Acta Univ. Agric. Silvic. Mendelianae Brun. 2015, 63(5), 1587-1599 | DOI: 10.11118/actaun201563051587

Use of Remote Sensing for Identification and Description of Subsurface Drainage System Condition

Lenka Tlapáková1, Jiří Žaloudík2, Zbyněk Kulhavý1, Igor Pelíšek1
1 Research Institute for Soil and Water Conservation, v. v. i., B. Němcové 231, 530 02 Pardubice, Czech Republic
2 Biology Centre of the AS CR, v. v. i. - Institute of Hydrobiology, Na Sádkách 7, 370 05 České Budějovice, Czech Republic

The paper presents basic facts and knowledge of special survey focused on detection and evaluation methods of subsurface drainage systems by means of remote sensing. It is aimed at the complex analysis of applied processes in spatial localization, classification or assessment of subsurface drainage systems' actual condition by means of distance research methods.
Data collection, their analysis and interpretation have been shown in seven experimental areas in the Czech Republic. Mainly it means determination of potential, application principles and limits of pracical use of different technologies and image data obtained by remote sensing in solving questions.

Keywords: remote sensing, RPAS, aerial image interpretation, subsurface drainage
Grants and funding:

This study was supported by the Czech Ministry of Agriculture, project NAZV (QJ1220052).

Prepublished online: October 29, 2015; Published: December 1, 2015  Show citation

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Tlapáková, L., Žaloudík, J., Kulhavý, Z., & Pelíšek, I. (2015). Use of Remote Sensing for Identification and Description of Subsurface Drainage System Condition. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis63(5), 1587-1599. doi: 10.11118/actaun201563051587
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    References

    1. ALE, S., BOWLING, L. C., NAZ, B. 2007. Mapping of tile drains in Hoagland watershed for simulating the effects of drainage water management. ASAE Annual Meeting 2007.
    2. DOBROVOLNÝ, P. 1998. Remote Earth Study, Digital Image Processing [in Czech]. Brno: MU Brno.
    3. DOLEŽAL, F. et al. 2006. Hydrology research in small agricultural catchments [in Czech]. J. Hydrol. Hydromech, 54(2): 217-229.
    4. ČESKÁ GEOLOGICKÁ SLUŽBA. 2007. Geological map of the Czech Republic 1 : 500 000 [in Czech]. Praha: Česká geologická služba.
    5. GOETTELMAN, R. C., GRASS, L. B., MILLARD, J. P., NIXON, P. R. 1983. Comparison of multispectral remote-sensing techniques for monitoring subsurface drainage conditions. NASA Technical Memorandum. No. 84317. 16 pp.
    6. KEMEL, M., KOLÁŘ, V. 1982. Hydrology [in Czech]. Praha: ČVUT.
    7. KOHLER, M. A, LINSLEY, R. K. 1951. Predicting the runoff from storm rainfall. Research Paper No. 34. Washington: Weather Bureau, US Department of Commerce.
    8. KOVÁŘ P. 1990. Use of hydrological models for maximal water discharge determination in the small watersheds [in Czech]. Praha: Vysoká škola zemědělská v Praze.
    9. KRUSINGER, A. E. 1971. Location of drainage tile using aerial photography. MS Thesis. Ohio: Ohio State University.
    10. LIPSKÝ, Z. 1990. Utilization of aerial images for monitoring agricultural land waterlogging [in Czech]. In: Proceedings of the conference Utilization of RS in Water Management. Prague: DT CSSTS, 81-90.
    11. LIPSKÝ, Z. 1990. Potential use of aerial images in protection of the agricultural land fund [in Czech]. Collections of CSGS, 95(2): 87-95. Go to original source...
    12. NAZ, B. S., ALE, S., BOWLING, L. C. 2009. Detecting subsurface drainage systems and estimating drain spacing in intensively managed agricultural landscapes. Agricultural water management, 96: 627-637. DOI: 10.1016/j.agwat.2008.10.002 Go to original source...
    13. NĚMEČEK, J. et al. 2011. Taxonomy classification soil system of the Czech Republic [in Czech]. 2nd edition. Praha: ČZU Praha.
    14. NORTHCOTT, W. J., VERMA, A. K., COOKE, R. A. 2000. Mapping subsurface drainage systems using remote sensing and GIS. In: ASAE Annual International Meeting. Milwaukee, Wisconsin, USA, 9-12 July 2000, 1-10.
    15. PLÁNKA, L. et al. 1983: Preliminary catalogue of spectral properties of selected objects for interpretation of photographic materials in Earth remote sensing [in Czech]. Research Report. Brno: CGI CSAS Brno.
    16. QUITT, E. 1971. Climatic regions of the ČSR. 1 : 500 000 [in Czech]. Brno: Geografický ústav ČSAV Brno.
    17. SPRECKELS, V. 1995. Erfassung und Auswertung von Dränungen in landwirtschaftlichen Nutzflächen auf der Basis von Fernerkundungsdaten und geographischen Informationssystemen. Diplomarbeit. Hannover: Leibnitz Universität.
    18. SVOBODOVÁ, D. 1990. Documentation and technical implementation of drainage. Research Report VE04 of project P 06-329-813-02 Technique, technology and renovation of drainage. [in Czech] Prague: Research Institute for Agricultural Land Improvement, Prague.
    19. SWIATKIEWICZ, A. 1994. Zdalne rozpoznawanie rolniczych sieci drenarskich za pomocą zdjęć lotniczych. Dysertacja. Wroclaw: Zeszyty Naukowe Akademii Rolniczej we Wroclawiu. Rozprawy. No. 242.
    20. ŠEFRNA, L. 1986. Use of Earth remote sensing in pedology [in Czech]. PhD Thesis. Praha: Research Institute for Agricultural Land Improvement, Prague.
    21. TETZLAFF, B., KUHR, P., VEERECKEN, H., WENDLAND, F. 2009. Aerial photograph-based delineation of artificially drained areas as a basis for water balance and phosphorus modelling in large river basins. Physics and Chemistry of the Earth, 34(8): 552-564. DOI: 10.1016/j.pce.2009.02.002 Go to original source...
    22. TLAPÁKOVÁ, L., KULHAVÝ, Z. 2009. Use of RS materials in assembling the atlas of drainage systems. Water Management [in Czech: Vodní hospodářství], 59(6): 221-223.
    23. TLAPÁKOVÁ, L., KULHAVÝ, Z., BUREŠOVÁ, Z. 2008. Atlas of drainage systems in the district of Chrudim with delineation of areas identified by means of remote sensing [in Czech]. RISWC.
    24. TLAPÁKOVÁ, L. et al. 2014. Identification of drainage systems using remote sensing (introduction to the topic). Water Management [in Czech: Vodní hospodářství], 64(3): 8-14.
    25. VERMA, A. K., COOKE, R. A., WENDTE, L. 1996. Mapping subsurface drainage systems with color infrared aerial photographs. In: AWRA Symposium on GIS and Water Resources. Ft. Lauderdale, Florida, 22-26 September 1996.
    26. VINOGRADOVA, N. V. 1995. Razrabotka metodov oceňki sostajania drenažnych sistěm po aerofotosnimkam s ispol'zovaniem spektral'nych charakteristik počv. MS thesis. Moscow: Institute of Hydrotechnique and Land Recultivation of A. N. Kostyakov.
    27. ŽALOUDÍK, J. 1994. Use of Earth remote sensing in geo-ecology research of the water component in landscape [in Czech]. PhD Thesis. České Budějovice: IEL AS CR.

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