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. , Boca Raton, Florida, USA . Helikson , H.J. , Haman , D.Z. & Baird , C.D. ( 1991 ): Pumping water for irrigation using solar energy , Univ. of Florida, Fact Sheet EES-63

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Resources and Arid Environment, Riyadh, Kingdom of Saudi Arabia, 26–29 November. Aissi, A., Chouker-Allah, R., Elmomari, H., Hamdi, A., Soudi, B. (1997): Impact of irrigation with treated wastewater on infiltration, seepage and

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Blümling, B., Yang, H., Pahl-Wostl, C. (2011): Proposal for the integration of irrigation efficiency and agricultural water productivity. Options méditerranéennes. Series B , 57 , 263

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Balogh, J. (1978): Vizigényszámítások az öntözőgazdálkodásban. (Calculating Water Needs in Irrigated Treatments.) Mezőgazdasági Kiadő, Budapest. Vizigényszámítások az

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. (1976): Response of snap bean to irrigation, nitrogen fertilization, and plant population. J. Amer. Soc. Hort. Sci. , 101 , 37--40. Response of snap bean to irrigation, nitrogen fertilization, and plant population

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Kang, S., Liang, Z., Hu, W., Zhang, J. (1998): Water use efficiency of controlled alternate irrigation on root-divided maize plants. Agric. Water Manage. , 38 , 69–76. Zhang J

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Nguy, D., Sedgley, C.: The influence of canal curvature on the mechanical efficacy of root canal irrigation in vitro using real-time imaging of bioluminescent bacteria. Journal of Endodontics 32 , 1077–1080 (2006

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relations, irrigation management and crop yield. Expt. Agric. , 1 , 161-177. Plant water relations, irrigation management and crop yield. Expt. Agric. 1

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Ramamoorthy, K., Selvaraj, K. V., Chinnaswami, K. N. (1993): Varietal responses of rice (Oryza sativa) to different irrigation regimes. Indian J. Agron. , 38 , 468-469. Varietal

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Influences of irrigation rates and N fertilization on soybean grain yield and N leaching were tested under field conditions on Osijek, during the growing seasons 2001, 2003 and 2005 (A). The irrigation started on level of 80% field water capacity, A1 (FWC) and at level of 65% FWC, A2 and irrigate up to FWC, and non-irrigated, A3. Increased rates of N: 0, B1; 100, B2 and 200 kg N ha −1 , B3 were applied. The experiment was conducted by split-plot method. Ebermeier’s lysimeters (open type: 80 × 80 × 10 cm) were conducted for collecting leachate for measuring nitrogen leaching. The soybean grain yield showed statistical very significant differences in growing season, irrigation and interaction of growing season and irrigation. Mean leaching NO 3 -N varied from 0.32 kg N ha −1 to 7.88 kg N ha −1 in year 2001, while were greater in year 2005 and varied form 2.41 kg N ha −1 to 23.71 kg N ha −1 .

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