Condition Assessment of Subsurface Drained Areas and Investigation of their Operational Efficiency by Field Inspection and Remote Sensing Methods
Main Article Content
Abstract
The extreme weather events highlight the need to develop action concepts to maintain agricultural production security in the future. Hydrological extremes can occur within a year in the form of surplus water (i.e. inland excess water), water scarcity or even drought. These adverse effects are influenced, inhibited and also facilitated by human activity. Previously, complex amelioration interventions, including subsurface drainage, aimed to improve the productivity of agricultural areas with unfavourable water management properties. The current efficiency of the subsurface drain networks in the regulation of groundwater level or soil moisture content can be questioned from several aspects. After the end of the socialist era (after 1990s), lack of maintenance and operation tasks have become typical, and are still a problem today in Hungary. Unfortunately, there is no exact national cadastre on the tile drained areas, and data is only available to a limited extent in the original amelioration plan documentations. In the present study, we aimed to reveal the possibilities of delineating the subsurface drained areas, and to develop a new method of condition assessment. Three tile drained study sites were selected on the Great Hungarian Plain in Central Europe. Our field investigations revealed the typical problems of the drained areas: (1) excessive vegetation of the receiving channels; (2) inadequate condition of the receiving main channel bed; (3) soil compaction in multiple layers above the drainage network; and (4) poor condition of outlets of the drain pipes. The developed methodology enabled us to evaluate the soil and the surface/subsurface water of the tile drained areas, and the technical condition of the drains. The necessary action plans or treatments were also outlined to replace the unused drain networks into use. Based on the scientific literature, we also sketched the target conditions and technological solutions that are required for the installation of new drains. The organization of the derived data into a GIS database could serve as a basis for the development of a cadastre of the tile drained areas based on a regional approach.
Downloads
Article Details
x
Funding data
-
European Regional Development Fund
Grant numbers GINOP 2.3.3-15-2016-00042
References
Babics, T. 1989. Jet-clean of tile drains. (Drének öblítéses tisztítása) Melioráció – öntözés és tápanyaggazdálkodás 8 (1) Agroinform, Budapest. ISSN 0238-8979, 15–17. (In Hungarian)
Barta, K., Bata, T., Benyhe, B., Brkic, M., Dogan, V., Dolinaj, D., Farsang, A., Norbert, G., Henits, L., Juhász, L., Kiss, T., Kovács, F., Mezosi, G., Mucsi, L., Mészáros, M., Obradovic, D., Pavic, D., Rakonczai, J., Savić, S., Zivanov, M. 2013. Inland Excess Water – Belvíz – Suvišne Unutrašnje Vode. 154 p., Szeged – Novi Sad, DOI:10.13140/2.1.5143.3920
Bognár, N., Geredy, E. 1989. Experimental observation of a double operation subsurface drain system on heavy texture soil. (Kettős működésű talajcsőrendszer kísérleti megfigyelése kötött talajon). Agrokémia és talajtan, 38 (1-2), 294–298. ISSN 0002-1873 (In Hungarian)
Brandyk, T., Skapski, K., Szatylowicz, J. 1993. Design and operation of drainage-subirrigation systems in Poland. Irrigation and Drainage Systems 7, 173–187. DOI:10.1007/BF0088127810.1007/BF00881278
Bukovinszky, L. 1983. Planning problems and possibilities of performance increase after amelioration. (A melioráció utáni teljesítménynövekedés tervezési problémái és lehetőségei) Melioráció – öntözés és tápanyaggazdálkodás 2 (3), Agroinform, Budapest. ISSN 0230-9203, 17–20. (In Hungarian)
Bukovinszky, L., Kun, A., Rekesztő, P. 1983. The effect of drainage and tillage on crop yields and soil salt balance in solonetz soils. (A drénezés és a talajművelés hatása a terméseredményekre és a talaj sóforgalmára szolonyeces réti talajon). Melioráció – öntözés és tápanyaggazdálkodás 2 (3), Agroinform, Budapest. ISSN 0230-9203, 13–17. (In Hungarian)
