Abstract
Ways of combined usage of data obtained by the satellite sounding of the marine surface along with modeling approaches are considered. The technique of data application is proposed to combine satellite surveys and forecasts using the hydrodynamic Princeton Ocean Model (POM). Based on this, information is provided on transfer directions, particle sizes, and particulate matter concentrations at the time of complete or partial absence of satellite images. The satellite multispectral images were treated using an approach based on the calculations of the total indices of light absorption or backscattering by seawater containing particulate matter of various origins. As the information sources, data from the MODIS device of the Aqua satellite for 2013–2014 were used. The analysis of the correspondence of modeling and survey information confirmed the efficiency of regular usage of satellite data.
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G. G. Matishov, L. A. Bespalova, O. V. Ivlieva, A. E. Tsygankova, and L. V. Kropyanko, Dokl. Earth Sci. 471 (2), 1269–1273 (2016).
G. G. Matishov, V. V. Povazhnyi, S. V. Berdnikov, W. J. Mozes, and A. A. Gitelson, Dokl. Biol. Sci. 432, 216–229 (2010).
G. G. Matishov, O. V. Ivlieva, L. A. Bespalova, and L. V. Kropyanko, Dokl. Earth Sci. 460 (1), 53–57 (2015).
G. G. Matishov, S. V. Berdnikov, L. A. Bespalova, O. V. Ivlieva, A. E. Tsygankova, S. M. Khartiev, A. R. Ioshpa, L. V. Kropyanko, K. S. Sushko, I. V. Sheverdyaev, and E. V. Bespalova, Modern Hazardous Exogenous Processes in Coastal Zone of the Sea of Azov (Southern Federal Univ., Rostov-on-Don, 2015) [in Russian].
A. F. Blumberg and G. L. Mellor, in Three-Dimensional Coastal Ocean Models, Ed. by N. Heaps (Am. Geophys. Union, Washington, DC, 1987), Vol. 4, pp. 1–16.
L. V. Cherkesov, V. A. Ivanov, and S. M. Khartiev, Introduction into Hydrodynamics and Wave Theory (Gidrometeoizdat, St. Petersburg, 1992) [in Russian].
G. L. Mellor and T. Yamada, Rev. Geophys. Space Phys. 20, 851–875 (1982).
W. Wannawong, U. W. Humphries, P. Wongwises, and S. Vongvisessomjai, Int. J. Comput. Math. Sci., No. 5, 44–53 (2011).
J. Smagorinsky, Mon. Weather Rev. 91, 99–164 (1963).
W. D. Grant and O. S. Madsen, J. Geophys. Res. 84, 1797–1808 (1979).
R. Courant, K. O. Friedrichs, and H. Lewy, IBM J. Res. Dev. 11 (2), 215–234 (1967).
G. Kallos, S. Nickovic, D. Jovic, O. Kakaliagou, A. Papadopoulos, N. Misirlis, L. Boukas, N. Mimikou, G. Sakellaridis, J. Papageorgiou, E. Anadranistakis, and M. Manousakis, in Proc. WMO Conf. on Dust Storms (Damascus, November 6, 1997).
NASA Goddard Space Flight Center, Ocean Ecology Laboratory, Ocean Biology Processing Group. Moderate-Resolution Imaging Spectroradiometer (MODIS) Aqua Ocean Color Data. 2014 Reprocessing. NASA OB.DAAC (Greenbelt, MD, 2014). doi 10.5067/AQUA/MODIS_OC.2014.0
V. Suslin and T. Churilova, Int. J. Remote Sens. 37 (18), 4380–4400 (2016).
E. G. Klimova, Meteorol. Gidrol., No. 10, 54–67 (2003).
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Original Russian Text © G.G. Matishov, T.Ya. Shulga, S.M. Khartiyev, A.R. Ioshpa, 2018, published in Doklady Akademii Nauk, 2018, Vol. 481, No. 3.
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Matishov, G.G., Shulga, T.Y., Khartiyev, S.M. et al. Studies of Particulate Matter Distribution by Aqua Modis Data and Simulation Results. Dokl. Earth Sc. 481, 967–971 (2018). https://doi.org/10.1134/S1028334X18070267
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DOI: https://doi.org/10.1134/S1028334X18070267