Using the space information for solving the problems of water management and water guard

1Lyalko, VI, 2Fedorovskyi, OD, 3Sirenko, LA, 2Riabokonenko, OD, 4Kostyuchenko, Yu.V, 4Yakimchuk, VG
1State institution «Scientific Centre for Aerospace Research of the Earth of the Institute of Geological Sciences of the National Academy of Sciences of Ukraine», Kyiv, Ukraine
2State institution «Scientific Centre for Aerospace Research of the Earth of the Institute of Geological Science of the National Academy of Sciences of Ukraine», Kyiv, Ukraine
3Institute of Hydrobiology of the National Academy of Sciences of Ukraine, Kyiv, Ukraine
4State institution «Scientific Centre for Aerospace Research of the Earth of the Institute of Geological Science of the National Academy of Sciences of Ukraine», Kyiv, Ukraine
Kosm. nauka tehnol. 1997, 3 ;(2):40–49
https://doi.org/10.15407/knit1997.03.040
Section: Study of the Earth from Space
Publication Language: Ukrainian
Abstract: 
We review some examples of the use of space information for solving various problems in water management and water preservation. Spectral information features which can be used for a remote estimation of water environment condition are considered. The basic principles of decoding space images are illustrated by the example of water objects of Ukraine.
Keywords: remote sensing, water management
References: 
Goloudin R. I. Remote methods of ecological and hydrographic study and mapping of the waters. Earth Res. from Space, No.3, 115—122 (1995) [in Russian].
Kamov I. Yu. Adaptive Algorithms of Estimation of “A” Chlorophyll Content in Phytoplancton Based on Remotely Sensed Data on Mesotrophic and Eutrophic Water Objects. Earth Res. from Space, No. 1, 46—51 (1992) [in Russian].
Kondrat’ev K. Ya., Pozdnyakov D. V. Remote monitoring methods for the quality of natural waters, 62 p. (Nauka, Leningrad, 1985) [in Russian].
Kondrat’ev K. Ya., Bruk V. V., Druzhinin G. V., et al. The possibility of using space-based information for the study of processes of pollution and eutrophication of lake systems. Earth Res. from Space, No. 4, 49—57 (1988) [in Russian].
Kondrat'ev K. Ya., Shumakov F. T. Remote monitoring of eutrophication of water bodies. Vodnye resursy, No. 5, 152—158 (1990) [in Russian].
Kondrat'ev K. Ya. The development of space-based remote sensing in the United States: results of development for the 1994 financial year. Earth Res. from Space, No. 2, 118— 123 (1996) [in Russian].
Kondrat'ev K. Ya., Pozdnyakov D. V. New in the remote sensing of environmental. Earth Res. from Space, No. 1, 107—121 (1996) [in Russian].
Krasovskii G. Ya., Buznikov A. A., Vedeshin L. A. Information Support for Water Management and Conservation Projects: Mapping of the Patchiness of Lakes and Water Reservoirs from Space Photos, Earth Res. from Space, No.4, 53—59 (1989) [in Russian].
Lyalko V. I., Fedorovskyi A. D. Centre for Aerospace Research of the Earth IGS NAS of Ukraine: achievements and prospects. Geolog. zhurn., No. 1—2, 67—72 (1996) [in Russian].
Sirenko L. A., Korelyakova I. L., Mikhajlenko L. E., et al. Vegetation and the bacterial population of the Dnieper and its reservoirs, 231 p. (Nauk. dumka, Kiev, 1989) [in Russian].
Fedorovskyi O.D., Sirenko L.A., Zvenigorodskii E. L., et al. Assessing the ecological state of water bodies with the use of information from space apparatuses. Kosm. nauka tehnol., 2 (5—6), 103—106 (1996) [in Russian].
https://doi.org/10.15407/knit1996.05.103
Feoktistov A. A., Molchanova A. F., Zlobin E. L., Bocharov V. P. Ivankovo reservoir remote sensing, Earth Res. from Space, No.4, 93—95 (1994) [in Russian].
Bukata R. P., Jerome J. H., Bruton J. E. et al. Water quality model of like Ontario. I. Determination of the optical cross section of organic and inorganic particulates in like Ontario. Appl. Opt., 10 (9), 1696—1703 (1981).
https://doi.org/10.1364/AO.20.001696
Bukata R. P., Jerome J. H., Kondrtyev K. Y., Hjzdykov D. V. Optic properties and remote sens. Of inland and coastal waters, 365 p. (CRC press, N. Y., 1995).

Lathorp R. G., Lillesand T. M., Vandell B. S. Testing the utility of simple  multi-date  Thematic Mapper calibration  algorithms  of monitoring turbid inland waters. Int. J. Rem. Sens., 12 (10), 2045—2063 (1991).
https://doi.org/10.1080/01431169108955235