|
Article information
2016 , Volume 21, ¹ 1, p.5-14
Andrianova A.V., Yakubailik O.E.
Geographic information web system providing the hydrobiological monitoring on the example of Yenisei river zoobenthos
The current condition of endemic Baikal amphipod communities in the part of the river Yenisei from the dam of Krasnoyarsk hydroelectric power station to the mouth of the river Angara was studied. On the basis of data of long-term field researches geospatial database with results of observations was formed. This database is located on the geoportal of the Institute of Computational Modeling SB RAS on the separate topic section. Purpose. The purpose of this study is a theoretical and practical research on the opportunities of using modern GIS technologies to improve the efficiency of hydrobiological monitoring, to design software tools for web mapping and data analysis of field researches. Methods. Firstly, construction technologies of distributed informational systems in multitier architecture, program interfaces and protocols, standards of information exchange were observed according to the considered class of problems. Secondly, there were studied the abilities of these methods of geoinformation and cartographic modelling in the analysis of spatial distribution of Baikal amphipods - in the search of interrelations to different factors of the environment, qualitative and quantitative evaluation of various parameters. Results. The present study has an interdisciplinary character. On one hand, it contains the results of the hydrobiological research, connected with the determination of production potential of fish forage resources in the part of the Yenisei river from the dam of Krasnoyarsk hydroelectric power station to the mouth of the river Angara. On the other hand, the result of the completed work is the formation of program-technological support of the hydrobiological monitoring system by the example of Yenisei zoobenthos, the development of geospatial database and the thematic section in the geoportal of the Institute of Computational Modeling SB RAS. Geoportal services provide data visualization in the form of interactive thematic maps and the instant access to the data through the cartographic web-services of modern GIS. Conclusion. Modern GIS web-systems and technologies have ample opportunities, which can significantly improve the efficiency of hydrobiological monitoring. Information and analytical support of the monitoring system, based on the considered approach, can simplify the access to the necessary information, provide new opportunities for analysis and modelling and can promote the development of interdisciplinary studies.
[full text]
Keywords: geoportal, web mapping, spatial data, geodata, hydrobiological monitoring, zoobenthos, Baikal amphipods
Author(s):
Andrianova Anna Vladimirovna
PhD.
Position: Senior Research Scientist
Office: Institute of Computational Modeling SB RAS, Research Institute of Ecology of Fishery Reservoirs
Address: 660036, Russia, Krasnoyarsk, Akademgorodok 50/44
Phone Office: (391)290-5135
E-mail: AndrAV@icm.krasn.ru
SPIN-code: 4717-7413Yakubailik Oleg Eduardovich
PhD. , Associate Professor
Position: Senior Research Scientist
Office: Institute of Computational Modelling SB RAS, Federal Research Center Krasnoyarsk Science Center SB RAS
Address: 660036, Russia, Krasnoyarsk, Akademgorodok 50/44
Phone Office: (391)242-6432
E-mail: oleg@icm.krasn.ru
SPIN-code: 7820-4178 References:
[1] Andrianova, A.V. Dinamika razvitiya eniseyskogo zoobentosa v nizhnem b"efe Krasnoyarskoy GES [Dynamics of Yenisei zoobenthos evolution in the downstream of Krasnoyarsk Hydroelectric Power Station]. Tomsk State University Journal. 2013; 1(21): 7488. (In Russ.)
[2] Gladyshev, M.I., Moskvicheva, A.V. Baykal'skie vselentsy zanyali dominiruyushchee polozhenie v bentofaune verkhnego Eniseya [ Baikal invaders have become dominant in the upper Yenisei benthofauna]. Doklady Biological Sciences. 2002; 383(16):138140.
[3] Matafonov, D.V., Kamaltynov, R.M., Itigilova, M.T. Features of Expansion of Gmelinoides fasciatus (Stebbing, 1899) in Water Bodies of East Transbaikalia (for Lake Arakhley as Example). Siberian Journal of Ecology. 2006; 13(5):595601. (In Russ.)
[4] Berezina, N.A. Invasions of alien amphipods (Amphipoda: Gammaridea) in aquatic ecosystems of North-Western Russia: pathways and consequences. Hydrobiologia. 2007; (590):1529.
[5] Yakubailik, O.E., Popov, V.G. Technologies for Internet Geographic Information Systems. Computational Technologies. 2009; 14(6):116126. (In Russ.)
[6] Kadochnikov, A.A., Popov, V.G., Tokarev, A.V., Yakubailik, O.E. Implementation of Internet GIS Portal for Environment and Natural Resources Monitoring Tasks. Journal of Siberian Federal University. Engineering and Technologies. 2008; 1(4):377386. (In Russ.)
[7] Yakubailik, O.E. Geoinformation internet system for environmental monitoring in the productive activity area of oil and gas industry enterprises. Vestnik SibGAU. 2010; 1(27):4045. (In Russ.)
[8] Barbashova, M.A., Malavin, S.A., Kurashov, E.A. First finding of baikalian amphipod Micruropus possolskii Sowinsky, 1915 (Amphipoda, Crustacea) in lake Ladoga. Russian Journal of Biological Invasions. 2013; 4(4):219224.
[9] Yakubailik, O. E., Gosteva, A. A., Erunova, M. G., Kadochnikov, A. A., Matveev, A. G., Pyataev, A. S., Tokarev, A. V. Developing information support tools for observations of the environment state. Bulletin of Kemerovo State University. 2012; ¹ 4/2(52):136142. (In Russ.)
Bibliography link:
Andrianova A.V., Yakubailik O.E. Geographic information web system providing the hydrobiological monitoring on the example of Yenisei river zoobenthos // Computational technologies. 2016. V. 21. ¹ 1. P. 5-14
|