Csaplár, K. 1989. Investigation of the usability of subsurface drain systems for water retention and groundwater control. (Talajcsőrendszerek vízpótlásra való felhasználásának vizsgálata) Melioráció – öntözés és tápanyaggazdálkodás 8 (1), Agroinform, Budapest. ISSN 0238-8979, 40–46. (In Hungarian)
Djurović, N., Stričević, R. 2004. Actual state of drainage system on the experimental field “Radmilovac” and priority works to be done for the improvement of its working characteristics. Journal of Agricultural Sciences (Belgrade) 49, 169–177. DOI:10.2298/JAS0402169D10.2298/JAS0402169D
Fehér, F. 1979. Development of subsurface drainage works on cultivated lowland areas. (A síkvidéki, mezőgazdasági táblán belüli vízelvezető elemek fejlesztése) Hidrológiai Közlöny 59 (11), 519–523. (In Hungarian)
Fehér, F., Szalai, Gy. 1986. Actual tasks of land amelioration research, planning and practice development in agricultural fields. (A meliorációs kutatás, tervezés és gyakorlat fejlesztésének időszerű feladatai mezőgazdasági területeke) Hidrológiai Közlöny 66 (3), 128–132. (In Hungarian)
Filep, Gy. 1999. Quality and qualification of irrigation waters. (Az öntözővizek minősége és minősítése) Agrokémia és Talajtan. 48 (1-2). 49-63. ISSN 0002-1873 (In Hungarian)
Forgóné, N. M. 1996. Impact of land amelioration interventions on the water management and salt balance of soils. (A meliorációs beavatkozások hatása a talajok vízgazdálkodására és sóforgalmára) Hidrológiai Közlöny 76 (2), 84–88. (In Hungarian)
Gray, W., Miller, C. 2004. Examination of Darcy’s Law for Flow in Porous Media with Variable Porosity. Environmental Science & Technology 38, 5895–5901. DOI:10.1021/es049728w10.1021/es049728w
Hornyik, B. 1984. Multipurpose application of subsurface drainage at the Tiszántúl area. (Többcélú talajcsövezés a Tiszántúlon) Melioráció – öntözés és tápanyaggazdálkodás 3 (1), Agroinform, Budapest. ISSN 0231-410 X, 8–13. (In Hungarian)
Jiang, Q., Qi, Z., Xue, L., Bukovsky, M., Madramootoo, C., Smith, W. 2019. Assessing climate change impacts on greenhouse gas emissions, N losses in drainage and crop production in a subsurface drained field. Science of The Total Environment 705, 135969. DOI:10.1016/j.scitotenv.2019.13596910.1016/j.scitotenv.2019.135969
Karásek, P., Tlapáková, L., Podhrázská, J. 2015. The location and extent of systematic drainage in relation to land use in the past and at present and in relation to soil vulnerability to accelerate infiltration in the protected landscape area Železné hory. Acta Universitatis Agriculturae Et Silviculturae Mendelianae Brunensis 63 (4), 1121–1131 DOI:10.11118/actaun20156304112110.11118/actaun201563041121
Koganti, T., Van De Vijver, E., Allred, B., Greve, M., Ringgaard, J., Iversen, B. 2020. Mapping of Agricultural Subsurface Drainage Systems Using a Frequency-Domain Ground Penetrating Radar and Evaluating Its Performance Using a Single-Frequency Multi-Receiver Electromagnetic Induction Instrument. Sensors 20, 3922. DOI:10.3390/s2014392210.3390/s20143922
Lendvai, Z., Avas, K. 1983. Investigation of nutrient leaching in tile drained areas. (Tápanyagkilúgzás vizsgálata talajcsövezett területeken) Melioráció – öntözés és tápanyaggazdálkodás 2 (2), Agroinform, Budapest. ISBN 963502-253-0, 48–52. (In Hungarian)
Luo, W., Sands, G., Youssef, M., Strock, J.S., Song, I., Canelon, D. 2010. Modeling the impact of alternative drainage practices in the northern Corn-belt with DRAINMOD-NII. Agricultural Water Management. 97. 389–398. DOI:10.1016/j.agwat.2009.10.00910.1016/j.agwat.2009.10.009
Maticic, B., Steinman, F. 2007. Assessment of land drainage in Slovenia. Irrigation and Drainage 56. S127–S139. DOI:10.1002/ird.33810.1002/ird.338
