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Effect of nitrogen forms on growth and chemical changes in the rhizosphere of strawberry plants
Authors:Lidia Sas  Horst Marschner  Volker Römheld  Stanisław Mercik
Affiliation:(1) Research Institute of Pomology and Floriculture, Skierniewice, Poland;(2) University of Hohenheim, Stuttgart, Germany;(3) Warsaw Agricultural University, Warsaw, Poland
Abstract:The experiment was set up to examine the influence of different nitrogen forms: (NH4)2SO4, Ca(NO3)2 or NH4NO3 on growth response, root induced pH changes in the rhizosphere, root-borne acid phosphatase activity in strawberry plants cv. Senga Sengana. The plants grown on sandy mineral soil were fertilized with 3 forms of nitrogen, in concentrations of 46 mg N·kg−1 soil. The plants were grown in rhizoboxes with removable plexiglass lids. To ensure the root growth along the plexiglass lids, the rhizoboxes were placed at an angle of about 50° with the lid on the lower side. In case of ammonium supply, the nitrification inhibitor DIDIN was added (10 mg·kg−1 of moist soil) to prevent conversion of ammonium into nitrate. The growth response (roots and shoots) of strawberry plants were determined after 11 weeks of treatment with different N forms. The best development of the root system and shoots (root and shoot dry weight and root length) was obtained, when ammonium nitrate was supplied. It is suggested therefore, that NH4NO3 stimulates vegetative growth of strawberry plants cv. Senga Sengana. However, there were no statistical differences in a leaf and flower number of the plants grown under different forms of N-fertilization. Determination of rhizosphere pH, and acid phosphatase activity were executed using non-destructive techniques, which enabled weekly measurement of chemical changes in the rhizosphere. The results revealed that the form of nitrogen supplied had a predominant effect on chemical changes in the rhizosphere of strawberry plants. The highest pH values (average pH 6.8) were measured in the rhizosphere of individual plants supplied with Ca(NO3)2. Whereas the lowest pH values (average pH 5.8) were detected in the presence of (NH4)2SO4. The curve of rhizosphere pH measured along individual roots of the plants treated with Ca(NO3)2 represents the highest pH values whereas the curve of rhizosphere pH under (NH4)2SO4 treatment had the lowest pH values. The highest activity of acid phosphatase were observed in the rhizosphere of strawberry plants grown in the presence of (NH4)2SO4, at pH 5.8.
Keywords:acid phosphatase activity  ammonium  growth response  nitrate  rhizosphere pH  root system  Senga Sengana
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