| publications-2881 |
Conference proceedings |
2023 |
Oguche, F.M., Fehér, Z.Z. |
DEVELOPMENT OF AN INTELLIGENT IRRIGATION CONTROL AND REAL-TIME MONITORING HUB |
Proceedings Book 5.INTERNATIONAL FOOD, AGRICULTURE AND VETERINARY SCIENCES CONGRESS |
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Control Systems |
Irrigation Systems |
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No abstract available |
858375 |
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| publications-2882 |
Conference proceedings |
2023 |
Richard Hoffmann, Klaus Görgen, Heye Bogena, Harrie-Jan Hendricks-Franssen |
From observations towards operational site-specific soil moisture ensemble forecasting |
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Predictive Analytics |
Precipitation & Ecological Systems |
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No abstract available |
858375 |
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| publications-2883 |
Conference proceedings |
2023 |
Attila Nagy, Erika Buday-Bódi, Andrea Szabó, Zsolt Zoltán Fehér, János Tamás |
Assessment of UAV-based LiDAR and photogrammetry data in crop morphology monitoring for advanced irrigation |
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IoT & Sensors |
Irrigation Systems |
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No abstract available |
858375 |
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| publications-2884 |
Conference proceedings |
2021 |
Suhad A. A. A. N. Almuktar, Suhail Najem Abed, Miklas Scholz |
Vertical-flow Constructed Wetlands for Urban Wastewater Treatmnet and Reuse for Irrigation of Crops |
2 BOOK OF ABSTRACTS 9th International Symposium on Wetland Pollutant Dynamics and Control (WETPOL 2021) |
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Wastewater Treatment Plants |
Irrigation Systems |
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No abstract available |
858375 |
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| publications-2885 |
Conference proceedings |
2021 |
Arkadiusz Glogowski, Oliver Schilling, Philip Brunner, Wiesaw Fiakiewicz, Bernard Gaka, Nora Hatvani, Ewa Burszta-Adamiak, Magorzata Biniak-Pierog, Miklas Scholz, Yu Wang |
Assessing the Efficiency of a Soil Water Retainer Through Modelling Approaches and Field Experiments |
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Simulation & Modeling |
Groundwater |
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No abstract available |
858375 |
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| publications-2886 |
Book chapters |
2020 |
Claudine Ferrané, Raymond Reau et Lorène Prost |
Chapter 18. Qualité de l’eau en aire d’alimentation de captage : gestion dynamique avec la démarche Transit’Eau. |
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Uncategorized |
River Basins |
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No abstract available |
858375 |
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| publications-2887 |
Other |
2024 |
Tamara Avellán, Alba Canet-Marti, Eriona Canga, Valentina Guerrieri, Simone Amadori, Aashna Mittal, Stevo Lavrnic, Marco Hartl, Nidhi Nagabhatla |
Understanding Multifunctionality of Constructed Wetlands in Agricultural Settings in the European Region |
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Uncategorized |
Precipitation & Ecological Systems |
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No abstract available |
858375 |
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| publications-2888 |
Conference proceedings |
2021 |
Alba Canet-Marti, Angela Morales-Santos, Reinhard Nolz, GĂĽnter Langergraber, and Christine Stumpp |
Hydrological processes and water flux quantification in agricultural fields under different tillage and irrigation systems using water stable isotopes |
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10.5194/egusphere-egu21-11039 |
Hydrological modeling |
Irrigation Systems |
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<p>Sustainable agriculture should be based on management practices that improve resource usage efficiency and minimize harmful impacts on the environment while maintaining and stabilizing crop production. Both tillage and irrigation can have a great influence on hydrological processes within agroecosystems. However, it remains difficult to directly assess the effect of practices on water fluxes which has been mainly indirectly quantified by complex numerical modelling methods in the past. Therefore, the objective of the study was to use a space for time concept and measure oxygen and hydrogen isotopes (&#948;<sup>18</sup>O, &#948;<sup>2</sup>H) in the pore water of soil profiles as well as moisture contents for quantifying the soil water balance and fluxes. Covering all combinations, soil profiles and isotope analysis was performed for 16 sites planted with winter wheat and managed with different tillage (conventional tillage (CT), reduced tillage (RT), minimal tillage (MT), and no-tillage (NT)) and irrigation systems (hose reel boom irrigation with nozzles (BI), sprinkler irrigation (SI), drip irrigation (DI) and no irrigation (NI)). The results indicated that the more intense the tillage, the lower the water content. Among the irrigation systems, DI had the highest average water content. Tracing the minimum in the isotopic composition of the pores water within the depth profiles showed a deeper percolation of water in the CT fields, which indicates higher water flow velocity. Considering both water content and differences in water flow velocities resulted in water fluxes ranging from 90 to 151 mm yr<sup>-1</sup>. The losses due to evapotranspiration varied between 57 and 80%. The resulting evapotranspiration within tillage and irrigation variants decreased in the order RT>CT&#8776;MT>NT, and SI>BI>DI>NI. Thus, the method revealed that the lower water content in CT fields is a consequence of deeper water infiltration. Moreover, irrigation water contributed mostly to evapotranspiration, and drip irrigation showed the lowest evapotranspiration losses among irrigation systems. This study demonstrated that water stable isotopes can be used as indicators and are a promising method to quantify water fluxes in agricultural fields with great potential for evaluating management practices.</p> |
858375 |
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| publications-2889 |
Conference proceedings |
2023 |
Nagy, A., Fehér, Z.Z., Szabó, A., Buday-Bódi, E., Magyar, T., and Tamás, J. |
Management of alternative water resources for variable rate irrigation - a Hungarian case study |
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Uncategorized |
Irrigation Systems |
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No abstract available |
858375 |
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| publications-2890 |
Other |
2021 |
Fagerström E |
Tenta på distans en svår nöt att knäcka (An exam by distance is a difficult nut to crack). Article featuring Miklas Scholz and the WATERAGRI project. |
Sydsvenskan |
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Uncategorized |
Uncategorized |
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No abstract available |
858375 |
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