Mile, S. 1986. Recent experiences of water recharge of soil through the tile drains in Békés County. (A drénen keresztül történő vízvisszapótlás újabb tapasztalatai Békés megyében) Melioráció – öntözés és tápanyaggazdálkodás 5 (3), Agroinform, Budapest. ISSN 0231-410 X, 43–50. (In Hungarian)
Molnár, E. 1987. The main directions of soil moisture regulation researches at the XIII. International Congress of Soil Science Society. (A talajnedvesség szabályozási kutatások főbb irányai a nemzetközi talajtani társaság XIII. Kongresszusa tükrében) - A talajnedvesség szabályozásának lehetőségei drénezéssel a Magyar Alföldön. Melioráció – öntözés és tápanyaggazdálkodás 6 (1), Agroinform, Budapest. ISSN 0231-410 X, 35–38. (In Hungarian)
Nyiri, L., Fehér, F. 1977. Information about the researches at the complex amelioration pilot site in Karcagpuszta, Hungary. (Tájékoztató a Karcagpusztai komplex meliorációs modelltelepen folyó kutatómunkáról) Kézirat. DATE KI, Karcag. (In Hungarian)
Shedekar, V.S., King, K.W., Fausey, N.R., Islam, K.R., Soboyejo, A.B.O., Kalcic, M.M., Brown, L.C. 2021. Exploring the effectiveness of drainage water management on water budgets and nitrate loss using three evaluation approaches. Agricultural Water Management 243, 106501 DOI: 10.1016/j.agwat.2020.10650110.1016/j.agwat.2020.106501
Singh, R; Helmers, M., Qi, Z. 2006. Calibration and Validation of DRAINMOD to Design Subsurface Drainage Systems for Iowa’s Tile Landscapes. Agricultural Water Management, 221–232. DOI:10.1016/j.agwat.2006.05.01310.1016/j.agwat.2006.05.013
Smith, D.R., King, K.W., Johnson, L., Francesconi, W., Richards, P., Baker, D., Sharpley, A.N. 2015. Surface Runoff and Tile Drainage Transport of Phosphorus in the Midwestern United States. Journal of Environmental Quality 44 (2), 495–502 DOI:10.2134/jeq2014.04.017610.2134/jeq2014.04.0176
Sojak, M., Ivarson, K.C. 1980. Iron and Manganese Oxide problems in tiledrains. Factsheet (Ontario. Ministry of Agriculture and Food) pp. 3.
Sojka, M., Kozłowski, M., Kęsicka, B., Wróżyński, R., Stasik, R., Napierała, M., Jaskuła, J., Liberacki, D. 2020. The Effect of Climate Change on Controlled Drainage Effectiveness in the Context of Groundwater Dynamics, Surface, and Drainage Outflows. Central-Western Poland Case Study. Agronomy 10, 625. DOI:10.3390/agronomy1005062510.3390/agronomy10050625
Soni, S., Kumar, A., Sehrawat, N., Kumar, A., Kumar, N., Sharma, C., Mann, A. 2021. Effect of saline irrigation on plant water traits, photosynthesis and ionic balance in durum wheat genotypes. Saudi Journal of Biological Sciences 28, DOI:10.1016/j.sjbs.2021.01.05210.1016/j.sjbs.2021.01.052
Szinay M. 1983. Data of tile drained areas from some European countries, and Hungary. (Néhány európai ország talajcsövezési adatai és a hazai értékelés). Hidrológiai Tájékoztató 23 (2), 16–17. (In Hungarian)
Tlapáková, L., Žaloudík, J., Kolejka, J. 2017. Thematic survey of subsurface drainage systems in the Czech Republic. Journal of Maps 13 (2), 55–65. DOI:10.1080/17445647.2016.125912910.1080/17445647.2016.1259129
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 Brunensis 63, 1587–1599. DOI:10.11118/actaun20156305158710.11118/actaun201563051587
Tolomio, M., Borin, M. 2019. Controlled drainage and crop production in a long-term experiment in North-Eastern Italy. Agricultural Water Management 222 (2019) 21–29. DOI:10.1016/j.agwat.2019.05.04010.1016/j.agwat.2019.05.040
Transforming Drainage Project. Online available at: https://transformingdrainage.org
Van Leeuwen, B., Henits, L., Mészáros, M., Tobak, Z., Szatmári, J., Pavic, D., Savić, S., Dolinaj, D. 2013. Classification Methods for Inland Excess Water Modeling. Journal of Environmental Geography 6 (1-2), 1–8. DOI:10.2478/v10326-012-0001-510.2478/v10326-012-0001-5
Wittmann, M., Szalai, S., Regős, F., Rupert, T., Szalóki, L., Primás, A., Gróf, M., Ughy, Gy. 1981. Cadastre of subsurface drained areas of Hungary. (Magyarország talajcsövezett területeinek katasztere) Vízgazdálkodási Intézet IV. Szakágazati Iroda, Vízrendezési és Mezőgazdasági Vízellátási Osztály. Budapest. 1–159. (In Hungarian)