EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 37 (2018) E3S Web Conf., 37 (2018) 03004 References
Open Access
Issue
E3S Web Conf.
Volume 37, 2018
The Sixth International Congress “Water, Waste and Environment” (EDE6-2017)
Article Number 03004
Number of page(s) 10
Section Climatic Changes
DOI https://doi.org/10.1051/e3sconf/20183703004
Published online 25 May 2018
  1. P.C.S. Devara, G. Pandithurai, P.E. Raj, S. Sharma. Investigations of aerosol optical depth variations using spectroradiometer at an urban station, Pune, India. J. Aerosol Sci., 27, 621- 632(1996). [CrossRef] [Google Scholar]
  2. M. Diouri et D. Chabane, 2010.AERONET/PHOTONS (http://aeronet.gsfc.nasa.gov/). [Google Scholar]
  3. L. El Amraoui and Diouri. M. Characterisation of different air mass influences in terms of aerosol optical parameters.J.Aerosol Sci.Vol 32 Supp 1 pp S643-S644 (2001). [Google Scholar]
  4. I. El Aouadi. Estimation de la quantité de vapeur d’eau précipitable et du forçage radiatif de l’aérosol atmosphérique à partir de la télédétection passive à Oujda (Maroc). Thèse de Doctorat,Université Mohamed Premier, Faculté des sciences, Oujda, Maroc (2005). [Google Scholar]
  5. A. Tahiri. Etude de l’aérosol désertique avec des données actuelles, DESA. Université Mohamed Premier, Faculté des sciences, Oujda, Maroc (2006). [Google Scholar]
  6. W. von Hoyningen-Huene et Posse. P. Nonsphericity of aerosol particles and their contribution to radiative forcing. J. Quant. Spectrosc. Radiat. Transfer, 57, 651-668 (1997). [CrossRef] [Google Scholar]
  7. K. Kandler. Et al. Size distribution, mass concentration, chemical and mineralogical composition and derived optical parameters of the boundary layer aerosol at Tinfou, Morocco, during SAMUM 2006.Tellus 61B, 32-50 (2009). [CrossRef] [Google Scholar]
  8. A. Petzold et al. Saharan dust absorption and refractive index from aircraft-based observation during SAMUM 2006. Tellus 61B, 118-130. DOI: 10.1111/j.1600- 0889.2008.00383.x (2009). [CrossRef] [Google Scholar]
  9. A. Tahiri et Diouri. M. Premier colloque francophone sur les Polluants Organiques Générés par l’Agriculture et les Transports POGAT 2011. Epaisseur optique de l’aérosol désertique observé à Ouarzazate et Zagora. 24 - 27 Octobre 2011, Agadir, Maroc. [Google Scholar]
  10. O. Dubovik and King M.D. A flexible inversion algorithm for retrieval of aerosol optical properties from sun and sky radiance measurements. Journal of Geophysical Research, 105, 20673-20696 (2000). [CrossRef] [Google Scholar]
  11. A. Smirnov., Holben. B. N., Eck T.F., Dubovik. O & Slutsker. I. Cloud screening and Quality control algorithms for the AERONET data base. Remote Sensing of Environment, 73, 73337-73349 (2000). [Google Scholar]
  12. B. N. Holben et al. AERONET- A federated instrument network and data archive for aerosol characterization. Remote Sensing of Environment, 66, 1-16 (1998). [Google Scholar]
  13. O. Dubovik., A. Smirnov., B. N. Holben., M. D. King., Y. J. Kaufman., T. F. Eck and I. Slutsker. Accuracy assessment of aerosol optical properties retrieval from AERONET sun and sky radiance measurements. Journal of Geophysical Research, 105, 9791-9806 (2000). [Google Scholar]
  14. M. Diouri and Sanda. S.I. Deduction of particle size distribution from aerosol optical depth.CLEOPATRE-I code. J. Aerosol Sci, 28, S459 (1997). [CrossRef] [Google Scholar]
  15. W. von Hoyningene-Huene and Wendisch. M. Possibility of refractive index determination of atmospheric aerosol particles by ground based solar extinction and scattering measurements. Atmos. Environ, 28, 785-795(1994). [CrossRef] [Google Scholar]
  16. M.I. Mishchenko., Travis, L.D and Lacis, A.A. Multiple Scattering of Light by Particles. Radiative Transfer and Coherent Backscattering, Cambridge Univ Press, New York (2006). [Google Scholar]
  17. A. Slingo et al. Observations of the impact of a major Saharan dust storm on the atmospheric radiation balance, Geophysical Research Letters, 33, l24817, doi :10.1029/2006GL027869 (2006). [CrossRef] [Google Scholar]
  18. W. v. Hoyningen-Huene. Atmospheric aerosol -A special topic in environmental physics . IUP, Universitat Bremen, 16/04/2003. [Google Scholar]
  19. J.P.Burrows., Dehn, A., Deters, B., Himmelmann, S., Richter, A., Voigt, S and Orphal, J., Atmospheric Remote-Sensing Reference Data from GOME: Part 1.Temperature- Dependent Absorption Cross-sections of NO2 in the 231-794 nm Range, JQSRT, 60, 1025- 1031 (1998). [CrossRef] [Google Scholar]
  20. J.P.Burrows., Richter, A., Dehn, A., Deters, B., Himmelmann, S., Voigt, S. and Orphal J., Atmospheric remote -sensing-reference data from GOME: 2.Temperature -dependent absorption cross sections of O3 in the 231-794 nm range, JQSRT, 61, 509-517, 1999. [NASA ADS] [CrossRef] [Google Scholar]
  21. E.G. Dutton., Reddy. P., Ryan.S., Deluisi.J.J. Features and effects of aerosol optical depth observed at Mauna Loa, Hawaii: 1982-1992, J. Geophys. Res., 99, 8295-8306, (1994). [CrossRef] [Google Scholar]
  22. F. Kasten and Young. A.T. Revised optical air mass tables and approximation formula. Applied Optics, 28, 4735-4738 (1989). [CrossRef] [PubMed] [Google Scholar]
  23. C. Toledano et al. Spectral aerosol optical depth characterization of desert dust during SAMUM 2006.Tellus 61B, 216-228.Doi: 10.1111/ j.1600-0889. 2008. 00382.x (2009). [CrossRef] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.