automatique d'estimation de la distribution spectrale du rayonnement solaire. Cas du ciel clair. : Applications à la lumière du jour, photosynthèse et ultraviolet". Soutenue le 6 novembre 2015. MINES ParisTech, spécialité « énergétique et procédés », 124 p.

PAR et UV from Kato

 

Wandji Nyamsi et al. 2015

Wandji Nyamsi W., B. Espinar, P. Blanc, and L. Wald, 2015. "Estimating the photosynthetically active radiation under clear skies by means of a new approach" Advances in Science and Research, Copernicus Publications, 12, pp.5–10. DOI: 10.5194/asr-12-5-2015

PAR from Kato

Content: the Kato bands do not exactly fit the PAR spectral ranges and a spectral resampling is necessary. The authors have developed a resampling method which determine several 1-nm spectral bands whose atmospheric transmissivities are correlated to those of the Kato bands and then use these transmissivities in a linear interpolation process to compute the PAR irradiance. The technique has been numerically validated. The authors conclude that the technique estimates direct and global with very high accuracy. 

Wandji Nyamsi et al. 2014 Wandji Nyamsi W., B. Espinar, P. Blanc, and L. Wald, 2014. "How close to detailed spectral calculations is the k-distribution method and correlated-k approximation of Kato et al. (1999) in each spectral interval?" Meteorologische Zeitschrift, Borntraeger Science Publishers, 2014, 23, pp.547-556. DOI: 10.1127/metz/2014/0607. Kato

Content: authors compared atmospheric transmissivities obtained by the Kato et al. approach against those obtained by spectrally resolved computations using two Radiative Transfer Models (RTMs) in each of the 32 Kato Bands. These calculations were performed for a set of 200 000 realistic atmospheres and clouds. These authors found that the Kato et al. approach offers very accurate estimates of irradiances in all 12 Kato bands covering PAR-range.

 

Yu et al. 2015 Xiaolei Y., Z. Wu, W. Jiang, and X. Guo, 2015. "Predicting daily photosynthetically active radiation from global solar radiation in the Contiguous United States", Energy Conversion and Management, Vol. 89, pp. 71-82. DOI: 10.1016/j.enconman.2014.09.038 PAR from GHI
Content: Table 1 gives a very interesting summary of previous studies for estimating PAR from GHI (Rs in the text). This is where I found Szeicz

 

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Bibliography Spectral: Health

Last update: 9 Oct. 2018

 

(In alphabetic order and and reverse chronological order)

Boniol et al. 2006 Boniol, M., Cattaruzza, M. S., Wald, L., Chignol, M. C., Richard, M. A., Leccia, M. T., Truchetet, F., Renoirte, C., Vereecken, P., Autier, P., and Doré, J.-F., 2006. "Individual sun exposure can be assessed using meteorological satellite measurements". Epidemiology, 17(6), S245. UV and health

 

Boyle et al. 2006 Boyle, P., Boniol, M., Doré, J.-F., Chignol, M.-C., and Wald, L., UV-France, 2006. "Measurement of individual and population exposure to ultraviolet radiation based on data from meteorological satellites", Epidemiology. 17(6), S306. UV and health

 

Kravietz et al. 2017 Kravietz A., S. Ka, L. Wald, A. Dugravot, A. Singh-Manoux, F. Moisan, A. Elbaz, 2017. "Association of UV radiation with Parkinson disease incidence: a nationwide French ecologic study" Environmental Research, 154, 50 - 56, doi: 10.1016/j.envres.2016.12.008 UV and Health

 

Mesrine et al. 2017 Mesrine S., M. Kvaskoff, T. Bah, L. Wald, F. Clavel-Chapelon, et al., 2017. "Ambient Ultraviolet Radiation, and Thyroid Cancer Risk: A French Prospective Study". Epidemiology, 2017, 28, pp.694-702. UV and Health

 

Orton et al. 2011 Orton S.-M., L. Wald, C. B. Confavreux, S. Vukusic, J. P. Krohn, et al. 2011. "Association of UV radiation with multiple sclerosis prevalence and sex ratio in France", Neurology, 2011, 76 (5), pp.425-431. UV and health

 

Porcheret et al. 2018 Porcheret K., L. Wald, L. Fritschi, M. Gerkema, M. Gordijn, et al. 2016. "Chronotype and environmental light exposure in a student population", Chronobiology International, doi: 10.1080/07420528.2018.1482556, 2018 UV and Health

 

Savoye et al. 2018 Savoye I., C. Olsen, D. Whiteman, A. Bijon, L. Wald, et al., 2018. "Patterns of ultraviolet radiation exposure and skin cancer risk: the E3N-SunExp study". Journal of Epidemiology, 2018, 28(1), pp.27-33. UV and Health

 

Savoye et al. 2016 Savoye I., C. Olsen, L. Wald, F. Clavel-Chapelon, M.-C. Boutron-Ruault, et al., 2016. "Profils d'exposition solaire et risque de cancer cutané : étude cas-témoin nichée dans E3 N". Epidemiology and Public Health / Revue d'Epidémiologie et de Santé Publique, 2016, 64, pp.S224 UV and health

 

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